LTE Radio Access, Rel. FDD-LTE15A, Operating Documentation
LTE Performance Measurements and Key Performan Indicators DN0944219 Issue 08A Approval Date 2015-09-23
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, Operating
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1. Introduction
This manual describes performance measurements which are required to monitor the functionality of network elements and interfaces. The scope is to define performance measurements which allow to monitor procedures and the resource situation
2. How to read this Excel report
The Excel report provides complete information on counters and key performance indicators (KPIs). It shows the full set of counter and KPI attributes, including information about introduced changes. The Excel report consists of three main sections: - Measurement List - Counter List - KPI List The measurements, counters, and KPIs are listed in an alphanumeric ascending order. In the KPI List there are links to be followed in the Measurement column. The links move to a tab with the Counter List and filter out the counters that take part in the KPI formula. Notice: Macros need to be enabled to use the links. Note: It is recommended to clear the filter from the Counter ID column of the Counter List before the reading is continued.
2.1 Measurement List This section presents complete measurement information including the following: - measurement ID - measurement name - measurement description - information about changes
2.2 Counter List This section presents complete counter information including the following: - counter ID - counter name - counter description - trigger type - sampling interval - information about changes
2.3 KPI List This section presents complete KPI information including the following: - KPI ID - KPI name - KPI description - KPI formula - KPI class - information about changes
2.4 Field descriptions
Field descriptions are provided in the second row of Measurement List, Counter List, and KPI List sections. Use fold (-) and unfold (+) buttons on the left panel to hide and show the field descriptions respectively.
2.5 Information about changes Information about changes is a part of Measurement List, Counter List and KPI List sections and is available as follows:
1. Definition of whether the measurement/counter/KPI is new, removed. That definition is provided in the following columns: - Changes between issues ... which shows the changes since the previous issue of the document. - Changes between releases ... which shows the changes since the latest issue of the document in the previous product release.
2.5 Information about changes Information about changes is a part of Measurement List, Counter List and KPI List sections and is available as follows:
1. Definition of whether the measurement/counter/KPI is new, removed. That definition is provided in the following columns: - Changes between issues ... which shows the changes since the previous issue of the document. - Changes between releases ... which shows the changes since the latest issue of the document in the previous product release. If the cell is empty, the measurement/counter/KPI is neither changed, nor new, nor removed. Note that removed measurements/counters/KPIs are listed at the very bottom, and they are marked with red font. Filters are enabled for convenient browsing of the changed categories.
2. Detailed information about changes, showing the current and previous values of parameter attributes. This information is provided in the following columns:
-
in issue ... which shows the value in the previous issue of the document. - in release ... which shows the value in the latest issue of the document in the previo product release.
The columns are grouped into attribute-specific sections for a well-structured and a more convenient view. Use unfold (+) a fold (-) buttons in the top bar to browse the attribute-specific details about changes. Use unfold all (2) and fold all (1) button on the left-hand side of the top bar to show and hide details about changes respectively for the whole report.
Note that for all measurements/counters/KPIs, except new and removed ones, the field values for a previous issue and previous release are always provided to show complete history information. Additionally, the changed attributes of measurements/counters/KPIs are highlighted in grey. Highlights are enabled to indicate whether there is a change between issues or releases.
nality of network elements and ures and the resource situation.
(KPIs). It shows the full set of
tab with the Counter List and
ore the reading is continued.
List sections. Use fold (-) and
and is available as follows:
vided in the following columns:
ment. ent in the previous product
and is available as follows:
vided in the following columns:
ment. ent in the previous product
marked with red font.
attributes. This information is
e of the document. e of the document in the previous
venient view. Use unfold (+) and d all (2) and fold all (1) buttons e whole report.
s for a previous issue and changed attributes of her there is a change between
Note: See the How to Read This Report tab for instructions on the usage of Measurement List Changes between issues 08 and 08A
Changed
Changes between releases Measurement ID RL70 and FDD-LTE15A
Changed
8000
Changed
8001
8004
Changed
Changed
8005
Changed
8006
Changed
8007
8008
8009
Changed
Changed
8010
Changed
Changed
8011
Changed
8012
Changed
Changed
Changed
8013
Changed
8014
Changed
8015
Changed
8016
Changed
8017
Changed
8018
8019
Changed
8020
Changed
8021
8022
8023
8025
8026
8027
Changed
Changed
8029
New
8030
8031
New
8032
New
8033
New
8034
New
8035
New
8036
New
8037
Changed
51120
51121
51123
Changed
51125
51126
Changed
51127
51128
Changed
51129
Changed
51130
51131
51132
51136
Changed
51137
Changed
51138
51139
Measurement Name
Measurement Description
Measurement Network Profile
LTE S1AP
S1 Interface measurement (M8000) measures GTP protocol procedures on user plane. LTE Cell Load measurement (M8001) measures packet scheduling related measurements. Transport Load measurement (M8004) measuresGTP-U protocol procedures. LTE Power and Quality UL measurement (M8005) measures UL connection quality related measurements. LTE EPS Bearer measurement (M8006) measures EPS Bearer related measurements. LTE Radio Bearer measurement (M8007) measures Radio Bearer related measurements. LTE RRC measurement (M8008) measures RRC protcol procedures.
PLMN-MRBTS-LNBTS / PLMN-SBTS-LNBTS
LTE Cell Load
LTE Transport Load
LTE Power and Quality UL
LTE EPS Bearer
LTE Radio Bearer
LTE RRC
LTE Intra eNB Handover
LTE Power and Quality DL
LTE Cell Resource
LTE Cell Throughput
PLMN-MRBTS-LNBTSLNCEL, MCC-MNC / PLMN-SBTS-LNBTSLNCEL, MCC-MNC PLMN-MRBTS-LNBTS / PLMN-SBTS-LNBTS
PLMN-MRBTS-LNBTSLNCEL, MCC-MNC / PLMN-SBTS-LNBTSLNCEL, MCC-MNC PLMN-MRBTS-LNBTSLNCEL, MCC-MNC / PLMN-SBTS-LNBTSLNCEL, MCC-MNC PLMN-MRBTS-LNBTSLNCEL, MCC-MNC / PLMN-SBTS-LNBTSLNCEL, MCC-MNC PLMN-MRBTS-LNBTSLNCEL, MCC-MNC / PLMN-SBTS-LNBTSLNCEL, MCC-MNC LTE Intra eNB Handover PLMN-MRBTS-LNBTSmeasurement LNCEL, MCC-MNC / (8009)measures Intra PLMN-SBTS-LNBTSeNB Handovers LNCEL, MCC-MNC LTE Power and Quality DL PLMN-MRBTS-LNBTSmeasurement (M8010) LNCEL, MCC-MNC / measures DL connection PLMN-SBTS-LNBTSquality related LNCEL, MCC-MNC measurements. LTE Cell Resource PLMN-MRBTS-LNBTSmeasurement (M8011) LNCEL, MCC-MNC / measures cell resource PLMN-SBTS-LNBTSrelated measurements LNCEL, MCC-MNC LTE Cell throughput PLMN-MRBTS-LNBTSmeasurement (M8012) LNCEL, MCC-MNC measures cell throughput related measurements
LTE UE State
LTE Inter eNB Handover
LTE Neighbor cell related Handover
LTE Inter System Handover
LTE Inter System Handover to UTRAN per Neighbor Cell
LTE eNB Load
LTE Inter System Handover to GSM per Neighbor Cell
LTE Cell Availability
LTE Handover
LTE X2AP
LTE UE and Service Differentiation
LTE Handover to eHRPD per eHRPD bandclass
LTE QoS
LTE UE State measurement (M8013) measures UE State Management related measurements LTE Inter eNB Handover measurement (M8014) measures Inter eNB Handovers Neighbor cell related Handover measurement (M8015) LTE Inter System Handover measurement (M8016) measures inter system handovers LTE Inter System Handover to UTRAN per Neighbor Cell measurement (M8017) measures inter RAT LTE eNB Load handovers. measurement (M8018) measures load and capacity relevant internal indicators per eNB. LTE Inter System Handover to GSM per Neighbor Cell measurement (M8019) measures the inter RAT LTE Cell Availability handover related measurement (M8020) procedures peravailability. neighbor measures cell cell relation. The counters are updated for the cell LTE Handover pair "source cell - target measurement GSM cell". The(M8021) target measures handoverarea identifier "{location related procedures code (LAC)} + {target cell irrespective ofderived the LTE LTE X2AP (M8022) ID (TCID)}" is network topology (intra provides measurements from the call processing eNB and inter eNB related to X2 protocols. It isSetup not equal to Handover) The counters procedure. The counters the managed object are updated for the source are updated at the identifiers known only in LTE UE and cell. Service (originating) originating eNB site. network management Differentiation (M8023) system. measures Operator specific UE and Service Differentiation items. The measurement LTE Handover to eHRPD per eHRPD bandclass (M8025) contains counters measure LTE QoS which measurement the Inter System (M8026) measures QoS Handover to eHRPD related indicators per per cell. eHRPD bandclass. This includes packetFor loss, each packethandover drop, packet delay, relationship between the IP latency, throughput, LTE number cell (source of the and of average inter system handover) Ues (cf, 32.425, 4.4) and the eHRPDprimary For MCC/MNC bandclass (target of the PLMN-id shall be used. inter system handover) a separate counter is
PLMN-MRBTS-LNBTSLNCEL, MCC-MNC / PLMN-SBTS-LNBTSLNCEL, MCC-MNC PLMN-MRBTS-LNBTSLNCEL, MCC-MNC / PLMN-SBTS-LNBTSLNCEL, MCC-MNC PLMN-MRBTS-LNBTSLNCEL, MCC-MNC, ECI, MCC-MNC / PLMN-SBTSLNBTS-LNCEL, MCC-MNC, ECI, MCC-MNC PLMN-MRBTS-LNBTSLNCEL, MCC-MNC / PLMN-SBTS-LNBTSLNCEL, MCC-MNC PLMN-MRBTS-LNBTSLNCEL, MCC-MNC, HOTTCID, MCC-MNC / PLMNSBTS-LNBTS-LNCEL, MCC-MNC, HOT-TCID, / PLMN-MRBTS-LNBTS MCC-MNC PLMN-SBTS-LNBTS
PLMN-MRBTS-LNBTSLNCEL, MCC-MNC, LACTCID, MCC-MNC / PLMNSBTS-LNBTS-LNCEL, MCC-MNC, LAC-TCID, PLMN-MRBTS-LNBTSMCC-MNC LNCEL, MCC-MNC / PLMN-SBTS-LNBTSLNCEL, MCC-MNC PLMN-MRBTS-LNBTSLNCEL, MCC-MNC / PLMN-SBTS-LNBTSLNCEL, MCC-MNC PLMN-MRBTS-LNBTS / PLMN-SBTS-LNBTS
PLMN-MRBTS-LNBTSLNCEL, MCC-MNC / PLMN-SBTS-LNBTSLNCEL, MCC-MNC PLMN-MRBTS-LNBTSLNCEL, PLMN-MCC-MNC, PLMN-HBC / PLMN-SBTSLNBTS-LNCEL, PLMNMCC-MNC, PLMN-HBC PLMN-MRBTS-LNBTSLNCEL, MCC-MNC / PLMN-SBTS-LNBTSLNCEL, MCC-MNC
LTE Handover (RLF trigger)
LTE MAC
LTE MBMS
LTE SINR
LTE MRO UTRAN frequency related
LTE Mobility Events
LTE EUTRA carrier frequency
LTE S1 SCTP Statistics
LTE X2 SCTP Statistics
LTE M3 SCTP Statistics
LTE IP Statistics
LTE PHB Statistics
LTE Ethernet Link
LTE Handover - RLF trigger (M8027) measures the performance of the proprierary RLF triggered Handover procedures per LTE MAC measurement cell. (M8029) measures MAC For MCC/MNC primary related indicators per cell. PLMN-id should be used. This includes at present e.g. advance The timing LTE MBMS measurements(M8030) (cf. measurement LTE1697) or potentially contains PM counters later ontocomparable related MBMS measurements (cf 32.425, (Multimedia The LTEorSINR 4.10.2) RACH Broadcast/Multicast measurement (M8031) measurements (cf. 36.300; Service, 3GPP TS contains PM counters 32.425, 4.5.5) TS 23.246, TS 36.331). related to SINRprimary (Signal-toFor MCC/MNC The PM counters are interference plus The measurement "LTE PLMN-Id shall beNoise used. updated per cell. Ratio). This includes at MRO UTRAN frequency For MCC/MNC primary present downlink SINR related" contains PLMN-id shall be counters used. measurements(cf.LTE149 which measure MRO 1) or potentially future (Mobility Robustness The measurement "LTE comparable Optimization) related Mobility Events related" measurements. The PM events per UTRAN contains counters which counters are updated per frequency (including late measure different mobility cell. and early handovers from events triggered by"LTE The measurement For MCC/MNC primary LTE to UTRAN). The UE,sent in RRC EUTRA carrier frequency" PLMN-Id shallupdated be used. counters are in Measurement Report and contains counters which the LTE cell (handover reported per cell. The measure intraThe LTE related source cell). counters counters are updated in events per E-UTRA LTE S1 SCTP Statistics are provided per LTEcarrier cell the LTE cell. For frequency. The(M8035) counters measurement and per UTRAN MCC/MNC primary are updated in for theeach LTE provides counters per frequency, i.e. PLMN-id shall be used. cell . The counters are SCTP associations relationship betweenforthe provided per sent, LTE cell data chunks dataand LTE cell and UTRAN LTE X2 SCTP Statistics per E-UTRA carrier chunks received, data frequency a separate measurement frequency, i.e. (M8036) for each chunks availability counter resent, iscounters provided. provides perthe relationship between and congestion for SCTP SCTP associations for LTE cell and the E-UTRA associations used by the data chunks sent, data LTE M3frequency SCTP Statistics carrier a S1 interface. chunks data measurement (M8037) separatereceived, counter is chunks resent, availability provides per provided.counters For MCC/MNC and congestion SCTP SCTP associations for be primary PLMN-idforshall associations used data by the data chunks sent, used. LTE IP statistics X2 interface. chunks received, data measurement (M51120) chunks resent, availability contains PM counters to and congestion for SCTP monitor the performance associations used by the of the IP Iub functionality LTE PHB statistics M3 interface. per IP interface. measurement (M51121) contains PM counters to monitor the performance of theEthernet IP Iub functionality LTE link per IP interface(M51123) for each measurement per hop behaviour. contains PM counters to measure the ethernet link performance.
PLMN-MRBTS-LNBTSLNCEL, MCC-MNC / PLMN-SBTS-LNBTSLNCEL, MCC-MNC PLMN-MRBTS-LNBTSLNCEL, MCC-MNC / PLMN-SBTS-LNBTSLNCEL, MCC-MNC PLMN-MRBTS-LNBTSLNCEL, MCC-MNC / PLMN-SBTS-LNBTSLNCEL, MCC-MNC PLMN-MRBTS-LNBTSLNCEL, MCC-MNC / PLMN-SBTS-LNBTSLNCEL, MCC-MNC PLMN-MRBTS-LNBTSLNCEL, MCC-MNC, UARFCN / PLMN-SBTSLNBTS-LNCEL, MCC-MNC, UARFCN PLMN-MRBTS-LNBTSLNCEL, MCC-MNC / PLMN-SBTS-LNBTSLNCEL, MCC-MNC PLMN-MRBTS-LNBTSLNCEL, MCC-MNC, EARFCN / PLMN-SBTSLNBTS-LNCEL, MCC-MNC, EARFCN PLMN-MRBTS-LNBTSLNMME / PLMN-SBTSLNBTS-LNMME PLMN-MRBTS-LNBTSLNADJ / PLMN-SBTSLNBTS-LNADJ PLMN-MRBTS-LNBTSLNMCE-LNM3 / PLMNSBTS-LNBTS-LNMCELNM3 PLMN-MRBTS-LNBTSFTM-IPNO-IEIF-IPPM
PLMN-MRBTS-LNBTSFTM-IPNO-IEIF-PHBPM
PLMN-MRBTS-LNBTSFTM-ETHLK
LTE IP Sec
LTE IP Filtering
LTE VLAN IP Statistics
LTE VLAN PHB Statistics
LTE VLAN Statistics
LTE ETH_IF Statistics
LTE L2 Switch Statistics
LTE TWAMP Statistics
LTE TAC Statistics
LTE TOP FreqSync Statistics
LTE TOP PhaseSync Statistics
WIFI statistics
LTE IP Sec measurement (M51125) contains counters for counting protected, discarded ans bypassed octets and LTE IP filtering frames for IPSec. measurement (M51126) contains PM counters to monitor the firewall functionality the BTS LTE VLAN IPofstatistics measurement (M51127) contains PM counters to monitor the performance of theVLAN IP IubPHB functionality LTE statistics per VLAN interface. measurement (M51128) contains PM counters to monitor the performance of theVLAN IP Iubstatistics functionality LTE per VLAN interface for measurement (M51129) each per hop behaviour. contains PM counters to monitor the performance at theETHIF Ethernet level for LTE statistics VLAN interfaces. measurement (M51130) contains PM counters to monitor the performance at theLayer Ethernet level for LTE 2 Switch the plain Ethernet statistics measurement interface. (M51131) contains PM counters to measure total numbers of received and TWAMP statistics transmitted octets and measurement (M51132) packets the layer containsacross PM counters to 2 switch. measure the round trip time (RTT)Admission and the packet Transport loss ratio (PLR) of Control measurement messages exchanged (51136)contains PM with a remote for peer. counters measuring the per TAC LTETAC TOPtraffic FreqSync Interface. Statistics measurement (M51137) contains PM counters to measure Timing over Packet (TOP) LTE TOP PhaseSync FreqSync statistics. Statistics measurement (M51138) contains PM counters to measure Timing over Packet (TOP) This measurement PhaseSync contains thestatistics. amount of traffic originated/received from/by the WiFi AP.
PLMN-MRBTS-LNBTSFTM-IPSECC
PLMN-MRBTS-LNBTSFTM-IPNO-IPRM
PLMN-MRBTS-LNBTSFTM-IPNO-IEIF-IVIF-IPPM
PLMN-MRBTS-LNBTSFTM-IPNO-IEIF-IVIFPHBPM PLMN-MRBTS-LNBTSFTM-IPNO-IEIF-IVIF
PLMN-MRBTS-LNBTSFTM-IPNO-IEIF
PLMN-MRBTS-LNBTSFTM-L2SWI
PLMN-MRBTS-LNBTSFTM-IPNO-TWAMP
PLMN-MRBTS-LNBTSFTM-TAC-LTAC
PLMN-MRBTS-LNBTSFTM-TOPB-TOPF
PLMN-MRBTS-LNBTSFTM-TOPB-TOPP
PLMN-MRBTS-LNBTSFTM-WIFICNF
Measurement NW Aggregation Levels
Measurement structure changes between issues 08 and 08A
LNBTS
LNBTS, LNCEL
Measurement structure changes between releases RL70 and FDD-LTE15A New counters: 4
New counters: 2 Modified counters: 3
New counters: 5 Modified counters: 7
LNBTS
LNBTS, LNCEL
LNBTS, LNCEL
Modified counters: 8
New counters: 2 Modified counters: 4
LNBTS, LNCEL
New counters: 40 Modified counters: 4 Removed counters: 14 Removed counters: 4
LNBTS, LNCEL
LNBTS, LNCEL
LNBTS, LNCEL
Modified counters: 2
New counters: 16 Modified counters: 2
LNBTS, LNCEL
Modified counters: 1
New counters: 4 Modified counters: 1
LNBTS, LNCEL
Removed counters: 2
LNBTS, LNCEL
Modified counters: 3
New counters: 6 Modified counters: 3 Removed counters: 2
LNBTS, LNCEL
New counters: 1
LNCEL, MNC
New counters: 2
LNBTS, LNCEL
Modified counters: 7
LNBTS, LNCEL, MNC
Modified counters: 7
LNBTS
New counters: 14
Modified counters: 1
LNBTS, LNCEL, MNC
LNBTS, LNCEL
New counters: 2 Modified counters: 4
LNBTS, LNCEL
New counters: 2 Modified counters: 1
LNBTS
LNBTS, LNCEL
LNCEL, HBC
LNBTS, LNCEL
LNBTS, LNCEL
LNBTS, LNCEL
LNBTS, LNCEL
New counters: 3
Modified counters: 1
New counters: 6
LNBTS, LNCEL
LNCEL, UARFCN
New counters: 6
LNBTS, LNCEL
New counters: 9
LNCEL, EARFCN
New counters: 2
LNMME
New counters: 7
LNADJ
New counters: 7
LNM3
New counters: 7
IPPM
New counters: 6 Modified counters: 1
PHBPM
ETHLK
IPSECC
Modified counters: 2
IPRM
IPPM
New counters: 6 Modified counters: 1
PHBPM
IVIF
Modified counters: 1
IEIF
New counters: 2
L2SWI
TWAMP
LTAC
TOPF
Modified counters: 1
TOPP
Modified counters: 1
WIFICNF
Note: See the How to Read This Report tab for instructions on the usage of Counter List Changes between issues 08 and 08A
Changes between releases Reason(s) for change RL70 and FDD-LTE15A
New
New
New
New
Changed
Correction because counter was updated even if UL ComP feature was not activated.
Changed
Changed
Internal improvement made to counter architecture counters moved from UEC component to MAC component. Internal improvement made to counter architecture counters moved from UEC component to MAC component.
Changed
Synchronization with eNB level counter M8018C0.
New
New
Changed
Changed
Editorial updates - Counter description made clearer.
New
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Editorial updates - Counter description made clearer.
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Editorial updates - Counter description made clearer.
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Counter value reported with higher granularity (better precision).
Changed
Counter value reported with higher granularity (better precision).
Changed
Counter value reported with higher granularity (better precision).
Changed
Counter value reported with higher granularity (better precision).
Changed
Counter value reported with higher granularity (better precision).
Changed
Counter value reported with higher granularity (better precision).
Changed
Counter value reported with higher granularity (better precision).
Changed
Counter value reported with higher granularity (better precision).
New
Changed
Dedicated counters created for E-RAB Management failure causes.
New
Changed
Dedicated counters created for E-RAB Management failure causes.
Changed
Changed
Editorial updates – counter description and network element name made more precise.
Changed
Changed
Editorial updates – counter description and network element name made more precise.
New
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Editorial updates - Counter description made clearer.
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Editorial updates - Counter description made clearer.
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Editorial updates - Counter description made clearer.
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Editorial updates - Updated field made clearer.
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Editorial updates - Counter description made clearer.
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Editorial updates - Counter description made clearer.
New
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Changed
New rounding method applied, so that M8018C0 has the same value as the sum of cell level counter M8001C223.
Changed
A new trigger event added.
Changed
A new trigger event added.
Changed
A new trigger event added.
Changed
A new trigger event added.
New
New
Changed
New
New
Wrongly assigned release cause - correction was made.
New
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Changed
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Counter trigger mechanism changed.
Changed
Changed
eNB discard policy is included in counter calculation. Counter value is expected to change depending the eNB eNB discardonpolicy is discard policy. included in counter calculation. Counter value is expected to change depending on the eNB discard policy.
Changed
New
New
New
New
New
New
Overlapping IPv6 Fragments added to IPv6 discard reason.
Changed
New
New
Counter algorithm correction for Flexi Zone Micro. In case of FZM proper values are shown. No impact on counter values for other HW platforms.
Changed
Editorial updates - Counter description made clearer.
Changed
Editorial updates - Counter description made clearer.
Removed
Dedicated counters created for E-RAB Management failure causes.
Removed
Dedicated counters created for E-RAB Management failure causes.
Removed
Dedicated counters created for E-RAB Management failure causes.
Removed
Dedicated counters created for E-RAB Management failure causes.
Removed
Dedicated counters created for E-RAB Management failure causes.
Removed
Dedicated counters created for E-RAB Management failure causes.
Removed
Dedicated counters created for E-RAB Management failure causes.
Removed
Dedicated counters created for E-RAB Management failure causes.
Removed
Dedicated counters created for E-RAB Management failure causes.
Removed
Dedicated counters created for E-RAB Management failure causes.
Removed
Dedicated counters created for E-RAB Management failure causes.
Removed
Dedicated counters created for E-RAB Management failure causes.
Removed
Dedicated counters created for E-RAB Management failure causes.
Removed
Dedicated counters created for E-RAB Management failure causes.
Removed
Dedicated counters created for E-RAB Management failure causes.
Removed
Dedicated counters created for E-RAB Management failure causes.
Removed
Dedicated counters created for E-RAB Management failure causes.
Removed
Dedicated counters created for E-RAB Management failure causes.
Removed
Removal of obsolete counters.
Removed
Removal of obsolete counters.
Removed
RRC connection setup failure per cause be more refining. Counter description to be made clearer.
Removed
M8013C21 pegged independently from feature flag.
Related feature/Change Request (CR)/correction
Expected impact
Counter ID
M8000C6
M8000C7
M8000C8
M8000C9
M8000C11
M8000C13
M8000C14
M8000C15
M8000C16
M8000C24
M8000C26
M8000C27
M8000C29
M8000C30
M8000C32
M8000C33
M8000C34
M8000C35
M8000C36
M8000C37
M8000C38
M8000C39
M8000C40
M8000C41
M8000C42
M8000C43
M8000C44
M8000C45
M8000C46
M8001C0
M8001C1
M8001C2
M8001C3
M8001C4
M8001C5
M8001C6
M8001C7
M8001C8
M8001C9
M8001C10
M8001C11
M8001C12
M8001C13
M8001C14
M8001C15
M8001C16
M8001C17
M8001C18
M8001C19
M8001C20
M8001C21
M8001C22
M8001C23
M8001C24
M8001C25
M8001C26
M8001C27
M8001C28
M8001C29
M8001C30
M8001C31
M8001C32
M8001C33
M8001C34
M8001C35
M8001C36
M8001C37
M8001C38
M8001C39
M8001C40
M8001C41
M8001C42
M8001C43
M8001C44
M8001C45
M8001C46
M8001C47
M8001C48
M8001C49
M8001C50
M8001C51
M8001C52
M8001C53
M8001C54
M8001C55
M8001C56
M8001C57
M8001C58
M8001C59
M8001C60
M8001C61
M8001C62
M8001C63
M8001C64
M8001C65
M8001C66
M8001C67
M8001C68
M8001C69
M8001C70
M8001C71
M8001C72
M8001C73
M8001C74
M8001C75
M8001C76
M8001C77
M8001C78
M8001C79
M8001C80
M8001C81
M8001C82
M8001C83
M8001C84
M8001C85
M8001C86
M8001C87
M8001C88
M8001C89
M8001C90
M8001C91
M8001C92
M8001C93
M8001C94
M8001C95
M8001C96
M8001C97
M8001C98
M8001C99
M8001C100
M8001C101
M8001C102
M8001C103
M8001C104
M8001C105
M8001C106
M8001C107
M8001C108
M8001C109
M8001C110
M8001C111
M8001C112
M8001C113
M8001C114
M8001C115
M8001C116
M8001C117
M8001C118
M8001C119
M8001C120
M8001C121
M8001C122
M8001C123
M8001C124
M8001C125
M8001C126
M8001C127
M8001C128
M8001C129
M8001C130
M8001C131
M8001C132
M8001C133
M8001C135
M8001C136
M8001C137
M8001C138
M8001C139
M8001C140
M8001C141
M8001C142
M8001C143
M8001C144
M8001C145
M8001C146
M8001C147
M8001C148
M8001C149
M8001C150
M8001C151
M8001C152
M8001C153
M8001C154
M8001C155
M8001C156
M8001C157
M8001C158
M8001C159
M8001C160
M8001C161
M8001C162
M8001C163
M8001C164
M8001C165
M8001C166
M8001C167
M8001C168
M8001C169
M8001C170
M8001C171
M8001C172
M8001C173
M8001C174
M8001C175
M8001C176
M8001C177
M8001C178
M8001C179
M8001C180
M8001C181
M8001C182
M8001C183
M8001C184
M8001C185
M8001C186
M8001C187
M8001C188
M8001C189
M8001C190
M8001C191
M8001C192
M8001C193
M8001C194
M8001C195
M8001C196
M8001C197
PR122680ESPE04
No change
M8001C198
M8001C199
M8001C200
M8001C202
M8001C203
M8001C204
M8001C205
M8001C206
M8001C207
M8001C208
M8001C209
M8001C210
M8001C211
M8001C212
M8001C213
M8001C214
M8001C215
Internal Feature(LBT2694)
No change
M8001C216
Internal Feature(LBT2694)
No change
M8001C217
M8001C218
M8001C219
M8001C220
M8001C222
PR043376
Increase
M8001C223
M8001C224
M8001C227
M8001C228
M8001C229
M8001C230
M8001C231
M8001C232
M8001C233
M8001C234
M8001C235
M8001C264
M8001C265
M8001C266
M8001C267
M8001C269
M8001C270
M8001C271
M8001C272
M8001C273
M8001C286
PR127749ESPE04
No change
M8001C295
M8001C296
M8001C297
M8001C298
M8001C299
M8001C300
M8001C305
M8001C306
M8001C307
M8001C308
M8001C309
M8001C310
M8001C311
M8001C312
M8001C313
M8001C314
M8001C315
M8001C316
M8001C317
M8001C318
M8001C319
M8001C320
M8001C321
M8001C322
M8001C323
M8001C324
M8001C325
M8001C326
M8001C419
M8001C420
M8001C421
M8001C422
M8001C423
M8001C424
M8001C425
M8001C426
M8001C427
M8001C428
M8001C429
M8001C430
M8001C431
M8001C432
M8001C433
M8001C434
M8001C435
M8001C436
M8001C437
M8001C438
M8001C439
M8001C440
M8001C441
M8001C442
M8001C443
M8001C444
M8001C445
M8001C446
M8001C447
M8001C448
M8001C449
M8001C450
M8001C451
M8001C452
M8001C453
M8001C454
M8001C455
M8001C456
M8001C457
M8001C458
M8001C459
M8001C460
M8001C461
M8001C462
M8001C463
M8001C464
M8001C465
M8001C466
M8001C467
M8001C468
M8001C469
M8001C470
M8001C471
M8001C472
M8001C473
M8001C474
M8001C475
M8001C476
M8001C477
M8001C478
M8001C479
M8001C480
M8001C481
M8001C482
M8001C483
M8001C484
M8001C485
M8001C486
M8001C487
M8001C488
M8001C493
PR061524
No change
M8001C494
M8001C495
M8001C496
PR061524
No change
M8001C497
M8001C498
M8001C499
M8004C0
M8004C1
M8004C2
M8004C3
M8005C0
M8005C1
M8005C2
M8005C3
M8005C4
M8005C5
M8005C6
M8005C7
M8005C8
M8005C9
M8005C10
M8005C11
M8005C12
M8005C13
M8005C14
M8005C15
M8005C16
M8005C17
M8005C18
M8005C19
M8005C20
M8005C21
M8005C22
M8005C23
M8005C24
M8005C25
M8005C26
M8005C27
M8005C28
M8005C29
M8005C30
M8005C31
M8005C32
M8005C33
M8005C34
M8005C35
M8005C36
M8005C37
M8005C38
M8005C39
M8005C40
M8005C41
M8005C42
M8005C43
M8005C44
M8005C45
M8005C46
M8005C47
M8005C48
M8005C49
M8005C54
M8005C55
M8005C56
M8005C57
M8005C58
M8005C59
M8005C60
M8005C61
M8005C62
M8005C63
M8005C64
M8005C65
M8005C66
M8005C67
M8005C68
M8005C69
M8005C70
M8005C71
M8005C72
M8005C73
M8005C74
M8005C75
M8005C76
M8005C77
M8005C78
M8005C79
M8005C80
M8005C81
M8005C82
M8005C83
M8005C84
M8005C85
M8005C87
M8005C88
M8005C89
M8005C90
M8005C91
M8005C92
M8005C93
M8005C94
M8005C95
M8005C96
M8005C97
M8005C98
M8005C99
M8005C100
M8005C101
M8005C102
M8005C103
M8005C104
M8005C105
M8005C106
M8005C107
M8005C108
M8005C109
M8005C110
M8005C111
M8005C112
M8005C113
M8005C114
M8005C115
M8005C116
M8005C117
M8005C118
M8005C119
M8005C120
M8005C121
M8005C122
M8005C123
M8005C124
M8005C125
M8005C126
M8005C127
M8005C128
M8005C129
M8005C130
M8005C131
M8005C132
M8005C133
M8005C134
M8005C135
M8005C136
M8005C137
M8005C138
M8005C139
M8005C140
M8005C141
M8005C206
M8005C207
M8005C208
M8005C209
M8005C210
M8005C211
M8005C212
M8005C213
M8005C214
M8005C215
M8005C216
M8005C217
M8005C218
M8005C219
M8005C220
M8005C221
M8005C222
M8005C223
M8005C224
M8005C225
M8005C226
M8005C227
M8005C228
M8005C229
M8005C230
M8005C231
M8005C232
M8005C233
M8005C234
M8005C235
M8005C236
M8005C237
M8005C238
M8005C239
M8005C240
M8005C241
M8005C242
M8005C243
M8005C244
M8005C245
M8005C246
M8005C247
M8005C248
M8005C249
M8005C250
M8005C251
M8005C252
M8005C253
M8005C254
M8005C255
M8005C256
M8005C257
M8005C258
M8005C259
M8005C260
M8005C261
M8005C262
M8005C263
M8005C264
M8005C265
M8005C266
M8005C267
M8005C268
M8005C269
M8005C270
M8005C271
M8005C272
M8005C273
M8005C274
M8005C275
M8005C276
M8005C277
M8005C278
M8005C279
M8005C280
M8005C281
M8005C282
M8005C283
M8005C284
M8005C285
M8005C286
M8005C287
M8005C288
M8005C289
M8005C290
M8005C291
M8005C292
M8005C293
M8005C294
M8005C295
M8005C296
M8005C297
M8005C298
M8005C299
M8005C300
M8005C301
M8005C302
M8005C303
M8005C304
M8005C305
PR045777
Other
M8005C306
PR045777
Other
M8005C307
PR045777
Other
M8005C308
PR045777
Other
M8005C309
PR045777
Other
M8005C310
PR045777
Other
M8005C311
PR045777
Other
M8005C312
PR045777
Other
M8005C313
M8005C314
M8005C317
M8005C318
M8005C319
M8005C320
M8005C321
M8005C322
M8005C323
M8005C324
M8005C325
M8005C326
M8005C327
M8005C328
M8005C329
M8005C330
M8005C331
M8005C332
M8005C333
M8005C334
M8005C335
M8006C0
M8006C1
M8006C6
M8006C7
M8006C8
M8006C9
Feature LTE1899, PR057676 M8006C14 replaced by M8006C257 and initially removed in the scope of LTE1899, but then reactivated for the purpose of customized KPI
M8006C14
M8006C45
M8006C46
M8006C47
M8006C48
M8006C49
M8006C50
M8006C51
M8006C52
M8006C53
M8006C54
M8006C55
M8006C56
M8006C57
M8006C58
M8006C59
M8006C60
M8006C61
M8006C62
M8006C63
M8006C64
M8006C65
M8006C66
M8006C67
M8006C68
M8006C69
M8006C70
M8006C71
M8006C72
M8006C73
M8006C74
M8006C75
M8006C89
M8006C98
M8006C107
M8006C116
Feature LTE1899, PR057676 M8006C152 replaced by M8006C269 and initially removed in the scope of LTE1899, but then reactivated for the purpose of customized KPI
M8006C152
M8006C176
M8006C177
M8006C178
M8006C179
M8006C180
M8006C181
M8006C182
M8006C183
M8006C184
M8006C185
M8006C186
M8006C187
M8006C188
M8006C189
M8006C190
M8006C191
M8006C192
M8006C193
M8006C194
M8006C195
M8006C196
M8006C197
M8006C198
M8006C199
M8006C200
M8006C201
M8006C202
M8006C203
M8006C204
M8006C205
M8006C206
M8006C207
M8006C208
M8006C209
M8006C210
M8006C211
M8006C212
M8006C213
M8006C214
M8006C215
M8006C216
M8006C217
M8006C218
M8006C219
M8006C220
M8006C221
M8006C222
M8006C223
M8006C224
M8006C225
M8006C226
M8006C227
M8006C228
M8006C229
M8006C230
M8006C231
M8006C232
M8006C233
M8006C234
PR052191
No change
M8006C235
PR052191
No change
M8006C236
M8006C237
M8006C238
M8006C239
M8006C240
M8006C241
M8006C242
M8006C243
M8006C244
M8006C245
M8006C246
M8006C247
M8006C248
M8006C249
M8006C250
M8006C251
M8006C252
M8006C253
M8006C254
M8006C255
M8006C256
M8006C257
M8006C258
M8006C259
M8006C260
M8006C261
M8006C262
M8006C263
M8006C264
M8006C265
M8006C266
M8006C267
M8006C268
M8006C269
M8006C270
M8006C271
M8006C272
M8006C273
M8006C274
M8006C275
M8006C276
M8007C0
M8007C1
M8007C2
M8007C4
M8007C7
M8007C8
M8007C9
M8007C10
M8007C11
M8007C12
M8007C14
M8007C15
M8008C0
M8008C1
M8008C2
M8008C3
M8008C4
M8008C5
M8008C6
M8008C7
M8008C8
M8008C9
M8008C10
M8008C11
M8008C12
M8008C13
M8008C14
M8008C15
M8008C16
M8008C17
M8008C18
M8009C0
M8009C1
M8009C2
M8009C3
M8009C5
M8009C6
M8009C7
M8009C8
M8010C36
M8010C37
M8010C38
M8010C39
M8010C40
M8010C41
M8010C42
M8010C43
M8010C44
M8010C45
M8010C46
M8010C47
M8010C48
M8010C49
M8010C50
M8010C51
M8010C52
M8010C53
M8010C54
M8010C55
M8010C56
Feature LTE569
No change
M8010C57
Feature LTE569
No change
M8010C58
M8010C59
M8010C60
M8010C61
M8010C62
M8010C67
M8010C74
M8010C75
M8010C76
M8010C77
M8010C78
M8010C79
M8010C80
M8010C81
M8010C82
M8010C83
M8010C84
M8010C85
M8010C86
M8010C87
M8010C88
M8010C89
M8010C90
M8010C91
M8011C12
M8011C13
M8011C14
M8011C15
M8011C16
M8011C17
M8011C18
M8011C19
M8011C20
M8011C21
M8011C22
M8011C23
M8011C24
M8011C25
M8011C26
M8011C27
M8011C28
M8011C29
M8011C30
M8011C31
M8011C32
M8011C33
M8011C34
M8011C35
M8011C36
M8011C37
M8011C38
M8011C39
M8011C40
M8011C41
M8011C42
M8011C43
M8011C44
M8011C45
M8011C46
M8011C47
M8011C49
M8011C50
M8011C51
M8011C54
M8011C55
M8011C56
M8011C57
M8011C58
M8011C59
M8011C60
M8011C61
M8011C62
M8011C63
M8011C64
M8011C65
M8011C66
M8011C67
M8011C68
PR036265
No change
M8011C69
M8011C70
M8011C71
M8011C72
M8011C73
M8011C74
M8011C75
M8011C76
M8011C77
M8011C78
M8011C79
M8011C81
M8011C82
M8011C83
M8011C84
M8011C85
M8011C86
M8011C87
M8011C88
M8011C89
M8011C90
M8011C91
M8011C92
M8011C93
M8011C94
M8011C95
M8011C96
M8011C97
M8011C98
M8011C99
M8011C100
M8011C101
M8011C102
M8011C103
M8011C104
M8011C105
M8011C106
M8011C107
M8011C112
M8011C113
M8011C114
M8011C115
M8011C116
M8011C117
M8011C118
M8011C119
M8011C120
M8011C121
M8011C122
M8011C123
M8011C124
M8011C125
M8011C126
M8011C127
M8011C128
M8011C129
M8011C130
M8011C131
M8011C132
M8011C133
M8011C134
M8011C135
M8011C136
M8011C137
M8011C138
M8011C139
M8011C140
M8011C141
M8011C142
M8011C143
M8011C144
M8011C145
M8011C146
M8011C147
M8011C148
M8011C149
M8011C150
M8011C151
M8011C152
M8011C153
M8011C154
M8011C155
M8011C156
M8011C157
M8011C158
M8011C159
M8011C160
M8011C161
M8011C162
M8011C164
M8011C165
M8011C166
M8011C167
M8012C0
M8012C1
M8012C2
M8012C3
M8012C12
M8012C16
M8012C17
M8012C18
M8012C19
M8012C20
M8012C22
M8012C23
M8012C25
M8012C26
M8012C27
M8012C28
M8012C29
M8012C30
M8012C31
M8012C32
M8012C33
M8012C34
M8012C35
M8012C36
M8012C37
M8012C38
M8012C39
M8012C40
M8012C41
M8012C42
M8012C43
M8012C44
M8012C45
M8012C46
M8012C47
M8012C48
M8012C49
M8012C50
M8012C51
M8012C52
M8012C53
M8012C54
M8012C55
M8012C56
M8012C57
M8012C58
M8012C59
M8012C60
M8012C61
M8012C62
M8012C63
M8012C64
M8012C65
M8012C66
M8012C67
M8012C68
M8012C69
M8012C70
M8012C71
M8012C74
M8012C75
M8012C76
M8012C77
M8012C78
M8012C79
M8012C80
M8012C81
M8012C82
M8012C83
M8012C84
M8012C85
M8012C86
M8012C87
M8012C88
M8012C89
M8012C90
M8012C91
M8012C92
M8012C93
M8012C94
M8012C95
M8012C96
M8012C97
M8012C98
M8012C99
M8012C100
M8012C101
M8012C102
M8012C103
M8012C104
M8012C105
M8012C106
M8012C107
M8012C108
M8012C116
M8012C117
M8012C118
M8012C119
M8012C120
M8012C121
M8012C122
M8012C123
M8012C124
M8012C125
M8012C126
M8012C127
M8012C128
M8012C129
M8012C130
M8012C131
M8012C132
M8012C133
M8012C134
M8012C143
M8012C144
M8012C145
M8012C146
M8012C147
M8012C151
M8012C156
M8012C157
M8012C158
M8012C159
M8012C160
M8012C161
M8012C162
M8012C163
M8012C164
M8012C165
M8012C166
M8012C167
M8012C168
M8012C169
M8012C170
M8012C171
M8012C172
M8012C173
M8013C5
M8013C6
M8013C7
M8013C9
M8013C10
M8013C11
M8013C12
PR NA05809766
No change
M8013C13
PR NA05809766
No change
M8013C15
PR NA05809766
No change
M8013C16
M8013C17
M8013C18
M8013C19
M8013C21
M8013C24
M8013C25
M8013C26
M8013C27
M8013C28
M8013C29
M8013C30
M8013C31
M8013C32
M8013C33
M8013C34
M8013C35
M8013C36
M8013C37
M8013C38
M8013C39
M8013C40
M8013C41
M8013C42
M8013C43
M8013C44
M8013C45
M8013C46
M8013C47
M8013C48
M8013C49
M8013C50
M8013C51
M8013C52
M8013C53
M8013C54
M8013C55
M8013C56
M8013C57
M8013C58
M8013C59
M8013C60
M8013C61
M8013C62
M8013C65
M8013C66
M8013C67
M8013C68
M8013C69
M8014C0
M8014C2
M8014C3
M8014C5
M8014C6
M8014C7
M8014C8
M8014C14
M8014C15
M8014C16
M8014C17
M8014C18
M8014C19
M8014C20
M8014C21
M8015C0
M8015C1
M8015C2
M8015C5
M8015C6
M8015C7
M8015C8
M8015C9
M8015C10
M8015C15
M8015C16
M8015C17
M8015C18
M8015C20
M8015C21
M8015C22
M8016C11
M8016C12
M8016C13
M8016C14
M8016C15
M8016C16
M8016C17
M8016C21
M8016C23
M8016C25
M8016C26
M8016C29
M8016C30
M8016C31
M8016C32
M8016C33
M8016C34
M8016C35
M8016C36
M8016C37
M8016C38
M8016C39
M8016C40
M8016C41
M8016C42
M8016C43
M8016C44
M8016C45
M8016C46
M8016C47
M8016C48
M8016C49
M8017C4
M8017C5
M8017C6
M8017C7
M8017C8
M8017C9
M8017C10
M8017C11
M8017C12
M8017C13
PR043376
Decrease
M8018C0
M8018C1
M8018C4
M8018C5
M8018C6
M8018C7
M8018C8
M8018C9
M8019C0
M8019C3
M8019C4
M8019C5
M8020C0
PR041512 LTE1103
Increase
M8020C1
PR043693 LTE1103
Increase
M8020C2
M8020C3
PR043693 LTE1103
Increase
M8020C4
PR043693 LTE1103
Increase
M8020C5
M8020C6
M8020C7
M8020C8
M8021C0
M8021C1
M8021C2
M8021C3
M8021C4
M8021C5
M8021C6
M8021C7
M8021C8
M8021C9
M8021C12
M8021C15
M8021C18
M8021C19
M8021C20
M8021C21
M8021C22
M8021C23
M8021C24
M8021C25
M8021C26
M8021C27
M8021C28
M8021C29
M8021C30
M8021C31
M8021C32
M8021C33
M8021C34
M8021C35
PR060721
No change
M8021C36
M8021C37
M8021C38
M8022C0
M8022C1
M8023C0
M8023C1
M8023C2
M8023C3
M8023C4
M8023C5
M8023C6
M8023C7
M8023C8
M8023C9
M8023C10
M8023C11
M8023C12
M8023C13
M8023C14
M8023C15
M8023C16
M8023C17
M8023C18
M8023C19
M8023C20
M8023C21
M8023C22
M8023C23
M8023C24
M8023C25
M8023C26
M8023C27
M8023C28
M8023C29
M8023C30
M8023C31
M8023C32
M8023C33
M8023C34
M8023C35
M8025C0
M8025C1
M8025C2
M8025C3
M8025C4
M8025C5
M8025C6
M8025C7
M8026C0
M8026C1
M8026C2
M8026C3
M8026C4
M8026C5
M8026C6
M8026C7
M8026C8
M8026C9
M8026C19
M8026C20
M8026C21
M8026C22
M8026C23
M8026C24
M8026C25
M8026C26
M8026C28
M8026C29
M8026C30
M8026C31
M8026C32
M8026C33
M8026C34
M8026C35
M8026C36
M8026C37
M8026C38
M8026C254
M8026C255
M8026C256
M8026C257
M8026C258
M8026C259
M8026C260
M8026C261
M8026C262
M8026C263
M8027C0
M8027C1
M8027C2
M8027C3
M8027C4
M8027C5
M8029C0
M8029C1
M8029C2
M8029C3
M8029C4
M8029C5
M8029C6
M8029C7
M8029C8
M8029C9
M8029C10
M8029C11
M8029C12
M8029C13
M8029C14
M8029C15
M8029C16
M8029C17
M8029C18
M8029C19
M8029C20
M8029C21
M8029C22
M8029C23
M8029C24
M8029C25
M8029C26
M8029C27
M8029C28
M8029C29
M8029C30
M8029C31
M8029C32
M8029C33
M8029C34
M8029C35
M8030C1
M8030C2
M8030C3
M8030C4
M8030C5
M8030C6
M8031C0
M8031C1
M8031C2
M8031C3
M8031C4
M8031C5
M8031C6
M8031C7
M8031C8
M8031C9
M8031C10
M8031C11
M8031C12
M8031C13
M8031C14
M8031C15
M8031C16
M8031C17
M8031C18
M8031C19
M8031C20
M8031C21
M8031C22
M8031C23
M8031C24
M8031C25
M8031C26
M8031C27
M8031C28
M8031C29
M8031C30
M8031C31
M8031C32
M8031C33
M8031C34
M8031C35
M8031C36
M8031C37
M8031C38
M8031C39
M8031C40
M8031C41
M8031C42
M8031C43
M8031C44
M8031C45
M8031C46
M8031C47
M8031C48
M8031C49
M8031C50
M8031C51
M8031C52
M8031C53
M8031C54
M8031C55
M8031C56
M8031C57
M8031C58
M8031C59
M8031C60
M8031C61
M8031C62
M8031C63
M8031C64
M8031C65
M8031C66
M8031C67
M8031C68
M8031C69
M8031C70
M8031C71
M8031C72
M8031C73
M8031C74
M8031C75
M8031C76
M8031C77
M8031C78
M8031C79
M8031C80
M8031C81
M8031C82
M8031C83
M8031C84
M8031C85
M8031C86
M8031C87
M8031C88
M8031C89
M8031C90
M8031C91
M8031C92
M8031C93
M8031C94
M8031C95
M8031C96
M8031C97
M8031C98
M8031C99
M8031C100
M8031C101
M8031C102
M8031C103
M8031C104
M8031C105
M8031C106
M8031C107
M8031C108
M8031C109
M8031C110
M8031C111
M8031C112
M8031C113
M8031C114
M8031C115
M8031C116
M8031C117
M8031C118
M8031C119
M8031C120
M8031C121
M8031C122
M8031C123
M8031C124
M8031C125
M8031C126
M8031C127
M8031C128
M8031C129
M8031C130
M8031C131
M8031C132
M8031C133
M8031C134
M8031C135
M8031C136
M8031C137
M8031C138
M8031C139
M8031C140
M8031C141
M8031C142
M8031C143
M8031C144
M8031C145
M8031C146
M8031C147
M8031C148
M8031C149
M8031C150
M8031C151
M8031C152
M8031C153
M8031C154
M8031C155
M8031C156
M8031C157
M8031C158
M8031C159
M8031C160
M8031C161
M8031C162
M8031C163
M8031C164
M8031C165
M8031C166
M8031C167
M8031C168
M8031C169
M8031C170
M8031C171
M8031C172
M8031C173
M8031C174
M8031C175
M8031C176
M8031C177
M8031C178
M8031C179
M8031C180
M8031C181
M8031C182
M8031C183
M8031C184
M8031C185
M8031C186
M8031C187
M8031C188
M8031C189
M8031C190
M8031C191
M8031C192
M8031C193
M8031C194
M8031C195
M8031C196
M8031C197
M8031C198
M8031C199
M8031C200
M8031C201
M8031C202
M8031C203
M8031C204
M8031C205
M8031C206
M8031C207
M8031C208
M8031C209
M8031C210
M8031C211
M8031C212
M8031C213
M8031C214
M8031C215
M8031C216
M8031C217
M8031C218
M8031C219
M8031C220
M8031C221
M8031C222
M8031C223
M8031C224
M8031C225
M8031C226
M8031C227
M8031C228
M8031C229
M8031C230
M8031C231
M8031C232
M8031C233
M8031C234
M8031C235
M8031C236
M8031C237
M8031C238
M8031C239
M8031C240
M8031C241
M8031C242
M8031C243
M8031C244
M8031C245
M8031C246
M8031C247
M8031C248
M8031C249
M8031C250
M8031C251
M8031C252
M8031C253
M8031C254
M8031C255
M8031C256
M8031C257
M8031C258
M8031C259
M8031C260
M8031C261
M8031C262
M8031C263
M8031C264
M8031C265
M8031C266
M8031C267
M8031C268
M8031C269
M8031C270
M8031C271
M8031C272
M8031C273
M8031C274
M8031C275
M8031C276
M8031C277
M8031C278
M8031C279
M8031C280
M8031C281
M8031C282
M8031C283
M8031C284
M8031C285
M8031C286
M8031C287
M8031C288
M8031C289
M8031C290
M8031C291
M8031C292
M8031C293
M8031C294
M8031C295
M8031C296
M8031C297
M8031C298
M8031C299
M8031C300
M8031C301
M8031C302
M8031C303
M8031C304
M8031C305
M8031C306
M8031C307
M8031C308
M8031C309
M8031C310
M8031C311
M8031C312
M8031C313
M8031C314
M8031C315
M8031C316
M8031C317
M8031C318
M8031C319
M8031C320
M8031C321
M8031C322
M8031C323
M8031C324
M8031C325
M8031C326
M8031C327
M8031C328
M8031C329
M8031C330
M8031C331
M8031C332
M8031C333
M8031C334
M8031C335
M8031C336
M8031C337
M8031C338
M8031C339
M8031C340
M8031C341
M8031C342
M8031C343
M8031C344
M8031C345
M8031C346
M8031C347
M8031C348
M8031C349
M8031C350
M8031C351
M8031C352
M8031C353
M8031C354
M8031C355
M8031C356
M8031C357
M8031C358
M8031C359
M8031C360
M8031C361
M8031C362
M8031C363
M8031C364
M8031C365
M8031C366
M8031C367
M8031C368
M8031C369
M8031C370
M8031C371
M8031C372
M8031C373
M8031C374
M8031C375
M8031C376
M8031C377
M8031C378
M8031C379
M8031C380
M8031C381
M8031C382
M8031C383
M8031C384
M8031C385
M8031C386
M8031C387
M8031C388
M8031C389
M8031C390
M8031C391
M8031C392
M8031C393
M8031C394
M8031C395
M8031C396
M8031C397
M8031C398
M8031C399
M8031C400
M8031C401
M8031C402
M8031C403
M8031C404
M8031C405
M8031C406
M8031C407
M8031C408
M8031C409
M8031C410
M8031C411
M8031C412
M8031C413
M8031C414
M8031C415
M8031C416
M8031C417
M8031C418
M8031C419
M8031C420
M8031C421
M8031C422
M8031C423
M8031C424
M8031C425
M8031C426
M8031C427
M8031C428
M8031C429
M8031C430
M8031C431
M8031C432
M8031C433
M8031C434
M8031C435
M8031C436
M8031C437
M8031C438
M8031C439
M8031C440
M8031C441
M8031C442
M8031C443
M8031C444
M8031C445
M8031C446
M8031C447
M8031C448
M8031C449
M8031C450
M8031C451
M8031C452
M8031C453
M8031C454
M8031C455
M8031C456
M8031C457
M8031C458
M8031C459
M8031C460
M8031C461
M8031C462
M8031C463
M8031C464
M8031C465
M8031C466
M8031C467
M8031C468
M8031C469
M8031C470
M8031C471
M8031C472
M8031C473
M8031C474
M8031C475
M8031C476
M8031C477
M8031C478
M8031C479
M8031C480
M8031C481
M8031C482
M8031C483
M8031C484
M8031C485
M8031C486
M8031C487
M8031C488
M8031C489
M8031C490
M8031C491
M8031C492
M8031C493
M8031C494
M8031C495
M8031C496
M8031C497
M8031C498
M8031C499
M8031C500
M8031C501
M8031C502
M8031C503
M8031C504
M8031C505
M8031C506
M8031C507
M8031C508
M8031C509
M8031C510
M8031C511
M8031C512
M8031C513
M8031C514
M8031C515
M8031C516
M8031C517
M8031C518
M8031C519
M8031C520
M8031C521
M8031C522
M8031C523
M8031C524
M8031C525
M8031C526
M8031C527
M8031C528
M8031C529
M8031C530
M8031C531
M8031C532
M8031C533
M8031C534
M8031C535
M8031C536
M8031C537
M8031C538
M8031C539
M8031C540
M8031C541
M8031C542
M8031C543
M8031C544
M8031C545
M8031C546
M8031C547
M8031C548
M8031C549
M8031C550
M8031C551
M8031C552
M8031C553
M8031C554
M8031C555
M8031C556
M8031C557
M8031C558
M8031C559
M8032C0
M8032C1
M8032C3
M8032C4
M8032C6
M8032C7
M8033C0
M8033C1
M8033C2
M8033C3
M8033C4
M8033C5
M8033C6
M8033C7
M8033C8
M8034C0
M8034C1
M8035C0
M8035C1
M8035C2
M8035C3
M8035C4
M8035C5
M8035C6
M8036C0
M8036C1
M8036C2
M8036C3
M8036C4
M8036C5
M8036C6
M8037C0
M8037C1
M8037C2
M8037C3
M8037C4
M8037C5
M8037C6
M51120C0
M51120C1
M51120C2
M51120C3
LTE125 PR 035758 PR 044391
Increase
M51120C4
M51120C5
M51120C6
M51120C7
M51120C8
M51120C9
M51120C10
M51120C11
M51120C12
M51121C0
M51121C1
M51121C2
M51121C3
M51121C4
M51121C5
M51121C6
M51121C7
M51121C8
M51121C9
M51121C10
M51121C11
M51121C12
M51121C13
M51121C14
M51121C15
M51121C16
M51121C17
M51121C18
M51121C19
M51121C20
M51121C21
M51121C22
M51121C23
M51121C24
M51121C25
M51121C26
M51121C27
M51121C28
M51121C29
M51121C30
M51121C31
M51121C32
M51121C33
M51121C34
M51121C35
M51123C0
M51123C1
M51123C2
M51123C3
M51123C4
M51123C8
M51123C16
M51123C17
M51123C18
M51123C19
M51123C20
M51123C21
M51123C22
M51123C23
M51125C0
M51125C1
PR040976
Other
M51125C2
PR 153134ESPE02, PR058815, PR040976
Other
M51125C3
M51125C4
M51125C5
M51126C0
M51126C1
M51127C0
M51127C1
M51127C2
M51127C3
PR035758
Increase
M51127C4
M51127C5
M51127C6
M51127C7
M51127C8
M51127C9
M51127C10
M51127C11
M51127C12
M51128C0
M51128C1
M51128C2
M51128C3
M51128C4
M51128C5
M51128C6
M51128C7
M51128C8
M51128C9
M51128C10
M51128C11
M51128C12
M51128C13
M51128C14
M51128C15
M51128C16
M51128C17
M51128C18
M51128C19
M51128C20
M51128C21
M51128C22
M51128C23
M51128C24
M51128C25
M51128C26
M51128C27
M51128C28
M51128C29
M51128C30
M51128C31
M51128C32
M51128C33
M51128C34
M51128C35
M51129C0
PR 153992ESPE02
Other
M51129C1
M51129C2
M51129C3
M51130C0
M51130C1
M51130C2
M51130C3
M51130C4
M51130C5
M51130C6
M51131C0
M51132C0
M51132C1
M51132C2
M51132C3
M51132C4
M51136C0
M51136C1
M51136C2
M51136C3
M51136C4
M51136C5
M51136C6
M51136C7
M51136C8
M51136C9
PR044960
No change
M51137C0
M51137C1
M51137C2
M51137C3
M51137C4
PR044960
No change
M51138C0
M51138C1
M51138C2
M51138C3
M51138C4
M51139C0
M51139C1
Feature LTE1899
M8006C2 replaced by KPI M8006C246 + M8006C250
M8006C2
Feature LTE1899
M8006C3 replaced by KPI M8006C245 + M8006C249
M8006C3
Feature LTE1899
M8006C4 replaced by KPI: M8006C244 + M8006C248
M8006C4
Feature LTE1899
In FL15A M8006C5 can be M8006C5 obtained in indirect way by KP LTE5089b. I Due to fact that in FL15A dedicated failure counters for RNL M8006C10 replaced by and M8006C10 TNL cause count only limited M8006C255 number of causes comparing to RL70 the LTE_5089b may provide higher values than M8006C12 replaced by M8006C12 the LTE_5089a in RL70 M8006C256
Feature LTE1899
Feature LTE1899
Feature LTE1899
Feature LTE1899
M8006C13 replaced by KPI: M8006C13 M8006C254 - M8006C255 M8006C256 - M8006C257 M8006C258 - M8006C259 M8006C260 - M8006C14 M8006C15 replaced by M8006C15 M8006C261 M8006C258 and M8006C259
Feature LTE1899
M8006C125 replaced by M8006C267
M8006C125
Feature LTE1899
M8006C134 replaced by M8006C268
M8006C134
Feature LTE1899
Feature LTE1899
M8006C143 replaced by M8006C143 KPI : M8006C266 M8006C267 - M8006C268 M8006C269 - M8006C270 M8006C271 M8006C272 M8006C161 -replaced by - M8006C161 M8006C14 M8006C270 and M8006C271
Feature LTE1899
M8006C174 + M8006C175 is replaced by M8006C260
M8006C174
Feature LTE1899
M8006C174 + M8006C175 is replaced by M8006C260
M8006C175
Feature LTE1899
M8007C3 replaced by KPI M8006C255 + M8006C263 + M8006C6
M8007C3
Feature LTE1899
M8007C5 replaced by M8006C256
M8007C5
Feature LTE1899
M8007C6 replaced by KPI: M8006C254 - M8006C255- M8006C260
M8007C6
Feature LTE1899
M8007C13 replaced by M8006C258 and M8006C259
M8007C13
CR3836
Counter removed
M8012C21
CR3836
Counter removed
M8012C24
Feature LTE1912
M8013C8 replaced by counters (M8013C65, M8013C66, M8013C67, M8013C68, M8013C69)
M8013C8
PR046545
M8013C20 replaced by M8013C21
M8013C20
Measurement ID and Name
Network element name
NetAct name
8000: LTE S1AP
S1 setup requests
S1_SETUP_ATT
8000: LTE S1AP
S1 setup completions
S1_SETUP_SUCC
8000: LTE S1AP
S1 setup failure due to timer expiration
S1_SETUP_FAIL_NO_RESP
8000: LTE S1AP
S1 setup failure due to MME rejection
S1_SETUP_FAIL_IND_BY_MM E
8000: LTE S1AP
S1 Paging requests
S1_PAGING
8000: LTE S1AP
Global S1 Reset initiated by the eNB
S1AP_GLOBAL_RESET_INIT_ ENB
8000: LTE S1AP
Global S1 Reset initiated by the MME
S1AP_GLOBAL_RESET_INIT_ MME
8000: LTE S1AP
Partial S1 Reset initiated by the eNB
S1AP_PARTIAL_RESET_INIT_ ENB
8000: LTE S1AP
Partial S1 Reset initiated by the MME
S1AP_PARTIAL_RESET_INIT_ MME
8000: LTE S1AP
UE Context modification attempts due to AMBR
UE_CONTEXT_MOD_ATT_AM BR
8000: LTE S1AP
Number of failed WRITEREPLACE WARNING procedures
S1AP_WRITE_REP_WARN_FA IL
8000: LTE S1AP
Number of failed KILL procedures
S1AP_KILL_FAIL
8000: LTE S1AP
Number of Uplink NAS Transport S1AP_NAS_UPLINK messages
8000: LTE S1AP
Number of Downlink NAS Transport messages
S1AP_NAS_DOWNLINK
8000: LTE S1AP
E-RAB Setup Requests for IMS emergency sessions
E_RAB_SETUP_ATT_EMG
8000: LTE S1AP
E-RAB Setup Completions for IMS emergency sessions
E_RAB_SETUP_SUCC_EMG
8000: LTE S1AP
E-RAB setup failures for IMS emergency sessions due to to missing RB (Radio Bearer) resources
E_RAB_SETUP_FAIL_RB_EM G
8000: LTE S1AP
Number of Location Reporting Control messages
S1AP_LCS_REP_CTRL
8000: LTE S1AP
Number of Location Report messages
S1AP_LCS_REP
8000: LTE S1AP
Number of successful X2 IP address retrievals via S1
X2_IP_RETR_VIA_S1_SUCC
8000: LTE S1AP
Number of attempted X2 IP address retrievals via S1
X2_IP_RETR_VIA_S1_ATT
8000: LTE S1AP
Number of WRITE-REPLACE S1AP_WRITE_REP_WARN_R WARNING REQUEST messages EQ
8000: LTE S1AP
Number of WRITE-REPLACE WARNING RESPONSE messages
S1AP_WRITE_REP_WARN_R ESP
8000: LTE S1AP
Number of KILL REQUEST messages
S1AP_KILL_REQ
8000: LTE S1AP
Number of KILL RESPONSE messages
S1AP_KILL_RESP
8000: LTE S1AP
Number of downlink UE LPPA_MEAS_INIT_REQ associated LPPa transport messages with E-CID measurement initiation request per eNB of uplink UE associated LPPA_MEAS_INIT_RESP Number LPPa transport messages with ECID measurement initiation response per eNB
8000: LTE S1AP
8000: LTE S1AP
8000: LTE S1AP
8001: LTE Cell Load
Number of uplink UE associated LPPA_MEAS_INIT_FAIL_NOT_ LPPa transport messages with E- SUPP CID measurement initiation response with cause "Requested Item not of Supported" eNB Number uplink UEper associated LPPA_MEAS_INIT_FAIL_TMP_ LPPa transport messages with E- UNAV CID measurement initiation response with cause "Requested Item Temporarily PDCP SDU delaynot on Available" DL DTCH PDCP_SDU_DELAY_DL_DTCH per eNB Min _MIN
8001: LTE Cell Load
PDCP SDU delay on DL DTCH Max
PDCP_SDU_DELAY_DL_DTCH _MAX
8001: LTE Cell Load
PDCP SDU delay on DL DTCH Mean
PDCP_SDU_DELAY_DL_DTCH _MEAN
8001: LTE Cell Load
PDCP SDU delay on UL DTCH Min
PDCP_SDU_DELAY_UL_DTCH _MIN
8001: LTE Cell Load
PDCP SDU delay on UL DTCH Max
PDCP_SDU_DELAY_UL_DTCH _MAX
8001: LTE Cell Load
PDCP SDU delay on UL DTCH Mean
PDCP_SDU_DELAY_UL_DTCH _MEAN
8001: LTE Cell Load
RACH setup attempts for small size messages
RACH_STP_ATT_SMALL_MSG
8001: LTE Cell Load
RACH setup attempts for large size messages
RACH_STP_ATT_LARGE_MS G
8001: LTE Cell Load
RACH setup completions
RACH_STP_COMPLETIONS
8001: LTE Cell Load
Transmitted TBs on PCH
TRANSMIT_TB_ON_PCH
8001: LTE Cell Load
Transmitted TBs on BCH
TRANSMIT_TB_ON_BCH
8001: LTE Cell Load
Transmitted TBs on DL-SCH
TRANSMIT_TB_ON_DL_SCH
8001: LTE Cell Load
HARQ retransmissions on DLSCH
HARQ_RETRANS_ON_DL_SC H
8001: LTE Cell Load
Correct non-duplicate UL-SCH TB with original reception
CORR_NON_DUPL_UL_SCH_ TB
8001: LTE Cell Load
Correct UL-SCH TB with rereception
CORR_UL_SCH_TB_RE_REC EPT
8001: LTE Cell Load
Erroneous UL-SCH TB receptions
INCORR_UL_SCH_TB_RECEP T
8001: LTE Cell Load
PUSCH transmissions using MCS0
PUSCH_TRANS_USING_MCS 0
8001: LTE Cell Load
PUSCH transmissions using MCS1
PUSCH_TRANS_USING_MCS 1
8001: LTE Cell Load
PUSCH transmissions using MCS2
PUSCH_TRANS_USING_MCS 2
8001: LTE Cell Load
PUSCH transmissions using MCS3
PUSCH_TRANS_USING_MCS 3
8001: LTE Cell Load
PUSCH transmissions using MCS4
PUSCH_TRANS_USING_MCS 4
8001: LTE Cell Load
PUSCH transmissions using MCS5
PUSCH_TRANS_USING_MCS 5
8001: LTE Cell Load
PUSCH transmissions using MCS6
PUSCH_TRANS_USING_MCS 6
8001: LTE Cell Load
PUSCH transmissions using MCS7
PUSCH_TRANS_USING_MCS 7
8001: LTE Cell Load
PUSCH transmissions using MCS8
PUSCH_TRANS_USING_MCS 8
8001: LTE Cell Load
PUSCH transmissions using MCS9
PUSCH_TRANS_USING_MCS 9
8001: LTE Cell Load
PUSCH transmissions using MCS10
PUSCH_TRANS_USING_MCS 10
8001: LTE Cell Load
PUSCH transmissions using MCS11
PUSCH_TRANS_USING_MCS1 1
8001: LTE Cell Load
PUSCH transmissions using MCS12
PUSCH_TRANS_USING_MCS 12
8001: LTE Cell Load
PUSCH transmissions using MCS13
PUSCH_TRANS_USING_MCS 13
8001: LTE Cell Load
PUSCH transmissions using MCS14
PUSCH_TRANS_USING_MCS 14
8001: LTE Cell Load
PUSCH transmissions using MCS15
PUSCH_TRANS_USING_MCS 15
8001: LTE Cell Load
PUSCH transmissions using MCS16
PUSCH_TRANS_USING_MCS 16
8001: LTE Cell Load
PUSCH transmissions using MCS17
PUSCH_TRANS_USING_MCS 17
8001: LTE Cell Load
PUSCH transmissions using MCS18
PUSCH_TRANS_USING_MCS 18
8001: LTE Cell Load
PUSCH transmissions using MCS19
PUSCH_TRANS_USING_MCS 19
8001: LTE Cell Load
PUSCH transmissions using MCS20
PUSCH_TRANS_USING_MCS 20
8001: LTE Cell Load
PUSCH transmissions using MCS21
PUSCH_TRANS_USING_MCS 21
8001: LTE Cell Load
PUSCH transmissions using MCS22
PUSCH_TRANS_USING_MCS 22
8001: LTE Cell Load
PUSCH transmissions using MCS23
PUSCH_TRANS_USING_MCS 23
8001: LTE Cell Load
PUSCH transmissions using MCS24
PUSCH_TRANS_USING_MCS 24
8001: LTE Cell Load
PUSCH transmissions using MCS25
PUSCH_TRANS_USING_MCS 25
8001: LTE Cell Load
PUSCH transmissions using MCS26
PUSCH_TRANS_USING_MCS 26
8001: LTE Cell Load
PUSCH transmissions using MCS27
PUSCH_TRANS_USING_MCS 27
8001: LTE Cell Load
PUSCH transmissions using MCS28
PUSCH_TRANS_USING_MCS 28
8001: LTE Cell Load
PDSCH transmissions using MCS0
PDSCH_TRANS_USING_MCS 0
8001: LTE Cell Load
PDSCH transmissions using MCS1
PDSCH_TRANS_USING_MCS 1
8001: LTE Cell Load
PDSCH transmissions using MCS2
PDSCH_TRANS_USING_MCS 2
8001: LTE Cell Load
PDSCH transmissions using MCS3
PDSCH_TRANS_USING_MCS 3
8001: LTE Cell Load
PDSCH transmissions using MCS4
PDSCH_TRANS_USING_MCS 4
8001: LTE Cell Load
PDSCH transmissions using MCS5
PDSCH_TRANS_USING_MCS 5
8001: LTE Cell Load
PDSCH transmissions using MCS6
PDSCH_TRANS_USING_MCS 6
8001: LTE Cell Load
PDSCH transmissions using MCS7
PDSCH_TRANS_USING_MCS 7
8001: LTE Cell Load
PDSCH transmissions using MCS8
PDSCH_TRANS_USING_MCS 8
8001: LTE Cell Load
PDSCH transmissions using MCS9
PDSCH_TRANS_USING_MCS 9
8001: LTE Cell Load
PDSCH transmissions using MCS10
PDSCH_TRANS_USING_MCS 10
8001: LTE Cell Load
PDSCH transmissions using MCS11
PDSCH_TRANS_USING_MCS1 1
8001: LTE Cell Load
PDSCH transmissions using MCS12
PDSCH_TRANS_USING_MCS 12
8001: LTE Cell Load
PDSCH transmissions using MCS13
PDSCH_TRANS_USING_MCS 13
8001: LTE Cell Load
PDSCH transmissions using MCS14
PDSCH_TRANS_USING_MCS 14
8001: LTE Cell Load
PDSCH transmissions using MCS15
PDSCH_TRANS_USING_MCS 15
8001: LTE Cell Load
PDSCH transmissions using MCS16
PDSCH_TRANS_USING_MCS 16
8001: LTE Cell Load
PDSCH transmissions using MCS17
PDSCH_TRANS_USING_MCS 17
8001: LTE Cell Load
PDSCH transmissions using MCS18
PDSCH_TRANS_USING_MCS 18
8001: LTE Cell Load
PDSCH transmissions using MCS19
PDSCH_TRANS_USING_MCS 19
8001: LTE Cell Load
PDSCH transmissions using MCS20
PDSCH_TRANS_USING_MCS 20
8001: LTE Cell Load
PDSCH transmissions using MCS21
PDSCH_TRANS_USING_MCS 21
8001: LTE Cell Load
PDSCH transmissions using MCS22
PDSCH_TRANS_USING_MCS 22
8001: LTE Cell Load
PDSCH transmissions using MCS23
PDSCH_TRANS_USING_MCS 23
8001: LTE Cell Load
PDSCH transmissions using MCS24
PDSCH_TRANS_USING_MCS 24
8001: LTE Cell Load
PDSCH transmissions using MCS25
PDSCH_TRANS_USING_MCS 25
8001: LTE Cell Load
PDSCH transmissions using MCS26
PDSCH_TRANS_USING_MCS 26
8001: LTE Cell Load
PDSCH transmissions using MCS27
PDSCH_TRANS_USING_MCS 27
8001: LTE Cell Load
PDSCH transmissions using MCS28
PDSCH_TRANS_USING_MCS 28
8001: LTE Cell Load
PUSCH transmission nacks using MCS0
PUSCH_TRANS_NACK_MCS0
8001: LTE Cell Load
PUSCH transmission nacks using MCS1
PUSCH_TRANS_NACK_MCS1
8001: LTE Cell Load
PUSCH transmission nacks using MCS2
PUSCH_TRANS_NACK_MCS2
8001: LTE Cell Load
PUSCH transmission nacks using MCS3
PUSCH_TRANS_NACK_MCS3
8001: LTE Cell Load
PUSCH transmission nacks using MCS4
PUSCH_TRANS_NACK_MCS4
8001: LTE Cell Load
PUSCH transmission nacks using MCS5
PUSCH_TRANS_NACK_MCS5
8001: LTE Cell Load
PUSCH transmission nacks using MCS6
PUSCH_TRANS_NACK_MCS6
8001: LTE Cell Load
PUSCH transmission nacks using MCS7
PUSCH_TRANS_NACK_MCS7
8001: LTE Cell Load
PUSCH transmission nacks using MCS8
PUSCH_TRANS_NACK_MCS8
8001: LTE Cell Load
PUSCH transmission nacks using MCS9
PUSCH_TRANS_NACK_MCS9
8001: LTE Cell Load
PUSCH transmission nacks using MCS10
PUSCH_TRANS_NACK_MCS1 0
8001: LTE Cell Load
PUSCH transmission nacks using MCS11
PUSCH_TRANS_NACK_MCS1 1
8001: LTE Cell Load
PUSCH transmission nacks using MCS12
PUSCH_TRANS_NACK_MCS1 2
8001: LTE Cell Load
PUSCH transmission nacks using MCS13
PUSCH_TRANS_NACK_MCS1 3
8001: LTE Cell Load
PUSCH transmission nacks using MCS14
PUSCH_TRANS_NACK_MCS1 4
8001: LTE Cell Load
PUSCH transmission nacks using MCS15
PUSCH_TRANS_NACK_MCS1 5
8001: LTE Cell Load
PUSCH transmission nacks using MCS16
PUSCH_TRANS_NACK_MCS1 6
8001: LTE Cell Load
PUSCH transmission nacks using MCS17
PUSCH_TRANS_NACK_MCS1 7
8001: LTE Cell Load
PUSCH transmission nacks using MCS18
PUSCH_TRANS_NACK_MCS1 8
8001: LTE Cell Load
PUSCH transmission nacks using MCS19
PUSCH_TRANS_NACK_MCS1 9
8001: LTE Cell Load
PUSCH transmission nacks using MCS20
PUSCH_TRANS_NACK_MCS2 0
8001: LTE Cell Load
PUSCH transmission nacks using MCS21
PUSCH_TRANS_NACK_MCS2 1
8001: LTE Cell Load
PUSCH transmission nacks using MCS22
PUSCH_TRANS_NACK_MCS2 2
8001: LTE Cell Load
PUSCH transmission nacks using MCS23
PUSCH_TRANS_NACK_MCS2 3
8001: LTE Cell Load
PUSCH transmission nacks using MCS24
PUSCH_TRANS_NACK_MCS2 4
8001: LTE Cell Load
PUSCH transmission nacks using MCS25
PUSCH_TRANS_NACK_MCS2 5
8001: LTE Cell Load
PUSCH transmission nacks using MCS26
PUSCH_TRANS_NACK_MCS2 6
8001: LTE Cell Load
PUSCH transmission nacks using MCS27
PUSCH_TRANS_NACK_MCS2 7
8001: LTE Cell Load
PUSCH transmission nacks using MCS28
PUSCH_TRANS_NACK_MCS2 8
8001: LTE Cell Load
PDSCH transmission nacks using MCS0
PDSCH_TRANS_NACK_MCS0
8001: LTE Cell Load
PDSCH transmission nacks using MCS1
PDSCH_TRANS_NACK_MCS1
8001: LTE Cell Load
PDSCH transmission nacks using MCS2
PDSCH_TRANS_NACK_MCS2
8001: LTE Cell Load
PDSCH transmission nacks using MCS3
PDSCH_TRANS_NACK_MCS3
8001: LTE Cell Load
PDSCH transmission nacks using MCS4
PDSCH_TRANS_NACK_MCS4
8001: LTE Cell Load
PDSCH transmission nacks using MCS5
PDSCH_TRANS_NACK_MCS5
8001: LTE Cell Load
PDSCH transmission nacks using MCS6
PDSCH_TRANS_NACK_MCS6
8001: LTE Cell Load
PDSCH transmission nacks using MCS7
PDSCH_TRANS_NACK_MCS7
8001: LTE Cell Load
PDSCH transmission nacks using MCS8
PDSCH_TRANS_NACK_MCS8
8001: LTE Cell Load
PDSCH transmission nacks using MCS9
PDSCH_TRANS_NACK_MCS9
8001: LTE Cell Load
PDSCH transmission nacks using MCS10
PDSCH_TRANS_NACK_MCS1 0
8001: LTE Cell Load
PDSCH transmission nacks using MCS11
PDSCH_TRANS_NACK_MCS1 1
8001: LTE Cell Load
PDSCH transmission nacks using MCS12
PDSCH_TRANS_NACK_MCS1 2
8001: LTE Cell Load
PDSCH transmission nacks using MCS13
PDSCH_TRANS_NACK_MCS1 3
8001: LTE Cell Load
PDSCH transmission nacks using MCS14
PDSCH_TRANS_NACK_MCS1 4
8001: LTE Cell Load
PDSCH transmission nacks using MCS15
PDSCH_TRANS_NACK_MCS1 5
8001: LTE Cell Load
PDSCH transmission nacks using MCS16
PDSCH_TRANS_NACK_MCS1 6
8001: LTE Cell Load
PDSCH transmission nacks using MCS17
PDSCH_TRANS_NACK_MCS1 7
8001: LTE Cell Load
PDSCH transmission nacks using MCS18
PDSCH_TRANS_NACK_MCS1 8
8001: LTE Cell Load
PDSCH transmission nacks using MCS19
PDSCH_TRANS_NACK_MCS1 9
8001: LTE Cell Load
PDSCH transmission nacks using MCS20
PDSCH_TRANS_NACK_MCS2 0
8001: LTE Cell Load
PDSCH transmission nacks using MCS21
PDSCH_TRANS_NACK_MCS2 1
8001: LTE Cell Load
PDSCH transmission nacks using MCS22
PDSCH_TRANS_NACK_MCS2 2
8001: LTE Cell Load
PDSCH transmission nacks using MCS23
PDSCH_TRANS_NACK_MCS2 3
8001: LTE Cell Load
PDSCH transmission nacks using MCS24
PDSCH_TRANS_NACK_MCS2 4
8001: LTE Cell Load
PDSCH transmission nacks using MCS25
PDSCH_TRANS_NACK_MCS2 5
8001: LTE Cell Load
PDSCH transmission nacks using MCS26
PDSCH_TRANS_NACK_MCS2 6
8001: LTE Cell Load
PDSCH transmission nacks using MCS27
PDSCH_TRANS_NACK_MCS2 7
8001: LTE Cell Load
PDSCH transmission nacks using MCS28
PDSCH_TRANS_NACK_MCS2 8
8001: LTE Cell Load
RLC SDUs on DL DTCH
RLC_SDU_ON_DL_DTCH
8001: LTE Cell Load
RLC SDUs on DL DCCH
RLC_SDU_ON_DL_DCCH
8001: LTE Cell Load
RLC SDUs on UL DTCH
RLC_SDU_ON_UL_DTCH
8001: LTE Cell Load
RLC SDUs on UL DCCH
RLC_SDU_ON_UL_DCCH
8001: LTE Cell Load
RLC PDU first transmissions
RLC_PDU_FIRST_TRANS
8001: LTE Cell Load
RLC PDU re-transmissions
RLC_PDU_RE_TRANS
8001: LTE Cell Load
RLC PDU reception
UL_RLC_PDU_RECECPTION
8001: LTE Cell Load
DL RLC C-PDUs transmitted the DL_RLC_C_PDU_FIRST_TIME first time
8001: LTE Cell Load
DL RLC Data PDUs transmitted first time
DL_RLC_D_PDU_FIRST_TIME
8001: LTE Cell Load
UL RLC PDUs received
UL_RLC_PDU_REC_TOT
8001: LTE Cell Load
Duplicate UL RLC PDU received UL_RLC_PDU_DUPL_REC
8001: LTE Cell Load
UL RLC PDU retransmission requested on RLC level
UL_RLC_PDU_RETR_REQ
8001: LTE Cell Load
UL RLC PDUs discarded
UL_RLC_PDU_DISC
8001: LTE Cell Load
DL RLC SDU From PDCP
DL_RLC_SDU_FROM_PDCP
8001: LTE Cell Load
Average number of UEs with buffered data in DL
DL_UE_DATA_BUFF_AVG
8001: LTE Cell Load
Max number of UEs with buffered DL_UE_DATA_BUFF_MAX data in DL
8001: LTE Cell Load
Aggregated time period of TIME_CPLANE_OVL_L1 Control Plane in overload level 1
8001: LTE Cell Load
Average number of UEs with buffered data in UL
UL_UE_DATA_BUFF_AVG
8001: LTE Cell Load
Max number of UEs with buffered UL_UE_DATA_BUFF_MAX data in UL
8001: LTE Cell Load
Aggregated time period of TIME_CPLANE_OVL_L2 Control Plane in overload level 2
8001: LTE Cell Load
PDCP SDUs in Uplink
PDCP_SDU_UL
8001: LTE Cell Load
PDCP SDUs in Downlink
PDCP_SDU_DL
8001: LTE Cell Load
Discarded PDCP SDUs in downlink
PDCP_SDU_DL_DISC
8001: LTE Cell Load
Failed Transmission PDSCH MCS0
TB_BAD_PDSCH_MCS0
8001: LTE Cell Load
Failed Transmission PDSCH MCS1
TB_BAD_PDSCH_MCS1
8001: LTE Cell Load
Failed Transmission PDSCH MCS2
TB_BAD_PDSCH_MCS2
8001: LTE Cell Load
Failed Transmission PDSCH MCS3
TB_BAD_PDSCH_MCS3
8001: LTE Cell Load
Failed Transmission PDSCH MCS4
TB_BAD_PDSCH_MCS4
8001: LTE Cell Load
Failed Transmission PDSCH MCS5
TB_BAD_PDSCH_MCS5
8001: LTE Cell Load
Failed Transmission PDSCH MCS6
TB_BAD_PDSCH_MCS6
8001: LTE Cell Load
Failed Transmission PDSCH MCS7
TB_BAD_PDSCH_MCS7
8001: LTE Cell Load
Failed Transmission PDSCH MCS8
TB_BAD_PDSCH_MCS8
8001: LTE Cell Load
Failed Transmission PDSCH MCS9
TB_BAD_PDSCH_MCS9
8001: LTE Cell Load
Failed Transmission PDSCH MCS10
TB_BAD_PDSCH_MCS10
8001: LTE Cell Load
Failed Transmission PDSCH MCS11
TB_BAD_PDSCH_MCS11
8001: LTE Cell Load
Failed Transmission PDSCH MCS12
TB_BAD_PDSCH_MCS12
8001: LTE Cell Load
Failed Transmission PDSCH MCS13
TB_BAD_PDSCH_MCS13
8001: LTE Cell Load
Failed Transmission PDSCH MCS14
TB_BAD_PDSCH_MCS14
8001: LTE Cell Load
Failed Transmission PDSCH MCS15
TB_BAD_PDSCH_MCS15
8001: LTE Cell Load
Failed Transmission PDSCH MCS16
TB_BAD_PDSCH_MCS16
8001: LTE Cell Load
Failed Transmission PDSCH MCS17
TB_BAD_PDSCH_MCS17
8001: LTE Cell Load
Failed Transmission PDSCH MCS18
TB_BAD_PDSCH_MCS18
8001: LTE Cell Load
Failed Transmission PDSCH MCS19
TB_BAD_PDSCH_MCS19
8001: LTE Cell Load
Failed Transmission PDSCH MCS20
TB_BAD_PDSCH_MCS20
8001: LTE Cell Load
Failed Reception PUSCH MCS0 TB_BAD_PUSCH_MCS0
8001: LTE Cell Load
Failed Reception PUSCH MCS1 TB_BAD_PUSCH_MCS1
8001: LTE Cell Load
Failed Reception PUSCH MCS2 TB_BAD_PUSCH_MCS2
8001: LTE Cell Load
Failed Reception PUSCH MCS3 TB_BAD_PUSCH_MCS3
8001: LTE Cell Load
Failed Reception PUSCH MCS4 TB_BAD_PUSCH_MCS4
8001: LTE Cell Load
Failed Reception PUSCH MCS5 TB_BAD_PUSCH_MCS5
8001: LTE Cell Load
Failed Reception PUSCH MCS6 TB_BAD_PUSCH_MCS6
8001: LTE Cell Load
Failed Reception PUSCH MCS7 TB_BAD_PUSCH_MCS7
8001: LTE Cell Load
Failed Reception PUSCH MCS8 TB_BAD_PUSCH_MCS8
8001: LTE Cell Load
Failed Reception PUSCH MCS9 TB_BAD_PUSCH_MCS9
8001: LTE Cell Load
Failed Reception PUSCH MCS10
8001: LTE Cell Load
Failed Reception PUSCH MCS11 TB_BAD_PUSCH_MCS11
8001: LTE Cell Load
Failed Reception PUSCH MCS12
TB_BAD_PUSCH_MCS12
8001: LTE Cell Load
Failed Reception PUSCH MCS13
TB_BAD_PUSCH_MCS13
8001: LTE Cell Load
Failed Reception PUSCH MCS14
TB_BAD_PUSCH_MCS14
8001: LTE Cell Load
Failed Reception PUSCH MCS15
TB_BAD_PUSCH_MCS15
8001: LTE Cell Load
Failed Reception PUSCH MCS16
TB_BAD_PUSCH_MCS16
8001: LTE Cell Load
Failed Reception PUSCH MCS17
TB_BAD_PUSCH_MCS17
8001: LTE Cell Load
Failed Reception PUSCH MCS18
TB_BAD_PUSCH_MCS18
8001: LTE Cell Load
Failed Reception PUSCH MCS19
TB_BAD_PUSCH_MCS19
8001: LTE Cell Load
Failed Reception PUSCH MCS20
TB_BAD_PUSCH_MCS20
TB_BAD_PUSCH_MCS10
8001: LTE Cell Load
Average number of UEs utilizing UL intra-eNB CoMP
UL_INTRA_COMP_UE_AVG
8001: LTE Cell Load
RRC Connected UEs Avg
RRC_CONN_UE_AVG
8001: LTE Cell Load
RRC Connected UEs Max
RRC_CONN_UE_MAX
8001: LTE Cell Load
Failed Transmission PDSCH MCS21
TB_BAD_PDSCH_MCS21
8001: LTE Cell Load
Failed Transmission PDSCH MCS22
TB_BAD_PDSCH_MCS22
8001: LTE Cell Load
Failed Transmission PDSCH MCS23
TB_BAD_PDSCH_MCS23
8001: LTE Cell Load
Failed Transmission PDSCH MCS24
TB_BAD_PDSCH_MCS24
8001: LTE Cell Load
Failed Transmission PDSCH MCS25
TB_BAD_PDSCH_MCS25
8001: LTE Cell Load
Failed Transmission PDSCH MCS26
TB_BAD_PDSCH_MCS26
8001: LTE Cell Load
Failed Transmission PDSCH MCS27
TB_BAD_PDSCH_MCS27
8001: LTE Cell Load
Failed Transmission PDSCH MCS28
TB_BAD_PDSCH_MCS28
8001: LTE Cell Load
Minimum queue length DL SRB
DL_QUE_L_SRB_MIN
8001: LTE Cell Load
Average queue length DL SRB
DL_QUE_L_SRB_AVG
8001: LTE Cell Load
Maximum queue length DL SRB
DL_QUE_L_SRB_MAX
8001: LTE Cell Load
Minimum queue length DL DRB
DL_QUE_L_DRB_MIN
8001: LTE Cell Load
Average queue length DL DRB
DL_QUE_L_DRB_AVG
8001: LTE Cell Load
Maximum queue length DL DRB DL_QUE_L_DRB_MAX
8001: LTE Cell Load
Average number of available PRBs per TTI on PDSCH
MEAN_PRB_AVAIL_PDSCH
8001: LTE Cell Load
Average number of available PRBs per TTI on PUSCH
MEAN_PRB_AVAIL_PUSCH
8001: LTE Cell Load
RLC SDUs on BCCH
RLC_SDU_BCCH
8001: LTE Cell Load
RLC SDUs on DL CCCH
RLC_SDU_DL_CCCH
8001: LTE Cell Load
RLC SDUs on PCCH
RLC_SDU_PCCH
8001: LTE Cell Load
RLC SDUs on UL CCCH
RLC_SDU_UL_CCCH
8001: LTE Cell Load
Active UE per Cell average
CELL_LOAD_ACT_UE_AVG
8001: LTE Cell Load
Active UE per Cell max
CELL_LOAD_ACT_UE_MAX
8001: LTE Cell Load
UEs with buffered DL data for DRB with QCI 1
UE_DRB_DL_DATA_QCI_1
8001: LTE Cell Load
UEs with buffered DL data for QCI2 bearer
UE_DRB_DL_DATA_QCI_2
8001: LTE Cell Load
UEs with buffered DL data for QCI3 bearer
UE_DRB_DL_DATA_QCI_3
8001: LTE Cell Load
UEs with buffered DL data for QCI4 bearer
UE_DRB_DL_DATA_QCI_4
8001: LTE Cell Load
Number of primary ETWS notifications
NUM_WARN_ETWS_PRIM
8001: LTE Cell Load
Number of secondary ETWS notifications
NUM_WARN_ETWS_SEC
8001: LTE Cell Load
Number of CMAS notifications
NUM_WARN_CMAS
8001: LTE Cell Load
Average number of active UEs with UE Category 8
ACTIVE_UE_CAT_8_AVG
8001: LTE Cell Load
UEs with buffered DL data for non-GBR DRB
UE_DRB_DL_DATA_NON_GBR
8001: LTE Cell Load
Sum of Active UEs with buffered SUM_ACTIVE_UE_DATA_DL data in DL per cell
8001: LTE Cell Load
Denominator for Active UEs with DENOM_ACTIVE_UE_DATA_D buffered data in DL per cell L
8001: LTE Cell Load
Sum of Active UEs with buffered SUM_ACTIVE_UE_DATA_UL data in UL per cell
8001: LTE Cell Load
Denominator for Active UEs with DENOM_ACTIVE_UE_DATA_U buffered data in UL per cell L
8001: LTE Cell Load
Mean PDCP SDU delay on DL DTCH for DRB with QCI 1
PDCP_RET_DL_DEL_MEAN_Q CI_1
8001: LTE Cell Load
Mean PDCP SDU delay on DL DTCH for non-GBR DRB
PDCP_RET_DL_DEL_MEAN_N ON_GBR
8001: LTE Cell Load
PDCP SDU delay on DL DTCH Mean for GBR DRBs of QCI 2
PDCP_RET_DL_DEL_MEAN_Q CI_2
8001: LTE Cell Load
PDCP SDU delay on DL DTCH Mean for GBR DRBs of QCI 3
PDCP_RET_DL_DEL_MEAN_Q CI_3
8001: LTE Cell Load
PDCP SDU delay on DL DTCH Mean for GBR DRBs of QCI 4
PDCP_RET_DL_DEL_MEAN_Q CI_4
8001: LTE Cell Load
RACH setup attempts for dedicated preambles
RACH_STP_ATT_DEDICATED
8001: LTE Cell Load
Sum of active UEs per cell, which SUM_ACT_UE_SCHED_DATA_ had data scheduled in UL UL
8001: LTE Cell Load
Denominator for active UEs per DENOM_ACT_UE_SCHED_DA cell, which had data scheduled in TA_UL UL
8001: LTE Cell Load
Sum of active UEs per cell, which SUM_ACT_UE_SCHED_DATA_ had data scheduled in DL DL
8001: LTE Cell Load
Denominator for active UEs per DENOM_ACT_UE_SCHED_DA cell, which had data scheduled in TA_DL DL
8001: LTE Cell Load
Time period of User Plane in overload level 1
TIME_UPLANE_OVL_L1
8001: LTE Cell Load
Time period of User Plane in overload level 2
TIME_UPLANE_OVL_L2
8001: LTE Cell Load
PDCP SDU UL QCI 1
PDCP_SDU_UL_QCI_1
8001: LTE Cell Load
PDCP SDU UL QCI 2
PDCP_SDU_UL_QCI_2
8001: LTE Cell Load
PDCP SDU UL QCI 3
PDCP_SDU_UL_QCI_3
8001: LTE Cell Load
PDCP SDU UL QCI 4
PDCP_SDU_UL_QCI_4
8001: LTE Cell Load
PDCP SDU delay on DL DTCH PDCP_RET_DL_DEL_MEAN_Q Mean for non-GBR DRBs of QCI CI_5 5
8001: LTE Cell Load
PDCP SDU delay on DL DTCH PDCP_RET_DL_DEL_MEAN_Q Mean for non-GBR DRBs of QCI CI_6 6
8001: LTE Cell Load
PDCP SDU delay on DL DTCH PDCP_RET_DL_DEL_MEAN_Q Mean for non-GBR DRBs of QCI CI_7 7
8001: LTE Cell Load
PDCP SDU delay on DL DTCH PDCP_RET_DL_DEL_MEAN_Q Mean for non-GBR DRBs of QCI CI_8 8
8001: LTE Cell Load
PDCP SDU delay on DL DTCH PDCP_RET_DL_DEL_MEAN_Q Mean for non-GBR DRBs of QCI CI_9 9
8001: LTE Cell Load
PDCP SDU DL QCI 1
PDCP_SDU_DL_QCI_1
8001: LTE Cell Load
PDCP SDU DL QCI 2
PDCP_SDU_DL_QCI_2
8001: LTE Cell Load
PDCP SDU DL QCI 3
PDCP_SDU_DL_QCI_3
8001: LTE Cell Load
PDCP SDU DL QCI 4
PDCP_SDU_DL_QCI_4
8001: LTE Cell Load
Sum of RRC Connected UEs per SUM_RRC_CONN_UE cell
8001: LTE Cell Load
Denominator for RRC Connected DENOM_RRC_CONN_UE UEs per cell
8001: LTE Cell Load
Sum of Active UEs per cell
SUM_ACTIVE_UE
8001: LTE Cell Load
Denominator for Active UEs per cell
DENOM_ACTIVE_UE
8001: LTE Cell Load
Time period of automatic Access TIME_AC_BAR_OVL Class Barring due to overload
8001: LTE Cell Load
PDCP SDU discarded DL QCI 1
PDCP_SDU_DISC_DL_QCI_1
8001: LTE Cell Load
PDCP SDU discarded DL QCI 2
PDCP_SDU_DISC_DL_QCI_2
8001: LTE Cell Load
PDCP SDU discarded DL QCI 3
PDCP_SDU_DISC_DL_QCI_3
8001: LTE Cell Load
PDCP SDU discarded DL QCI 4
PDCP_SDU_DISC_DL_QCI_4
8001: LTE Cell Load
UEs with buffered UL data for DRB with QCI 1
UE_DRB_UL_DATA_QCI_1
8001: LTE Cell Load
UEs with buffered UL data for non-GBR DRB
UE_DRB_UL_DATA_NON_GBR
8001: LTE Cell Load
Number of PDCCH order attempts
PDCCH_ORDER_ATT
8001: LTE Cell Load
Number of initial PDCCH order attempts
PDCCH_INIT_ORDER_ATT
8001: LTE Cell Load
Number of successful PDCCH orders
PDCCH_ORDER_SUCCESS
8001: LTE Cell Load
Unavailability of dedicated preamble
D_PREAMB_UNAVAIL
8001: LTE Cell Load
Unavailability of dedicated preamble for PDCCH order purposes
D_PREAMB_PDCCH_UNAVAIL
8001: LTE Cell Load
Unavailability of dedicated D_PREAMB_HO_UNAVAIL preamble for handover purposes
8001: LTE Cell Load
Number of UE state transitions from UL-In-Sync to UL-Out-OfSync
8001: LTE Cell Load
Average number of UEs in UL-In- CELL_LOAD_UL_IN_SYNC_AV Sync G
8001: LTE Cell Load
Average number of UEs with CELL_LOAD_UNL_POW_RES unlimited power supply resources
8001: LTE Cell Load
UE UL-Out-Of-Sync time T in the CELL_LOAD_UL_OUT_SYNC_ range 0 seconds < T <= 0.5 0_05 seconds
CELL_LOAD_UL_IN_SYNC
8001: LTE Cell Load
UE UL-Out-Of-Sync time T in the CELL_LOAD_UL_OUT_SYNC_ range 0.5 seconds < T <= 2.5 05_025 seconds
8001: LTE Cell Load
UE UL-Out-Of-Sync time T in the CELL_LOAD_UL_OUT_SYNC_ range 2.5 seconds < T <= 10 025_10 seconds
8001: LTE Cell Load
UE UL-Out-Of-Sync time T in the CELL_LOAD_UL_OUT_SYNC_ range 10 seconds < T <= 100 10_100 seconds
8001: LTE Cell Load
UE UL-Out-Of-Sync time T larger CELL_LOAD_UL_OUT_SYNC_ than 100 seconds 100_INF
8001: LTE Cell Load
First transmissions on PUSCH using MCS0
PUSCH_1ST_TRANS_MCS0
8001: LTE Cell Load
First transmissions on PUSCH using MCS1
PUSCH_1ST_TRANS_MCS1
8001: LTE Cell Load
First transmissions on PUSCH using MCS2
PUSCH_1ST_TRANS_MCS2
8001: LTE Cell Load
First transmissions on PUSCH using MCS3
PUSCH_1ST_TRANS_MCS3
8001: LTE Cell Load
First transmissions on PUSCH using MCS4
PUSCH_1ST_TRANS_MCS4
8001: LTE Cell Load
First transmissions on PUSCH using MCS5
PUSCH_1ST_TRANS_MCS5
8001: LTE Cell Load
First transmissions on PUSCH using MCS6
PUSCH_1ST_TRANS_MCS6
8001: LTE Cell Load
First transmissions on PUSCH using MCS7
PUSCH_1ST_TRANS_MCS7
8001: LTE Cell Load
First transmissions on PUSCH using MCS8
PUSCH_1ST_TRANS_MCS8
8001: LTE Cell Load
First transmissions on PUSCH using MCS9
PUSCH_1ST_TRANS_MCS9
8001: LTE Cell Load
First transmissions on PUSCH using MCS10
PUSCH_1ST_TRANS_MCS10
8001: LTE Cell Load
First transmissions on PUSCH using MCS11
PUSCH_1ST_TRANS_MCS11
8001: LTE Cell Load
First transmissions on PUSCH using MCS12
PUSCH_1ST_TRANS_MCS12
8001: LTE Cell Load
First transmissions on PUSCH using MCS13
PUSCH_1ST_TRANS_MCS13
8001: LTE Cell Load
First transmissions on PUSCH using MCS14
PUSCH_1ST_TRANS_MCS14
8001: LTE Cell Load
First transmissions on PUSCH using MCS15
PUSCH_1ST_TRANS_MCS15
8001: LTE Cell Load
First transmissions on PUSCH using MCS16
PUSCH_1ST_TRANS_MCS16
8001: LTE Cell Load
First transmissions on PUSCH using MCS17
PUSCH_1ST_TRANS_MCS17
8001: LTE Cell Load
First transmissions on PUSCH using MCS18
PUSCH_1ST_TRANS_MCS18
8001: LTE Cell Load
First transmissions on PUSCH using MCS19
PUSCH_1ST_TRANS_MCS19
8001: LTE Cell Load
First transmissions on PUSCH using MCS20
PUSCH_1ST_TRANS_MCS20
8001: LTE Cell Load
First transmissions on PUSCH using MCS21
PUSCH_1ST_TRANS_MCS21
8001: LTE Cell Load
First transmissions on PUSCH using MCS22
PUSCH_1ST_TRANS_MCS22
8001: LTE Cell Load
First transmissions on PUSCH using MCS23
PUSCH_1ST_TRANS_MCS23
8001: LTE Cell Load
First transmissions on PUSCH using MCS24
PUSCH_1ST_TRANS_MCS24
8001: LTE Cell Load
First transmission NACKs on PUSCH using MCS0
PUSCH_1ST_TRANS_NACK_ MCS0
8001: LTE Cell Load
First transmission NACKs on PUSCH using MCS1
PUSCH_1ST_TRANS_NACK_ MCS1
8001: LTE Cell Load
First transmission NACKs on PUSCH using MCS2
PUSCH_1ST_TRANS_NACK_ MCS2
8001: LTE Cell Load
First transmission NACKs on PUSCH using MCS3
PUSCH_1ST_TRANS_NACK_ MCS3
8001: LTE Cell Load
First transmission NACKs on PUSCH using MCS4
PUSCH_1ST_TRANS_NACK_ MCS4
8001: LTE Cell Load
First transmission NACKs on PUSCH using MCS5
PUSCH_1ST_TRANS_NACK_ MCS5
8001: LTE Cell Load
First transmission NACKs on PUSCH using MCS6
PUSCH_1ST_TRANS_NACK_ MCS6
8001: LTE Cell Load
First transmission NACKs on PUSCH using MCS7
PUSCH_1ST_TRANS_NACK_ MCS7
8001: LTE Cell Load
First transmission NACKs on PUSCH using MCS8
PUSCH_1ST_TRANS_NACK_ MCS8
8001: LTE Cell Load
First transmission NACKs on PUSCH using MCS9
PUSCH_1ST_TRANS_NACK_ MCS9
8001: LTE Cell Load
First transmission NACKs on PUSCH using MCS10
PUSCH_1ST_TRANS_NACK_ MCS10
8001: LTE Cell Load
First transmission NACKs on PUSCH using MCS11
PUSCH_1ST_TRANS_NACK_ MCS11
8001: LTE Cell Load
First transmission NACKs on PUSCH using MCS12
PUSCH_1ST_TRANS_NACK_ MCS12
8001: LTE Cell Load
First transmission NACKs on PUSCH using MCS13
PUSCH_1ST_TRANS_NACK_ MCS13
8001: LTE Cell Load
First transmission NACKs on PUSCH using MCS14
PUSCH_1ST_TRANS_NACK_ MCS14
8001: LTE Cell Load
First transmission NACKs on PUSCH using MCS15
PUSCH_1ST_TRANS_NACK_ MCS15
8001: LTE Cell Load
First transmission NACKs on PUSCH using MCS16
PUSCH_1ST_TRANS_NACK_ MCS16
8001: LTE Cell Load
First transmission NACKs on PUSCH using MCS17
PUSCH_1ST_TRANS_NACK_ MCS17
8001: LTE Cell Load
First transmission NACKs on PUSCH using MCS18
PUSCH_1ST_TRANS_NACK_ MCS18
8001: LTE Cell Load
First transmission NACKs on PUSCH using MCS19
PUSCH_1ST_TRANS_NACK_ MCS19
8001: LTE Cell Load
First transmission NACKs on PUSCH using MCS20
PUSCH_1ST_TRANS_NACK_ MCS20
8001: LTE Cell Load
First transmission NACKs on PUSCH using MCS21
PUSCH_1ST_TRANS_NACK_ MCS21
8001: LTE Cell Load
First transmission NACKs on PUSCH using MCS22
PUSCH_1ST_TRANS_NACK_ MCS22
8001: LTE Cell Load
First transmission NACKs on PUSCH using MCS23
PUSCH_1ST_TRANS_NACK_ MCS23
8001: LTE Cell Load
First transmission NACKs on PUSCH using MCS24
PUSCH_1ST_TRANS_NACK_ MCS24
8001: LTE Cell Load
Failed Reception PUSCH MCS21
TB_BAD_PUSCH_MCS21
8001: LTE Cell Load
Failed Reception PUSCH MCS22
TB_BAD_PUSCH_MCS22
8001: LTE Cell Load
Failed Reception PUSCH MCS23
TB_BAD_PUSCH_MCS23
8001: LTE Cell Load
Failed Reception PUSCH MCS24
TB_BAD_PUSCH_MCS24
8001: LTE Cell Load
Average number of active UEs with UE Category 5
ACTIVE_UE_CAT_5_AVG
8001: LTE Cell Load
Average number of DL carrier aggregated capable UEs for 2 CCs
CA_DL_CAP_UE_AVG
8001: LTE Cell Load
Average number of UEs with a configured SCell
CA_SCELL_CONF_UE_AVG
8001: LTE Cell Load
Average number of UEs with an activated SCell
CA_SCELL_ACTIVE_UE_AVG
8001: LTE Cell Load
Average number of DL carrier aggregated capable UEs for 3 CCs
CA_DL_CAP_UE_3CC_AVG
8001: LTE Cell Load
Average number of UEs with two CA_2SCELLS_CONF_UE_AVG configured SCells
8001: LTE Cell Load
Average number of UEs with two CA_2SCELLS_ACTIVE_UE_AV activated SCells G
8004: LTE Transport Load
X2 data volume per eNB, incoming signaling data
VOLUME_X2_IN_SIG_DATA
8004: LTE Transport Load
X2 data volume per eNB, outgoing signaling data
VOLUME_X2_OUT_SIG_DATA
8004: LTE Transport Load
Incoming u-plane X2 data volume per eNB
X2_DATA_VOL_IN_UPLANE
8004: LTE Transport Load
Outgoing u-plane X2 data volume per eNB
X2_DATA_VOL_OUT_UPLANE
8005: LTE Power and Quality UL
RSSI for PUCCH Min
RSSI_PUCCH_MIN
8005: LTE Power and Quality UL
RSSI for PUCCH Max
RSSI_PUCCH_MAX
8005: LTE Power and Quality UL
RSSI for PUCCH Mean
RSSI_PUCCH_AVG
8005: LTE Power and Quality UL
RSSI for PUSCH Min
RSSI_PUSCH_MIN
8005: LTE Power and Quality UL
RSSI for PUSCH Max
RSSI_PUSCH_MAX
8005: LTE Power and Quality UL
RSSI for PUSCH Mean
RSSI_PUSCH_AVG
8005: LTE Power and Quality UL
RSSI for PUCCH Level 01
RSSI_PUCCH_LEVEL_01
8005: LTE Power and Quality UL
RSSI for PUCCH Level 02
RSSI_PUCCH_LEVEL_02
8005: LTE Power and Quality UL
RSSI for PUCCH Level 03
RSSI_PUCCH_LEVEL_03
8005: LTE Power and Quality UL
RSSI for PUCCH Level 04
RSSI_PUCCH_LEVEL_04
8005: LTE Power and Quality UL
RSSI for PUCCH Level 05
RSSI_PUCCH_LEVEL_05
8005: LTE Power and Quality UL
RSSI for PUCCH Level 06
RSSI_PUCCH_LEVEL_06
8005: LTE Power and Quality UL
RSSI for PUCCH Level 07
RSSI_PUCCH_LEVEL_07
8005: LTE Power and Quality UL
RSSI for PUCCH Level 08
RSSI_PUCCH_LEVEL_08
8005: LTE Power and Quality UL
RSSI for PUCCH Level 09
RSSI_PUCCH_LEVEL_09
8005: LTE Power and Quality UL
RSSI for PUCCH Level 10
RSSI_PUCCH_LEVEL_10
8005: LTE Power and Quality UL
RSSI for PUCCH Level 11
RSSI_PUCCH_LEVEL_11
8005: LTE Power and Quality UL
RSSI for PUCCH Level 12
RSSI_PUCCH_LEVEL_12
8005: LTE Power and Quality UL
RSSI for PUCCH Level 13
RSSI_PUCCH_LEVEL_13
8005: LTE Power and Quality UL
RSSI for PUCCH Level 14
RSSI_PUCCH_LEVEL_14
8005: LTE Power and Quality UL
RSSI for PUCCH Level 15
RSSI_PUCCH_LEVEL_15
8005: LTE Power and Quality UL
RSSI for PUCCH Level 16
RSSI_PUCCH_LEVEL_16
8005: LTE Power and Quality UL
RSSI for PUCCH Level 17
RSSI_PUCCH_LEVEL_17
8005: LTE Power and Quality UL
RSSI for PUCCH Level 18
RSSI_PUCCH_LEVEL_18
8005: LTE Power and Quality UL
RSSI for PUCCH Level 19
RSSI_PUCCH_LEVEL_19
8005: LTE Power and Quality UL
RSSI for PUCCH Level 20
RSSI_PUCCH_LEVEL_20
8005: LTE Power and Quality UL
RSSI for PUCCH Level 21
RSSI_PUCCH_LEVEL_21
8005: LTE Power and Quality UL
RSSI for PUCCH Level 22
RSSI_PUCCH_LEVEL_22
8005: LTE Power and Quality UL
RSSI for PUSCH Level 01
RSSI_PUSCH_LEVEL_01
8005: LTE Power and Quality UL
RSSI for PUSCH Level 02
RSSI_PUSCH_LEVEL_02
8005: LTE Power and Quality UL
RSSI for PUSCH Level 03
RSSI_PUSCH_LEVEL_03
8005: LTE Power and Quality UL
RSSI for PUSCH Level 04
RSSI_PUSCH_LEVEL_04
8005: LTE Power and Quality UL
RSSI for PUSCH Level 05
RSSI_PUSCH_LEVEL_05
8005: LTE Power and Quality UL
RSSI for PUSCH Level 06
RSSI_PUSCH_LEVEL_06
8005: LTE Power and Quality UL
RSSI for PUSCH Level 07
RSSI_PUSCH_LEVEL_07
8005: LTE Power and Quality UL
RSSI for PUSCH Level 08
RSSI_PUSCH_LEVEL_08
8005: LTE Power and Quality UL
RSSI for PUSCH Level 09
RSSI_PUSCH_LEVEL_09
8005: LTE Power and Quality UL
RSSI for PUSCH Level 10
RSSI_PUSCH_LEVEL_10
8005: LTE Power and Quality UL
RSSI for PUSCH Level 11
RSSI_PUSCH_LEVEL_11
8005: LTE Power and Quality UL
RSSI for PUSCH Level 12
RSSI_PUSCH_LEVEL_12
8005: LTE Power and Quality UL
RSSI for PUSCH Level 13
RSSI_PUSCH_LEVEL_13
8005: LTE Power and Quality UL
RSSI for PUSCH Level 14
RSSI_PUSCH_LEVEL_14
8005: LTE Power and Quality UL
RSSI for PUSCH Level 15
RSSI_PUSCH_LEVEL_15
8005: LTE Power and Quality UL
RSSI for PUSCH Level 16
RSSI_PUSCH_LEVEL_16
8005: LTE Power and Quality UL
RSSI for PUSCH Level 17
RSSI_PUSCH_LEVEL_17
8005: LTE Power and Quality UL
RSSI for PUSCH Level 18
RSSI_PUSCH_LEVEL_18
8005: LTE Power and Quality UL
RSSI for PUSCH Level 19
RSSI_PUSCH_LEVEL_19
8005: LTE Power and Quality UL
RSSI for PUSCH Level 20
RSSI_PUSCH_LEVEL_20
8005: LTE Power and Quality UL
RSSI for PUSCH Level 21
RSSI_PUSCH_LEVEL_21
8005: LTE Power and Quality UL
RSSI for PUSCH Level 22
RSSI_PUSCH_LEVEL_22
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 1 H_LEVEL1
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 2 H_LEVEL2
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 3 H_LEVEL3
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 4 H_LEVEL4
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 5 H_LEVEL5
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 6 H_LEVEL6
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 7 H_LEVEL7
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 8 H_LEVEL8
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 9 H_LEVEL9
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 10 H_LEVEL10
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 11 H_LEVEL11
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 12 H_LEVEL12
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 13 H_LEVEL13
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 14 H_LEVEL14
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 15 H_LEVEL15
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 16 H_LEVEL16
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 17 H_LEVEL17
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 18 H_LEVEL18
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 19 H_LEVEL19
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 20 H_LEVEL20
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 21 H_LEVEL21
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 22 H_LEVEL22
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 23 H_LEVEL23
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 24 H_LEVEL24
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 25 H_LEVEL25
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 26 H_LEVEL26
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 27 H_LEVEL27
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 28 H_LEVEL28
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 29 H_LEVEL29
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 30 H_LEVEL30
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 31 H_LEVEL31
8005: LTE Power and Quality UL
UE Power Headroom for PUSCH UE_PWR_HEADROOM_PUSC Level 32 H_LEVEL32
8005: LTE Power and Quality UL
UE Power Headroom PUSCH Min
UE_PWR_HEADROOM_PUSC H_MIN
8005: LTE Power and Quality UL
UE Power Headroom PUSCH Max
UE_PWR_HEADROOM_PUSC H_MAX
8005: LTE Power and Quality UL
UE Power Headroom PUSCH Mean
UE_PWR_HEADROOM_PUSC H_AVG
8005: LTE Power and Quality UL
SINR for PUCCH Min
SINR_PUCCH_MIN
8005: LTE Power and Quality UL
SINR for PUCCH Max
SINR_PUCCH_MAX
8005: LTE Power and Quality UL
SINR for PUCCH Mean
SINR_PUCCH_AVG
8005: LTE Power and Quality UL
SINR for PUSCH Min
SINR_PUSCH_MIN
8005: LTE Power and Quality UL
SINR for PUSCH Max
SINR_PUSCH_MAX
8005: LTE Power and Quality UL
SINR for PUSCH Mean
SINR_PUSCH_AVG
8005: LTE Power and Quality UL
SINR for PUCCH Level 1
SINR_PUCCH_LEVEL_1
8005: LTE Power and Quality UL
SINR for PUCCH Level 2
SINR_PUCCH_LEVEL_2
8005: LTE Power and Quality UL
SINR for PUCCH Level 3
SINR_PUCCH_LEVEL_3
8005: LTE Power and Quality UL
SINR for PUCCH Level 4
SINR_PUCCH_LEVEL_4
8005: LTE Power and Quality UL
SINR for PUCCH Level 5
SINR_PUCCH_LEVEL_5
8005: LTE Power and Quality UL
SINR for PUCCH Level 6
SINR_PUCCH_LEVEL_6
8005: LTE Power and Quality UL
SINR for PUCCH Level 7
SINR_PUCCH_LEVEL_7
8005: LTE Power and Quality UL
SINR for PUCCH Level 8
SINR_PUCCH_LEVEL_8
8005: LTE Power and Quality UL
SINR for PUCCH Level 9
SINR_PUCCH_LEVEL_9
8005: LTE Power and Quality UL
SINR for PUCCH Level 10
SINR_PUCCH_LEVEL_10
8005: LTE Power and Quality UL
SINR for PUCCH Level 11
SINR_PUCCH_LEVEL_11
8005: LTE Power and Quality UL
SINR for PUCCH Level 12
SINR_PUCCH_LEVEL_12
8005: LTE Power and Quality UL
SINR for PUCCH Level 13
SINR_PUCCH_LEVEL_13
8005: LTE Power and Quality UL
SINR for PUCCH Level 14
SINR_PUCCH_LEVEL_14
8005: LTE Power and Quality UL
SINR for PUCCH Level 15
SINR_PUCCH_LEVEL_15
8005: LTE Power and Quality UL
SINR for PUCCH Level 16
SINR_PUCCH_LEVEL_16
8005: LTE Power and Quality UL
SINR for PUCCH Level 17
SINR_PUCCH_LEVEL_17
8005: LTE Power and Quality UL
SINR for PUCCH Level 18
SINR_PUCCH_LEVEL_18
8005: LTE Power and Quality UL
SINR for PUCCH Level 19
SINR_PUCCH_LEVEL_19
8005: LTE Power and Quality UL
SINR for PUCCH Level 20
SINR_PUCCH_LEVEL_20
8005: LTE Power and Quality UL
SINR for PUCCH Level 21
SINR_PUCCH_LEVEL_21
8005: LTE Power and Quality UL
SINR for PUCCH Level 22
SINR_PUCCH_LEVEL_22
8005: LTE Power and Quality UL
SINR for PUSCH Level 1
SINR_PUSCH_LEVEL_1
8005: LTE Power and Quality UL
SINR for PUSCH Level 2
SINR_PUSCH_LEVEL_2
8005: LTE Power and Quality UL
SINR for PUSCH Level 3
SINR_PUSCH_LEVEL_3
8005: LTE Power and Quality UL
SINR for PUSCH Level 4
SINR_PUSCH_LEVEL_4
8005: LTE Power and Quality UL
SINR for PUSCH Level 5
SINR_PUSCH_LEVEL_5
8005: LTE Power and Quality UL
SINR for PUSCH Level 6
SINR_PUSCH_LEVEL_6
8005: LTE Power and Quality UL
SINR for PUSCH Level 7
SINR_PUSCH_LEVEL_7
8005: LTE Power and Quality UL
SINR for PUSCH Level 8
SINR_PUSCH_LEVEL_8
8005: LTE Power and Quality UL
SINR for PUSCH Level 9
SINR_PUSCH_LEVEL_9
8005: LTE Power and Quality UL
SINR for PUSCH Level 10
SINR_PUSCH_LEVEL_10
8005: LTE Power and Quality UL
SINR for PUSCH Level 11
SINR_PUSCH_LEVEL_11
8005: LTE Power and Quality UL
SINR for PUSCH Level 12
SINR_PUSCH_LEVEL_12
8005: LTE Power and Quality UL
SINR for PUSCH Level 13
SINR_PUSCH_LEVEL_13
8005: LTE Power and Quality UL
SINR for PUSCH Level 14
SINR_PUSCH_LEVEL_14
8005: LTE Power and Quality UL
SINR for PUSCH Level 15
SINR_PUSCH_LEVEL_15
8005: LTE Power and Quality UL
SINR for PUSCH Level 16
SINR_PUSCH_LEVEL_16
8005: LTE Power and Quality UL
SINR for PUSCH Level 17
SINR_PUSCH_LEVEL_17
8005: LTE Power and Quality UL
SINR for PUSCH Level 18
SINR_PUSCH_LEVEL_18
8005: LTE Power and Quality UL
SINR for PUSCH Level 19
SINR_PUSCH_LEVEL_19
8005: LTE Power and Quality UL
SINR for PUSCH Level 20
SINR_PUSCH_LEVEL_20
8005: LTE Power and Quality UL
SINR for PUSCH Level 21
SINR_PUSCH_LEVEL_21
8005: LTE Power and Quality UL
SINR for PUSCH Level 22
SINR_PUSCH_LEVEL_22
8005: LTE Power and Quality UL
UL AMC upgrades
UL_AMC_UPGRADE
8005: LTE Power and Quality UL
UL AMC downgrades
UL_AMC_DOWNGRADE
8005: LTE Power and Quality UL
Minimum of cell-wide RSSI on PUCCH
RSSI_CELL_PUCCH_MIN
8005: LTE Power and Quality UL
Maximum of cell-wide RSSI on PUCCH
RSSI_CELL_PUCCH_MAX
8005: LTE Power and Quality UL
Mean of cell-wide RSSI on PUCCH
RSSI_CELL_PUCCH_MEAN
8005: LTE Power and Quality UL
Cell-wide RSSI on PUCCH level 1
RSSI_CELL_PUCCH_LEVEL_1
8005: LTE Power and Quality UL
Cell-wide RSSI on PUCCH level 2
RSSI_CELL_PUCCH_LEVEL_2
8005: LTE Power and Quality UL
Cell-wide RSSI on PUCCH level 3
RSSI_CELL_PUCCH_LEVEL_3
8005: LTE Power and Quality UL
Cell-wide RSSI on PUCCH level 4
RSSI_CELL_PUCCH_LEVEL_4
8005: LTE Power and Quality UL
Cell-wide RSSI on PUCCH level 5
RSSI_CELL_PUCCH_LEVEL_5
8005: LTE Power and Quality UL
Cell-wide RSSI on PUCCH level 6
RSSI_CELL_PUCCH_LEVEL_6
8005: LTE Power and Quality UL
Cell-wide RSSI on PUCCH level 7
RSSI_CELL_PUCCH_LEVEL_7
8005: LTE Power and Quality UL
Cell-wide RSSI on PUCCH level 8
RSSI_CELL_PUCCH_LEVEL_8
8005: LTE Power and Quality UL
Cell-wide RSSI on PUCCH level 9
RSSI_CELL_PUCCH_LEVEL_9
8005: LTE Power and Quality UL
Cell-wide RSSI on PUCCH level 10
RSSI_CELL_PUCCH_LEVEL_1 0
8005: LTE Power and Quality UL
Cell-wide RSSI on PUCCH level 11
RSSI_CELL_PUCCH_LEVEL_1 1
8005: LTE Power and Quality UL
Cell-wide RSSI on PUCCH level 12
RSSI_CELL_PUCCH_LEVEL_1 2
8005: LTE Power and Quality UL
Cell-wide RSSI on PUCCH level 13
RSSI_CELL_PUCCH_LEVEL_1 3
8005: LTE Power and Quality UL
Cell-wide RSSI on PUCCH level 14
RSSI_CELL_PUCCH_LEVEL_1 4
8005: LTE Power and Quality UL
Cell-wide RSSI on PUCCH level 15
RSSI_CELL_PUCCH_LEVEL_1 5
8005: LTE Power and Quality UL
Cell-wide RSSI on PUCCH level 16
RSSI_CELL_PUCCH_LEVEL_1 6
8005: LTE Power and Quality UL
Cell-wide RSSI on PUCCH level 17
RSSI_CELL_PUCCH_LEVEL_1 7
8005: LTE Power and Quality UL
Cell-wide RSSI on PUCCH level 18
RSSI_CELL_PUCCH_LEVEL_1 8
8005: LTE Power and Quality UL
Cell-wide RSSI on PUCCH level 19
RSSI_CELL_PUCCH_LEVEL_1 9
8005: LTE Power and Quality UL
Cell-wide RSSI on PUCCH level 20
RSSI_CELL_PUCCH_LEVEL_2 0
8005: LTE Power and Quality UL
Cell-wide RSSI on PUCCH level 21
RSSI_CELL_PUCCH_LEVEL_2 1
8005: LTE Power and Quality UL
Cell-wide RSSI on PUCCH level 22
RSSI_CELL_PUCCH_LEVEL_2 2
8005: LTE Power and Quality UL
Minimum of cell-wide RSSI on PUSCH
RSSI_CELL_PUSCH_MIN
8005: LTE Power and Quality UL
Maximum of cell-wide RSSI on PUSCH
RSSI_CELL_PUSCH_MAX
8005: LTE Power and Quality UL
Mean of cell-wide RSSI on PUSCH
RSSI_CELL_PUSCH_MEAN
8005: LTE Power and Quality UL
Cell-wide RSSI on PUSCH level 1
RSSI_CELL_PUSCH_LEVEL_1
8005: LTE Power and Quality UL
Cell-wide RSSI on PUSCH level 2
RSSI_CELL_PUSCH_LEVEL_2
8005: LTE Power and Quality UL
Cell-wide RSSI on PUSCH level 3
RSSI_CELL_PUSCH_LEVEL_3
8005: LTE Power and Quality UL
Cell-wide RSSI on PUSCH level 4
RSSI_CELL_PUSCH_LEVEL_4
8005: LTE Power and Quality UL
Cell-wide RSSI on PUSCH level 5
RSSI_CELL_PUSCH_LEVEL_5
8005: LTE Power and Quality UL
Cell-wide RSSI on PUSCH level 6
RSSI_CELL_PUSCH_LEVEL_6
8005: LTE Power and Quality UL
Cell-wide RSSI on PUSCH level 7
RSSI_CELL_PUSCH_LEVEL_7
8005: LTE Power and Quality UL
Cell-wide RSSI on PUSCH level 8
RSSI_CELL_PUSCH_LEVEL_8
8005: LTE Power and Quality UL
Cell-wide RSSI on PUSCH level 9
RSSI_CELL_PUSCH_LEVEL_9
8005: LTE Power and Quality UL
Cell-wide RSSI on PUSCH level 10
RSSI_CELL_PUSCH_LEVEL_1 0
8005: LTE Power and Quality UL
Cell-wide RSSI on PUSCH level 11
RSSI_CELL_PUSCH_LEVEL_1 1
8005: LTE Power and Quality UL
Cell-wide RSSI on PUSCH level 12
RSSI_CELL_PUSCH_LEVEL_1 2
8005: LTE Power and Quality UL
Cell-wide RSSI on PUSCH level 13
RSSI_CELL_PUSCH_LEVEL_1 3
8005: LTE Power and Quality UL
Cell-wide RSSI on PUSCH level 14
RSSI_CELL_PUSCH_LEVEL_1 4
8005: LTE Power and Quality UL
Cell-wide RSSI on PUSCH level 15
RSSI_CELL_PUSCH_LEVEL_1 5
8005: LTE Power and Quality UL
Cell-wide RSSI on PUSCH level 16
RSSI_CELL_PUSCH_LEVEL_1 6
8005: LTE Power and Quality UL
Cell-wide RSSI on PUSCH level 17
RSSI_CELL_PUSCH_LEVEL_1 7
8005: LTE Power and Quality UL
Cell-wide RSSI on PUSCH level 18
RSSI_CELL_PUSCH_LEVEL_1 8
8005: LTE Power and Quality UL
Cell-wide RSSI on PUSCH level 19
RSSI_CELL_PUSCH_LEVEL_1 9
8005: LTE Power and Quality UL
Cell-wide RSSI on PUSCH level 20
RSSI_CELL_PUSCH_LEVEL_2 0
8005: LTE Power and Quality UL
Cell-wide RSSI on PUSCH level 21
RSSI_CELL_PUSCH_LEVEL_2 1
8005: LTE Power and Quality UL
Cell-wide RSSI on PUSCH level 22
RSSI_CELL_PUSCH_LEVEL_2 2
8005: LTE Power and Quality UL
Minimum of cell-wide SINR on PUCCH
SINR_CELL_PUCCH_MIN
8005: LTE Power and Quality UL
Maximum of cell-wide SINR on PUCCH
SINR_CELL_PUCCH_MAX
8005: LTE Power and Quality UL
Mean of cell-wide SINR on PUCCH
SINR_CELL_PUCCH_MEAN
8005: LTE Power and Quality UL
Cell-wide SINR on PUCCH level SINR_CELL_PUCCH_LEVEL_1 1
8005: LTE Power and Quality UL
Cell-wide SINR on PUCCH level SINR_CELL_PUCCH_LEVEL_2 2
8005: LTE Power and Quality UL
Cell-wide SINR on PUCCH level SINR_CELL_PUCCH_LEVEL_3 3
8005: LTE Power and Quality UL
Cell-wide SINR on PUCCH level SINR_CELL_PUCCH_LEVEL_4 4
8005: LTE Power and Quality UL
Cell-wide SINR on PUCCH level SINR_CELL_PUCCH_LEVEL_5 5
8005: LTE Power and Quality UL
Cell-wide SINR on PUCCH level SINR_CELL_PUCCH_LEVEL_6 6
8005: LTE Power and Quality UL
Cell-wide SINR on PUCCH level SINR_CELL_PUCCH_LEVEL_7 7
8005: LTE Power and Quality UL
Cell-wide SINR on PUCCH level SINR_CELL_PUCCH_LEVEL_8 8
8005: LTE Power and Quality UL
Cell-wide SINR on PUCCH level SINR_CELL_PUCCH_LEVEL_9 9
8005: LTE Power and Quality UL
Cell-wide SINR on PUCCH level SINR_CELL_PUCCH_LEVEL_1 10 0
8005: LTE Power and Quality UL
Cell-wide SINR on PUCCH level SINR_CELL_PUCCH_LEVEL_1 11 1
8005: LTE Power and Quality UL
Cell-wide SINR on PUCCH level SINR_CELL_PUCCH_LEVEL_1 12 2
8005: LTE Power and Quality UL
Cell-wide SINR on PUCCH level SINR_CELL_PUCCH_LEVEL_1 13 3
8005: LTE Power and Quality UL
Cell-wide SINR on PUCCH level SINR_CELL_PUCCH_LEVEL_1 14 4
8005: LTE Power and Quality UL
Cell-wide SINR on PUCCH level SINR_CELL_PUCCH_LEVEL_1 15 5
8005: LTE Power and Quality UL
Cell-wide SINR on PUCCH level SINR_CELL_PUCCH_LEVEL_1 16 6
8005: LTE Power and Quality UL
Cell-wide SINR on PUCCH level SINR_CELL_PUCCH_LEVEL_1 17 7
8005: LTE Power and Quality UL
Cell-wide SINR on PUCCH level SINR_CELL_PUCCH_LEVEL_1 18 8
8005: LTE Power and Quality UL
Cell-wide SINR on PUCCH level SINR_CELL_PUCCH_LEVEL_1 19 9
8005: LTE Power and Quality UL
Cell-wide SINR on PUCCH level SINR_CELL_PUCCH_LEVEL_2 20 0
8005: LTE Power and Quality UL
Cell-wide SINR on PUCCH level SINR_CELL_PUCCH_LEVEL_2 21 1
8005: LTE Power and Quality UL
Cell-wide SINR on PUCCH level SINR_CELL_PUCCH_LEVEL_2 22 2
8005: LTE Power and Quality UL
Minimum of cell-wide SINR on PUSCH
SINR_CELL_PUSCH_MIN
8005: LTE Power and Quality UL
Maximum of cell-wide SINR on PUSCH
SINR_CELL_PUSCH_MAX
8005: LTE Power and Quality UL
Mean of cell-wide SINR on PUSCH
SINR_CELL_PUSCH_MEAN
8005: LTE Power and Quality UL
Cell-wide SINR on PUSCH level 1
SINR_CELL_PUSCH_LEVEL_1
8005: LTE Power and Quality UL
Cell-wide SINR on PUSCH level 2
SINR_CELL_PUSCH_LEVEL_2
8005: LTE Power and Quality UL
Cell-wide SINR on PUSCH level 3
SINR_CELL_PUSCH_LEVEL_3
8005: LTE Power and Quality UL
Cell-wide SINR on PUSCH level 4
SINR_CELL_PUSCH_LEVEL_4
8005: LTE Power and Quality UL
Cell-wide SINR on PUSCH level 5
SINR_CELL_PUSCH_LEVEL_5
8005: LTE Power and Quality UL
Cell-wide SINR on PUSCH level 6
SINR_CELL_PUSCH_LEVEL_6
8005: LTE Power and Quality UL
Cell-wide SINR on PUSCH level 7
SINR_CELL_PUSCH_LEVEL_7
8005: LTE Power and Quality UL
Cell-wide SINR on PUSCH level 8
SINR_CELL_PUSCH_LEVEL_8
8005: LTE Power and Quality UL
Cell-wide SINR on PUSCH level 9
SINR_CELL_PUSCH_LEVEL_9
8005: LTE Power and Quality UL
Cell-wide SINR on PUSCH level 10
SINR_CELL_PUSCH_LEVEL_1 0
8005: LTE Power and Quality UL
Cell-wide SINR on PUSCH level 11
SINR_CELL_PUSCH_LEVEL_1 1
8005: LTE Power and Quality UL
Cell-wide SINR on PUSCH level 12
SINR_CELL_PUSCH_LEVEL_1 2
8005: LTE Power and Quality UL
Cell-wide SINR on PUSCH level 13
SINR_CELL_PUSCH_LEVEL_1 3
8005: LTE Power and Quality UL
Cell-wide SINR on PUSCH level 14
SINR_CELL_PUSCH_LEVEL_1 4
8005: LTE Power and Quality UL
Cell-wide SINR on PUSCH level 15
SINR_CELL_PUSCH_LEVEL_1 5
8005: LTE Power and Quality UL
Cell-wide SINR on PUSCH level 16
SINR_CELL_PUSCH_LEVEL_1 6
8005: LTE Power and Quality UL
Cell-wide SINR on PUSCH level 17
SINR_CELL_PUSCH_LEVEL_1 7
8005: LTE Power and Quality UL
Cell-wide SINR on PUSCH level 18
SINR_CELL_PUSCH_LEVEL_1 8
8005: LTE Power and Quality UL
Cell-wide SINR on PUSCH level 19
SINR_CELL_PUSCH_LEVEL_1 9
8005: LTE Power and Quality UL
Cell-wide SINR on PUSCH level 20
SINR_CELL_PUSCH_LEVEL_2 0
8005: LTE Power and Quality UL
Cell-wide SINR on PUSCH level 21
SINR_CELL_PUSCH_LEVEL_2 1
8005: LTE Power and Quality UL
Cell-wide SINR on PUSCH level 22
SINR_CELL_PUSCH_LEVEL_2 2
8005: LTE Power and Quality UL
Average RTWP for Rx Antenna 1 AVG_RTWP_RX_ANT_1
8005: LTE Power and Quality UL
Average RTWP for Rx Antenna 2 AVG_RTWP_RX_ANT_2
8005: LTE Power and Quality UL
Average RTWP for Rx Antenna 3 AVG_RTWP_RX_ANT_3
8005: LTE Power and Quality UL
Average RTWP for Rx Antenna 4 AVG_RTWP_RX_ANT_4
8005: LTE Power and Quality UL
Average RTWP for Rx Antenna 5 AVG_RTWP_RX_ANT_5
8005: LTE Power and Quality UL
Average RTWP for Rx Antenna 6 AVG_RTWP_RX_ANT_6
8005: LTE Power and Quality UL
Average RTWP for Rx Antenna 7 AVG_RTWP_RX_ANT_7
8005: LTE Power and Quality UL
Average RTWP for Rx Antenna 8 AVG_RTWP_RX_ANT_8
8005: LTE Power and Quality UL
Maximum RTWP
8005: LTE Power and Quality UL
50 percentile value of Uplink IoT UL_IOT_PUSCH_DIST_BIN_0 for PUSCH distribution - bin 0
8005: LTE Power and Quality UL
50 percentile value of Uplink IoT UL_IOT_PUSCH_DIST_BIN_1 for PUSCH distribution - bin 1
8005: LTE Power and Quality UL
50 percentile value of Uplink IoT UL_IOT_PUSCH_DIST_BIN_2 for PUSCH distribution - bin 2
8005: LTE Power and Quality UL
50 percentile value of Uplink IoT UL_IOT_PUSCH_DIST_BIN_3 for PUSCH distribution - bin 3
8005: LTE Power and Quality UL
50 percentile value of Uplink IoT UL_IOT_PUSCH_DIST_BIN_4 for PUSCH distribution - bin 4
8005: LTE Power and Quality UL
50 percentile value of Uplink IoT UL_IOT_PUSCH_DIST_BIN_5 for PUSCH distribution - bin 5
8005: LTE Power and Quality UL
50 percentile value of Uplink IoT UL_IOT_PUSCH_DIST_BIN_6 for PUSCH distribution - bin 6
8005: LTE Power and Quality UL
50 percentile value of Uplink IoT UL_IOT_PUSCH_DIST_BIN_7 for PUSCH distribution - bin 7
8005: LTE Power and Quality UL
50 percentile value of Uplink IoT UL_IOT_PUSCH_DIST_BIN_8 for PUSCH distribution - bin 8
MAX_RTWP
8005: LTE Power and Quality UL
Distribution of SIR for PRBs of PUSCH - bin 0
AVG_SIR_DIST_BIN_0
8005: LTE Power and Quality UL
Distribution of SIR for PRBs of PUSCH - bin 1
AVG_SIR_DIST_BIN_1
8005: LTE Power and Quality UL
Distribution of SIR for PRBs of PUSCH - bin 2
AVG_SIR_DIST_BIN_2
8005: LTE Power and Quality UL
Distribution of SIR for PRBs of PUSCH - bin 3
AVG_SIR_DIST_BIN_3
8005: LTE Power and Quality UL
Distribution of SIR for PRBs of PUSCH - bin 4
AVG_SIR_DIST_BIN_4
8005: LTE Power and Quality UL
Distribution of SIR for PRBs of PUSCH - bin 5
AVG_SIR_DIST_BIN_5
8005: LTE Power and Quality UL
Distribution of SIR for PRBs of PUSCH - bin 6
AVG_SIR_DIST_BIN_6
8005: LTE Power and Quality UL
Distribution of SIR for PRBs of PUSCH - bin 7
AVG_SIR_DIST_BIN_7
8005: LTE Power and Quality UL
Distribution of SIR for PRBs of PUSCH - bin 8
AVG_SIR_DIST_BIN_8
8005: LTE Power and Quality UL
Distribution of SIR for PRBs of PUSCH - bin 9
AVG_SIR_DIST_BIN_9
8006: LTE EPS Bearer
EPS Bearer setup attempts
EPS_BEARER_SETUP_ATTEM PTS
8006: LTE EPS Bearer
EPS Bearer setup completions
EPS_BEARER_SETUP_COMP LETIONS
8006: LTE EPS Bearer
EPC initiated EPS Bearer EPC_EPS_BEARER_REL_RE Release requests due to Normal Q_NORM release by UE
8006: LTE EPS Bearer
EPC initiated EPS Bearer EPC_EPS_BEARER_REL_RE Release requests due to Detach Q_DETACH procedure by UE or MME
8006: LTE EPS Bearer
EPC initiated EPS Bearer Release requests due to Radio Network Layer cause
EPC_EPS_BEARER_REL_RE Q_RNL
8006: LTE EPS Bearer
EPC initiated EPS Bearer Release requests due to Other causes
EPC_EPS_BEARER_REL_RE Q_OTH
8006: LTE EPS Bearer
eNB initiated E-RAB releases due to failed Handover Completion phase at target cell
ENB_EPS_BEARER_REL_RE Q_TNL
8006: LTE EPS Bearer
Sum of simultaneous E-RABs of SUM_SIMUL_ERAB_QCI_1 QCI1
8006: LTE EPS Bearer
Sum of simultaneous E-RABs of SUM_SIMUL_ERAB_QCI_2 QCI2
8006: LTE EPS Bearer
Sum of simultaneous E-RABs of SUM_SIMUL_ERAB_QCI_3 QCI3
8006: LTE EPS Bearer
Sum of simultaneous E-RABs of SUM_SIMUL_ERAB_QCI_4 QCI4
8006: LTE EPS Bearer
Sum of simultaneous E-RABs of SUM_SIMUL_ERAB_QCI_5 QCI5
8006: LTE EPS Bearer
Sum of simultaneous E-RABs of SUM_SIMUL_ERAB_QCI_6 QCI6
8006: LTE EPS Bearer
Sum of simultaneous E-RABs of SUM_SIMUL_ERAB_QCI_7 QCI7
8006: LTE EPS Bearer
Sum of simultaneous E-RABs of SUM_SIMUL_ERAB_QCI_8 QCI8
8006: LTE EPS Bearer
Sum of simultaneous E-RABs of SUM_SIMUL_ERAB_QCI_9 QCI9
8006: LTE EPS Bearer
Denominator for Sum of simultaneous E-RABs
8006: LTE EPS Bearer
Modification attempts for E-RABs ERAB_MOD_ATT_QCI1 of QCI1
8006: LTE EPS Bearer
Modification attempts for E-RABs ERAB_MOD_ATT_QCI2 of QCI2
8006: LTE EPS Bearer
Modification attempts for E-RABs ERAB_MOD_ATT_QCI3 of QCI3
8006: LTE EPS Bearer
Modification attempts for E-RABs ERAB_MOD_ATT_QCI4 of QCI4
8006: LTE EPS Bearer
Modification attempts for E-RABs ERAB_MOD_ATT_QCI5 of QCI5
8006: LTE EPS Bearer
Modification attempts for E-RABs ERAB_MOD_ATT_QCI6 of QCI6
8006: LTE EPS Bearer
Modification attempts for E-RABs ERAB_MOD_ATT_QCI7 of QCI7
8006: LTE EPS Bearer
Modification attempts for E-RABs ERAB_MOD_ATT_QCI8 of QCI8
8006: LTE EPS Bearer
Modification attempts for E-RABs ERAB_MOD_ATT_QCI9 of QCI9
DENOM_SUM_SIMUL_ERAB
8006: LTE EPS Bearer
Successful modification of ERABs of QCI1
ERAB_MOD_SUCC_QCI1
8006: LTE EPS Bearer
Successful modification of ERABs of QCI2
ERAB_MOD_SUCC_QCI2
8006: LTE EPS Bearer
Successful modification of ERABs of QCI3
ERAB_MOD_SUCC_QCI3
8006: LTE EPS Bearer
Successful modification of ERABs of QCI4
ERAB_MOD_SUCC_QCI4
8006: LTE EPS Bearer
Successful modification of ERABs of QCI5
ERAB_MOD_SUCC_QCI5
8006: LTE EPS Bearer
Successful modification of ERABs of QCI6
ERAB_MOD_SUCC_QCI6
8006: LTE EPS Bearer
Successful modification of ERABs of QCI7
ERAB_MOD_SUCC_QCI7
8006: LTE EPS Bearer
Successful modification of ERABs of QCI8
ERAB_MOD_SUCC_QCI8
8006: LTE EPS Bearer
Successful modification of ERABs of QCI9
ERAB_MOD_SUCC_QCI9
8006: LTE EPS Bearer
Failed modification of E-RABs due to "Failure in the Radio Interface Procedure"
ERAB_MOD_FAIL_TIMER
8006: LTE EPS Bearer
Failed modification of E-RABs ERAB_MOD_FAIL_QCI_NSUP due to "Not supported QCI value" P
8006: LTE EPS Bearer
Failed modification of E-RABs due to "Radio Network Layer Cause - unspecified"
ERAB_MOD_FAIL_RNL_UNSP EC
8006: LTE EPS Bearer
EPC initiated EPS Bearer Release requests for QCI1 due to Normal release by UE
EPC_EPS_BEAR_REL_REQ_N _QCI1
8006: LTE EPS Bearer
EPC initiated EPS Bearer Release requests for QCI1 due to Detach procedure by UE or MME
EPC_EPS_BEAR_REL_REQ_D _QCI1
8006: LTE EPS Bearer
EPC initiated EPS Bearer Release requests per QCI1 due to Radio Network Layer cause
EPC_EPS_BEAR_REL_REQ_R _QCI1
8006: LTE EPS Bearer
EPC initiated EPS Bearer Release requests for QCI1 due to Other causes
EPC_EPS_BEAR_REL_REQ_O _QCI1
8006: LTE EPS Bearer
eNB initiated QCI1 E-RAB releases due to failed Handover Completion phase at target cell
ENB_EPS_BEAR_REL_REQ_T _QCI1
8006: LTE EPS Bearer
Released active ERABs QCI1
ERAB_REL_ENB_ACT_QCI1
8006: LTE EPS Bearer
Released active ERABs QCI2
ERAB_REL_ENB_ACT_QCI2
8006: LTE EPS Bearer
Released active ERABs QCI3
ERAB_REL_ENB_ACT_QCI3
8006: LTE EPS Bearer
Released active ERABs QCI4
ERAB_REL_ENB_ACT_QCI4
8006: LTE EPS Bearer
Released active non GBR ERABs (QCI5...9)
ERAB_REL_ENB_ACT_NON_ GBR
8006: LTE EPS Bearer
In-session activity time for QCI1 ERABs
ERAB_IN_SESSION_TIME_QC I1
8006: LTE EPS Bearer
In-session activity time for QCI2 ERABs
ERAB_IN_SESSION_TIME_QC I2
8006: LTE EPS Bearer
In-session activity time for QCI3 ERABs
ERAB_IN_SESSION_TIME_QC I3
8006: LTE EPS Bearer
In-session activity time for QCI4 ERABs
ERAB_IN_SESSION_TIME_QC I4
8006: LTE EPS Bearer
In-session activity time for nonGBR ERABs (QCI5..9)
ERAB_IN_SESSION_TIME_NO N_GBR
8006: LTE EPS Bearer
E-RAB setup attempts (requests) ERAB_SETUP_ATT_HIPRIO for high priority calls
8006: LTE EPS Bearer
E-RAB setup completions for high priority calls
8006: LTE EPS Bearer
Setup attempts for initial E-RABs ERAB_INI_SETUP_ATT_QCI1 of QCI1
8006: LTE EPS Bearer
Setup attempts for initial E-RABs ERAB_INI_SETUP_ATT_QCI2 of QCI2
8006: LTE EPS Bearer
Setup attempts for initial E-RABs ERAB_INI_SETUP_ATT_QCI3 of QCI3
8006: LTE EPS Bearer
Setup attempts for initial E-RABs ERAB_INI_SETUP_ATT_QCI4 of QCI4
8006: LTE EPS Bearer
Setup attempts for initial E-RABs ERAB_INI_SETUP_ATT_QCI5 of QCI5
8006: LTE EPS Bearer
Setup attempts for initial E-RABs ERAB_INI_SETUP_ATT_QCI6 of QCI6
8006: LTE EPS Bearer
Setup attempts for initial E-RABs ERAB_INI_SETUP_ATT_QCI7 of QCI7
ERAB_SETUP_SUCC_HIPRIO
8006: LTE EPS Bearer
Setup attempts for initial E-RABs ERAB_INI_SETUP_ATT_QCI8 of QCI8
8006: LTE EPS Bearer
Setup attempts for initial E-RABs ERAB_INI_SETUP_ATT_QCI9 of QCI9
8006: LTE EPS Bearer
Setup attempts for additional ERABs of QCI1
ERAB_ADD_SETUP_ATT_QCI 1
8006: LTE EPS Bearer
Setup attempts for additional ERABs of QCI2
ERAB_ADD_SETUP_ATT_QCI 2
8006: LTE EPS Bearer
Setup attempts for additional ERABs of QCI3
ERAB_ADD_SETUP_ATT_QCI 3
8006: LTE EPS Bearer
Setup attempts for additional ERABs of QCI4
ERAB_ADD_SETUP_ATT_QCI 4
8006: LTE EPS Bearer
Setup attempts for additional ERABs of QCI5
ERAB_ADD_SETUP_ATT_QCI 5
8006: LTE EPS Bearer
Setup attempts for additional ERABs of QCI6
ERAB_ADD_SETUP_ATT_QCI 6
8006: LTE EPS Bearer
Setup attempts for additional ERABs of QCI7
ERAB_ADD_SETUP_ATT_QCI 7
8006: LTE EPS Bearer
Setup attempts for additional ERABs of QCI8
ERAB_ADD_SETUP_ATT_QCI 8
8006: LTE EPS Bearer
Setup attempts for additional ERABs of QCI9
ERAB_ADD_SETUP_ATT_QCI 9
8006: LTE EPS Bearer
Successfully established initial E- ERAB_INI_SETUP_SUCC_QCI RABs of QCI1 1
8006: LTE EPS Bearer
Successfully established initial E- ERAB_INI_SETUP_SUCC_QCI RABs of QCI2 2
8006: LTE EPS Bearer
Successfully established initial E- ERAB_INI_SETUP_SUCC_QCI RABs of QCI3 3
8006: LTE EPS Bearer
Successfully established initial E- ERAB_INI_SETUP_SUCC_QCI RABs of QCI4 4
8006: LTE EPS Bearer
Successfully established initial E- ERAB_INI_SETUP_SUCC_QCI RABs of QCI5 5
8006: LTE EPS Bearer
Successfully established initial E- ERAB_INI_SETUP_SUCC_QCI RABs of QCI6 6
8006: LTE EPS Bearer
Successfully established initial E- ERAB_INI_SETUP_SUCC_QCI RABs of QCI7 7
8006: LTE EPS Bearer
Successfully established initial E- ERAB_INI_SETUP_SUCC_QCI RABs of QCI8 8
8006: LTE EPS Bearer
Successfully established initial E- ERAB_INI_SETUP_SUCC_QCI RABs of QCI9 9
8006: LTE EPS Bearer
Successfully established additional E-RABs of QCI1
ERAB_ADD_SETUP_SUCC_Q CI1
8006: LTE EPS Bearer
Successfully established additional E-RABs of QCI2
ERAB_ADD_SETUP_SUCC_Q CI2
8006: LTE EPS Bearer
Successfully established additional E-RABs of QCI3
ERAB_ADD_SETUP_SUCC_Q CI3
8006: LTE EPS Bearer
Successfully established additional E-RABs of QCI4
ERAB_ADD_SETUP_SUCC_Q CI4
8006: LTE EPS Bearer
Successfully established additional E-RABs of QCI5
ERAB_ADD_SETUP_SUCC_Q CI5
8006: LTE EPS Bearer
Successfully established additional E-RABs of QCI6
ERAB_ADD_SETUP_SUCC_Q CI6
8006: LTE EPS Bearer
Successfully established additional E-RABs of QCI7
ERAB_ADD_SETUP_SUCC_Q CI7
8006: LTE EPS Bearer
Successfully established additional E-RABs of QCI8
ERAB_ADD_SETUP_SUCC_Q CI8
8006: LTE EPS Bearer
Successfully established additional E-RABs of QCI9
ERAB_ADD_SETUP_SUCC_Q CI9
8006: LTE EPS Bearer
Maximum number of simultaneous E-RABs of QCI1
SIMUL_ERAB_QCI1_MAX
8006: LTE EPS Bearer
Maximum number of simultaneous E-RABs of QCI2
SIMUL_ERAB_QCI2_MAX
8006: LTE EPS Bearer
Maximum number of simultaneous E-RABs of QCI3
SIMUL_ERAB_QCI3_MAX
8006: LTE EPS Bearer
Maximum number of simultaneous E-RABs of QCI4
SIMUL_ERAB_QCI4_MAX
8006: LTE EPS Bearer
Maximum number of simultaneous E-RABs of QCI5
SIMUL_ERAB_QCI5_MAX
8006: LTE EPS Bearer
Maximum number of simultaneous E-RABs of QCI6
SIMUL_ERAB_QCI6_MAX
8006: LTE EPS Bearer
Maximum number of simultaneous E-RABs of QCI7
SIMUL_ERAB_QCI7_MAX
8006: LTE EPS Bearer
Maximum number of simultaneous E-RABs of QCI8
SIMUL_ERAB_QCI8_MAX
8006: LTE EPS Bearer
Maximum number of simultaneous E-RABs of QCI9
SIMUL_ERAB_QCI9_MAX
8006: LTE EPS Bearer
Non-GBR E-RABs with configured NBR in DL
ERAB_NBR_DL_AVG
8006: LTE EPS Bearer
Non-GBR E-RABs with configured NBR in UL
ERAB_NBR_UL_AVG
8006: LTE EPS Bearer
Non-GBR E-RABs not reaching nominal bit rate in DL due to PDSCH/PDCCH overload
ERAB_NBR_DL_FAIL_OVL_AV G
8006: LTE EPS Bearer
Non-GBR E-RABs not reaching nominal bit rate in UL due to PUSCH/PDCCH overload
ERAB_NBR_UL_FAIL_OVL_AV G
8006: LTE EPS Bearer
Failed modification of E-RABs due to "Radio Network Layer Cause - Radio resources not available"
ERAB_MOD_FAIL_RNL_RR_N A
8006: LTE EPS Bearer
Failed modification of E-RABs ERAB_MOD_FAIL_TNL_TRU due to "Transport Layer Cause Transport Resource Unavailable"
8006: LTE EPS Bearer
Released active ERABs QCI5
ERAB_REL_ENB_ACT_QCI5
8006: LTE EPS Bearer
Released active ERABs QCI6
ERAB_REL_ENB_ACT_QCI6
8006: LTE EPS Bearer
Released active ERABs QCI7
ERAB_REL_ENB_ACT_QCI7
8006: LTE EPS Bearer
Released active ERABs QCI8
ERAB_REL_ENB_ACT_QCI8
8006: LTE EPS Bearer
Released active ERABs QCI9
ERAB_REL_ENB_ACT_QCI9
8006: LTE EPS Bearer
Failed setup attempts for initial E-RABs due to "Radio Network Layer Cause - Radio resources not available"
ERAB_INI_SETUP_FAIL_RNL_ RRNA
8006: LTE EPS Bearer
Failed setup attempts for initial ERAB_INI_SETUP_FAIL_TNL_ E-RABs due to "Transport TRU Network Layer Cause - Transport Resources Unavailable"
8006: LTE EPS Bearer
Failed setup attempts for initial ERAB_INI_SETUP_FAIL_RNL_ E-RABs due to "Radio Network UEL Layer Cause - Radio Connection with UE lost"
8006: LTE EPS Bearer
Failed setup attempts for initial E-RABs due to "Radio Network Layer Cause - Failure in the Radio Interface Procedure"
8006: LTE EPS Bearer
Failed setup attempts for ERAB_ADD_SETUP_FAIL_RNL additional E-RABs due to "Radio _RRNA Network Layer Cause - Radio resources not available"
8006: LTE EPS Bearer
Failed setup attempts for ERAB_ADD_SETUP_FAIL_TNL additional E-RABs due to _TRU "Transport Network Layer Cause - Transport Resources Unavailable" Failed setup attempts for ERAB_ADD_SETUP_FAIL_RNL additional E-RABs due to "Radio _UEL Network Layer Cause - Radio Connection with UE lost"
8006: LTE EPS Bearer
ERAB_INI_SETUP_FAIL_RNL_ RIP
8006: LTE EPS Bearer
Failed setup attempts for ERAB_ADD_SETUP_FAIL_RNL additional E-RABs due to "Radio _RIP Network Layer Cause - Failure in the Radio Interface Procedure"
8006: LTE EPS Bearer
Failed setup attempts for additional E-RABs due to "Miscellaneous Cause - Not enough User Plane Processing Resources" Failed setup attempts for
ERAB_ADD_SETUP_FAIL_UP
Total number of released ERABs initiated by the eNB
ERAB_REL_ENB
8006: LTE EPS Bearer
8006: LTE EPS Bearer
ERAB_ADD_SETUP_FAIL_RNL additional E-RABs due to mobility _MOB procedures like Handover, Redirect, CS Fallback
8006: LTE EPS Bearer
eNB initiated E-RAB releases due to user inactivity
ERAB_REL_ENB_RNL_INA
8006: LTE EPS Bearer
eNB initiated E-RAB releases due to loss of connection to the UE
ERAB_REL_ENB_RNL_UEL
8006: LTE EPS Bearer
eNB initiated E-RAB releases due to insufficient transport resources
ERAB_REL_ENB_TNL_TRU
8006: LTE EPS Bearer
eNB initiated E-RAB releases due to redirect to another cell
ERAB_REL_ENB_RNL_RED
8006: LTE EPS Bearer
eNB initiated E-RAB releases due to E-UTRAN Generated Reason
ERAB_REL_ENB_RNL_EUGR
8006: LTE EPS Bearer
eNB initiated E-RAB releases due to missing radio resources
ERAB_REL_ENB_RNL_RRNA
8006: LTE EPS Bearer
E-RABs released due to partial Handover regardless of the bearers QCI
ERAB_REL_HO_PART
8006: LTE EPS Bearer
E-RABs attempted to release due to outgoing Handover regardless of the bearers QCI
ERAB_REL_HO_ATT
8006: LTE EPS Bearer
E-RABs released due to successful outgoing Handover regardless of the bearers QCI
ERAB_REL_HO_SUCC
8006: LTE EPS Bearer
E-RABs released due to failed Handover regardless of the bearers QCI
ERAB_REL_HO_FAIL_TIM
8006: LTE EPS Bearer
Failed EPC initiated E-RAB releases
ERAB_REL_FAIL
8006: LTE EPS Bearer
Total number of released QCI1 E-RABs initiated by the eNB
ERAB_REL_ENB_QCI1
8006: LTE EPS Bearer
eNB initiated QCI1 E-RAB releases due to user inactivity
ERAB_REL_ENB_RNL_INA_Q CI1
8006: LTE EPS Bearer
eNB initiated QCI1 E-RAB releases due to loss of connection to the UE
ERAB_REL_ENB_RNL_UEL_Q CI1
8006: LTE EPS Bearer
eNB initiated QCI1 E-RAB releases due to insufficient transport resources
ERAB_REL_ENB_TNL_TRU_Q CI1
8006: LTE EPS Bearer
eNB initiated QCI1 E-RAB releases due to redirect to another cell
ERAB_REL_ENB_RNL_RED_Q CI1
8006: LTE EPS Bearer
eNB initiated QCI1 E-RAB releases due to E-UTRAN Generated Reason
ERAB_REL_ENB_RNL_EUGR_ QCI1
8006: LTE EPS Bearer
eNB initiated QCI1 E-RAB releases due to "Radio Network Layer Cause - Radio resources not available"
ERAB_REL_ENB_RNL_RRNA_ QCI1
8006: LTE EPS Bearer
QCI1 E-RABs released due to partial Handover
ERAB_REL_HO_PART_QCI1
8006: LTE EPS Bearer
QCI1 E-RABs attempted to release due to outgoing Handover
ERAB_REL_HO_ATT_QCI1
8006: LTE EPS Bearer
QCI1 E-RABs released due to successful outgoing Handover
ERAB_REL_HO_SUCC_QCI1
8006: LTE EPS Bearer
QCI1 E-RABs released due to failed Handover
ERAB_REL_HO_FAIL_TIM_QC I1
8007: LTE Radio Bearer
Number of Data Radio Bearers attempted to setup
DATA_RB_STP_ATT
8007: LTE Radio Bearer
Number of Data Radio Bearers successfully established
DATA_RB_STP_COMP
8007: LTE Radio Bearer
Number of Data Radio Bearers failed to setup
DATA_RB_STP_FAIL
8007: LTE Radio Bearer
Number of released Data Radio RB_REL_REQ_DETACH_PRO Bearers due to Detach C
8007: LTE Radio Bearer
SRB1 setup attempts
SRB1_SETUP_ATT
8007: LTE Radio Bearer
SRB1 setup completions
SRB1_SETUP_SUCC
8007: LTE Radio Bearer
SRB1 setup failures
SRB1_SETUP_FAIL
8007: LTE Radio Bearer
SRB2 setup attempts
SRB2_SETUP_ATT
8007: LTE Radio Bearer
SRB2 setup completions
SRB2_SETUP_SUCC
8007: LTE Radio Bearer
SRB2 setup failures
SRB2_SETUP_FAIL
8007: LTE Radio Bearer
Mean E-RAB setup time
ERAB_SETUP_TIME_MEAN
8007: LTE Radio Bearer
Maximum E-RAB setup time
ERAB_SETUP_TIME_MAX
8008: LTE RRC
Rejected RRC Connection reestablishments
REJ_RRC_CONN_RE_ESTAB
8008: LTE RRC
RRC Paging requests
RRC_PAGING_REQUESTS
8008: LTE RRC
Discarded RRC Paging requests DISC_RRC_PAGING
8008: LTE RRC
RRC Paging messages
8008: LTE RRC
Number of RRC Connection Re- RRC_CON_RE_ESTAB_ATT establishment attempts
8008: LTE RRC
Number of successful RRC Connection Re-establishment procedures
RRC_CON_RE_ESTAB_SUCC
8008: LTE RRC
RRC Connection Reestablishment attempts per cause (Handover Failure)
RRC_CON_RE_ESTAB_ATT_H O_FAIL
8008: LTE RRC
RRC Connection ReRRC_CON_RE_ESTAB_SUCC establishment success per cause _HO_FAIL (Handover Failure)
8008: LTE RRC
RRC Connection Reestablishment attempts per cause (Other Failure)
8008: LTE RRC
RRC Connection ReRRC_CON_RE_ESTAB_SUCC establishment success per cause _OTHER (Other Failure)
8008: LTE RRC
Number of Report CGI Requests REPORT_CGI_REQ
8008: LTE RRC
Number of successful CGI Reports
SUCC_CGI_REPORTS
8008: LTE RRC
Number of requested CGI reports for UTRAN
UTRAN_REPORT_CGI_ATT
8008: LTE RRC
Number of successful CGI reports for UTRAN
UTRAN_REPORT_CGI_SUCC
RRC_PAGING_MESSAGES
RRC_CON_RE_ESTAB_ATT_O THER
8008: LTE RRC
Number of incomplete CGI reports for UTRAN
UTRAN_REPORT_CGI_INCOM PL
8008: LTE RRC
Number of UEs attempted to redirect to Home eNB
RRC_CON_REL_REDIR_H_EN B
8008: LTE RRC
Number of RRC Pagings for ETWS or CMAS
RRC_PAGING_ETWS_CMAS
8008: LTE RRC
Mean RRC connection setup time
RRC_CON_STP_TIM_MEAN
8008: LTE RRC
Maximum RRC connection setup RRC_CON_STP_TIM_MAX time
8009: LTE Intra eNB Handover
Total not started Handover preparations
TOT_NOT_START_HO_PREP
8009: LTE Intra eNB Handover
Total Handover decisions
TOT_HO_DECISION
8009: LTE Intra eNB Handover
Intra eNB Handover preparations INTRA_ENB_HO_PREP
8009: LTE Intra eNB Handover
Failed Intra eNB Handover preparations due to Admission Control
FAIL_ENB_HO_PREP_AC
8009: LTE Intra eNB Handover
Failed Intra-eNB Handover preparations caused by other reasons
FAIL_ENB_HO_PREP_OTH
8009: LTE Intra eNB Handover
Attempted intra eNB HO
ATT_INTRA_ENB_HO
8009: LTE Intra eNB Handover
Successful intra eNB HO
SUCC_INTRA_ENB_HO
8009: LTE Intra eNB Handover
Total intra eNB HO failures due to timer
ENB_INTRA_HO_FAIL
8010: LTE Power and Quality DL
UE Reported CQI Level 00
UE_REP_CQI_LEVEL_00
8010: LTE Power and Quality DL
UE Reported CQI Level 01
UE_REP_CQI_LEVEL_01
8010: LTE Power and Quality DL
UE Reported CQI Level 02
UE_REP_CQI_LEVEL_02
8010: LTE Power and Quality DL
UE Reported CQI Level 03
UE_REP_CQI_LEVEL_03
8010: LTE Power and Quality DL
UE Reported CQI Level 04
UE_REP_CQI_LEVEL_04
8010: LTE Power and Quality DL
UE Reported CQI Level 05
UE_REP_CQI_LEVEL_05
8010: LTE Power and Quality DL
UE Reported CQI Level 06
UE_REP_CQI_LEVEL_06
8010: LTE Power and Quality DL
UE Reported CQI Level 07
UE_REP_CQI_LEVEL_07
8010: LTE Power and Quality DL
UE Reported CQI Level 08
UE_REP_CQI_LEVEL_08
8010: LTE Power and Quality DL
UE Reported CQI Level 09
UE_REP_CQI_LEVEL_09
8010: LTE Power and Quality DL
UE Reported CQI Level 10
UE_REP_CQI_LEVEL_10
8010: LTE Power and Quality DL
UE Reported CQI Level 11
UE_REP_CQI_LEVEL_11
8010: LTE Power and Quality DL
UE Reported CQI Level 12
UE_REP_CQI_LEVEL_12
8010: LTE Power and Quality DL
UE Reported CQI Level 13
UE_REP_CQI_LEVEL_13
8010: LTE Power and Quality DL
UE Reported CQI Level 14
UE_REP_CQI_LEVEL_14
8010: LTE Power and Quality DL
UE Reported CQI Level 15
UE_REP_CQI_LEVEL_15
8010: LTE Power and Quality DL
CQI offset Min
CQI_OFF_MIN
8010: LTE Power and Quality DL
CQI offset Max
CQI_OFF_MAX
8010: LTE Power and Quality DL
CQI offset Mean
CQI_OFF_MEAN
8010: LTE Power and Quality DL
MIMO Open Loop Diversity Mode MIMO_OL_DIV
8010: LTE Power and Quality DL
MIMO Open Loop Spatial Multiplexing
MIMO_OL_SM
8010: LTE Power and Quality DL
MIMO Closed Loop Single Codeword
MIMO_CL_1CW
8010: LTE Power and Quality DL
MIMO Closed Loop Double Codeword
MIMO_CL_2CW
8010: LTE Power and Quality DL
Open Loop MIMO mode switches MIMO_SWITCH_OL
8010: LTE Power and Quality DL
Closed Loop MIMO mode switches
MIMO_SWITCH_CL
8010: LTE Power and Quality DL
PDCCH allocations for PDSCH transmissions with HARQ reporting
PDCCH_ALLOC_PDSCH_HAR Q
8010: LTE Power and Quality DL
PDCCH allocations for PDSCH PDCCH_ALLOC_PDSCH_HAR transmissions with HARQ Q_NO_RES reporting for which eNB received no HARQ response from UE
8010: LTE Power and Quality DL
Average PDCCH power per RE per DCI
PDCCH_POWER_AVG
8010: LTE Power and Quality DL
Average Transmit Power
AVG_TRANS_PWR
8010: LTE Power and Quality DL
Maximum Transmit Power
MAX_TRANS_PWR
8010: LTE Power and Quality DL
UE Reported CQI Level 0 for Codeword 1
UE_REP_CQI_CW1_LEVEL_0
8010: LTE Power and Quality DL
UE Reported CQI Level 1 for Codeword 1
UE_REP_CQI_CW1_LEVEL_1
8010: LTE Power and Quality DL
UE Reported CQI Level 2 for Codeword 1
UE_REP_CQI_CW1_LEVEL_2
8010: LTE Power and Quality DL
UE Reported CQI Level 3 for Codeword 1
UE_REP_CQI_CW1_LEVEL_3
8010: LTE Power and Quality DL
UE Reported CQI Level 4 for Codeword 1
UE_REP_CQI_CW1_LEVEL_4
8010: LTE Power and Quality DL
UE Reported CQI Level 5 for Codeword 1
UE_REP_CQI_CW1_LEVEL_5
8010: LTE Power and Quality DL
UE Reported CQI Level 6 for Codeword 1
UE_REP_CQI_CW1_LEVEL_6
8010: LTE Power and Quality DL
UE Reported CQI Level 7 for Codeword 1
UE_REP_CQI_CW1_LEVEL_7
8010: LTE Power and Quality DL
UE Reported CQI Level 8 for Codeword 1
UE_REP_CQI_CW1_LEVEL_8
8010: LTE Power and Quality DL
UE Reported CQI Level 9 for Codeword 1
UE_REP_CQI_CW1_LEVEL_9
8010: LTE Power and Quality DL
UE Reported CQI Level 10 for Codeword 1
UE_REP_CQI_CW1_LEVEL_1 0
8010: LTE Power and Quality DL
UE Reported CQI Level 11 for Codeword 1
UE_REP_CQI_CW1_LEVEL_11
8010: LTE Power and Quality DL
UE Reported CQI Level 12 for Codeword 1
UE_REP_CQI_CW1_LEVEL_1 2
8010: LTE Power and Quality DL
UE Reported CQI Level 13 for Codeword 1
UE_REP_CQI_CW1_LEVEL_1 3
8010: LTE Power and Quality DL
UE Reported CQI Level 14 for Codeword 1
UE_REP_CQI_CW1_LEVEL_1 4
8010: LTE Power and Quality DL
UE Reported CQI Level 15 for Codeword 1
UE_REP_CQI_CW1_LEVEL_1 5
8011: LTE Cell Resource
UL PRB utilization per TTI Level 1
UL_PRB_UTIL_TTI_LEVEL_1
8011: LTE Cell Resource
UL PRB utilization per TTI Level 2
UL_PRB_UTIL_TTI_LEVEL_2
8011: LTE Cell Resource
UL PRB utilization per TTI Level 3
UL_PRB_UTIL_TTI_LEVEL_3
8011: LTE Cell Resource
UL PRB utilization per TTI Level 4
UL_PRB_UTIL_TTI_LEVEL_4
8011: LTE Cell Resource
UL PRB utilization per TTI Level 5
UL_PRB_UTIL_TTI_LEVEL_5
8011: LTE Cell Resource
UL PRB utilization per TTI Level 6
UL_PRB_UTIL_TTI_LEVEL_6
8011: LTE Cell Resource
UL PRB utilization per TTI Level 7
UL_PRB_UTIL_TTI_LEVEL_7
8011: LTE Cell Resource
UL PRB utilization per TTI Level 8
UL_PRB_UTIL_TTI_LEVEL_8
8011: LTE Cell Resource
UL PRB utilization per TTI Level 9
UL_PRB_UTIL_TTI_LEVEL_9
8011: LTE Cell Resource
UL PRB utilization per TTI Level 10
UL_PRB_UTIL_TTI_LEVEL_10
8011: LTE Cell Resource
UL PRB utilization per TTI Min
UL_PRB_UTIL_TTI_MIN
8011: LTE Cell Resource
UL PRB utilization per TTI Max
UL_PRB_UTIL_TTI_MAX
8011: LTE Cell Resource
UL PRB utilization per TTI Mean UL_PRB_UTIL_TTI_MEAN
8011: LTE Cell Resource
DL PRB utilization per TTI Level 1
DL_PRB_UTIL_TTI_LEVEL_1
8011: LTE Cell Resource
DL PRB utilization per TTI Level 2
DL_PRB_UTIL_TTI_LEVEL_2
8011: LTE Cell Resource
DL PRB utilization per TTI Level 3
DL_PRB_UTIL_TTI_LEVEL_3
8011: LTE Cell Resource
DL PRB utilization per TTI Level 4
DL_PRB_UTIL_TTI_LEVEL_4
8011: LTE Cell Resource
DL PRB utilization per TTI Level 5
DL_PRB_UTIL_TTI_LEVEL_5
8011: LTE Cell Resource
DL PRB utilization per TTI Level 6
DL_PRB_UTIL_TTI_LEVEL_6
8011: LTE Cell Resource
DL PRB utilization per TTI Level 7
DL_PRB_UTIL_TTI_LEVEL_7
8011: LTE Cell Resource
DL PRB utilization per TTI Level 8
DL_PRB_UTIL_TTI_LEVEL_8
8011: LTE Cell Resource
DL PRB utilization per TTI Level 9
DL_PRB_UTIL_TTI_LEVEL_9
8011: LTE Cell Resource
DL PRB utilization per TTI Level 10
DL_PRB_UTIL_TTI_LEVEL_10
8011: LTE Cell Resource
DL PRB utilisation per TTI Min
DL_PRB_UTIL_TTI_MIN
8011: LTE Cell Resource
DL PRB utilisation per TTI Max
DL_PRB_UTIL_TTI_MAX
8011: LTE Cell Resource
DL PRB utilisation per TTI Mean DL_PRB_UTIL_TTI_MEAN
8011: LTE Cell Resource
CCEs available PDCCH scheduling
CCE_AVAIL_ACT_TTI
8011: LTE Cell Resource
AGG1 used PDCCH
AGG1_USED_PDCCH
8011: LTE Cell Resource
AGG2 used PDCCH
AGG2_USED_PDCCH
8011: LTE Cell Resource
AGG4 used PDCCH
AGG4_USED_PDCCH
8011: LTE Cell Resource
AGG8 used PDCCH
AGG8_USED_PDCCH
8011: LTE Cell Resource
AGG1 blocked PDCCH
AGG1_BLOCKED_PDCCH
8011: LTE Cell Resource
AGG2 blocked PDCCH
AGG2_BLOCKED_PDCCH
8011: LTE Cell Resource
AGG4 blocked PDCCH
AGG4_BLOCKED_PDCCH
8011: LTE Cell Resource
AGG8 blocked PDCCH
AGG8_BLOCKED_PDCCH
8011: LTE Cell Resource
PRB used UL total
PRB_USED_UL_TOTAL
8011: LTE Cell Resource
PRB used PUCCH
PRB_USED_PUCCH
8011: LTE Cell Resource
PRB used PUSCH
PRB_USED_PUSCH
8011: LTE Cell Resource
PRB used DL total
PRB_USED_DL_TOTAL
8011: LTE Cell Resource
PRB used PDSCH
PRB_USED_PDSCH
8011: LTE Cell Resource
Average UEs per UL TTI
UE_PER_UL_TTI_AVG
8011: LTE Cell Resource
Max UEs per UL TTI
UE_PER_UL_TTI_MAX
8011: LTE Cell Resource
Average UEs per DL TTI
UE_PER_DL_TTI_AVG
8011: LTE Cell Resource
Max UEs per DL TTI
UE_PER_DL_TTI_MAX
8011: LTE Cell Resource
Number of subframes with 1 OFDM symbol allocated to PDCCH
PDCCH_1_OFDM_SYMBOL
8011: LTE Cell Resource
Number of subframes with 2 OFDM symbols allocated to PDCCH
PDCCH_2_OFDM_SYMBOLS
8011: LTE Cell Resource
Number of subframes with 3 OFDM symbols allocated to PDCCH
PDCCH_3_OFDM_SYMBOLS
8011: LTE Cell Resource
Average number of UEs configured for TTI Bundling mode
TTI_BUNDLING_MODE_UE_A VG
8011: LTE Cell Resource
Number of UL grants for TTI Bundling
TTI_BUNDLING_GRANTS
8011: LTE Cell Resource
Short UE retention time in TTI Bundling mode
TTI_BUNDL_RETENTION_SH ORT
8011: LTE Cell Resource
Medium UE retention time in TTI TTI_BUNDL_RETENTION_ME Bundling mode DIUM
8011: LTE Cell Resource
Long UE retention time in TTI Bundling mode
TTI_BUNDL_RETENTION_LON G
8011: LTE Cell Resource
Number of SCell configuration attempts
CA_SCELL_CONFIG_ATT
8011: LTE Cell Resource
Number of successful SCell configurations
CA_SCELL_CONFIG_SUCC
8011: LTE Cell Resource
High cell load Indicator for Load Balancing
HIGH_CELL_LOAD_LB
8011: LTE Cell Resource
TTIs used in UL by cell resource CRG_USED_TTI_UL_GRP_1 group 1
8011: LTE Cell Resource
TTIs used in UL by cell resource CRG_USED_TTI_UL_GRP_2 group 2
8011: LTE Cell Resource
TTIs used in UL by cell resource CRG_USED_TTI_UL_GRP_3 group 3
8011: LTE Cell Resource
TTIs used in UL by cell resource CRG_USED_TTI_UL_GRP_4 group 4
8011: LTE Cell Resource
Number of available TTIs for PUSCH
8011: LTE Cell Resource
TTIs used in DL by cell resource CRG_USED_TTI_DL_GRP_1 group 1
TTI_PUSCH_AVAILABLE
8011: LTE Cell Resource
TTIs used in DL by cell resource CRG_USED_TTI_DL_GRP_2 group 2
8011: LTE Cell Resource
TTIs used in DL by cell resource CRG_USED_TTI_DL_GRP_3 group 3
8011: LTE Cell Resource
TTIs used in DL by cell resource CRG_USED_TTI_DL_GRP_4 group 4
8011: LTE Cell Resource
Number of available TTIs for PDSCH
TTI_PDSCH_AVAILABLE
8011: LTE Cell Resource
Cell DL Composite Available Capacity zero (DL CAC = 0)
DL_CAC_EQUAL_ZERO
8011: LTE Cell Resource
Cell DL Composite Available Capacity in the range 0 < DL CAC <= 20
DL_CAC_ABOVE_0_BELOW_ EQ_20
8011: LTE Cell Resource
Cell DL Composite Available Capacity in the range 20 < DL CAC <= 40
DL_CAC_ABOVE_20_BELOW_ EQ_40
8011: LTE Cell Resource
Cell DL Composite Available Capacity in the range 40 < DL CAC <= 60
DL_CAC_ABOVE_40_BELOW_ EQ_60
8011: LTE Cell Resource
Cell DL Composite Available Capacity in the range 60 < DL CAC <= 80
DL_CAC_ABOVE_60_BELOW_ EQ_80
8011: LTE Cell Resource
Cell DL Composite Available Capacity in the range 80 < DL CAC <= 100
DL_CAC_ABOVE_80_BELOW_ EQ_100
8011: LTE Cell Resource
DL interference shaping usage
DL_INTERFER_SHAP_USE
8011: LTE Cell Resource
Amount of preferred resources per TTI
DL_INTERFER_SHAP_AMOUN T
8011: LTE Cell Resource
Number of changes of preferred resources
DL_INTERFER_SHAP_CHANG E
8011: LTE Cell Resource
Cell DL Available Capacity for PDCCH zero (PDCCH AC = 0)
DL_AC_PDCCH_EQ_ZERO
8011: LTE Cell Resource
Cell DL Available Capacity for DL_AC_PDCCH_0_TO_20 PDCCH in the range 0 < PDCCH AC <= 20
8011: LTE Cell Resource
Cell DL Available Capacity for PDCCH in the range 20 < PDCCH AC <= 40
DL_AC_PDCCH_20_TO_40
8011: LTE Cell Resource
Cell DL Available Capacity for PDCCH in the range 40 < PDCCH AC <= 60
DL_AC_PDCCH_40_TO_60
8011: LTE Cell Resource
Cell DL Available Capacity for PDCCH in the range 60 < PDCCH AC <= 80
DL_AC_PDCCH_60_TO_80
8011: LTE Cell Resource
Cell DL Available Capacity for PDCCH in the range 80 < PDCCH AC <= 100
DL_AC_PDCCH_80_TO_100
8011: LTE Cell Resource
Cell DL Available Capacity for DL_AC_GBR_EQ_ZERO GBR bearer zero (DL GBR AC = 0)
8011: LTE Cell Resource
Cell DL Available Capacity for DL_AC_GBR_0_TO_20 GBR bearers in the range 0 < DL GBR AC <= 20
8011: LTE Cell Resource
Cell DL Available Capacity for GBR bearers in the range 20 < DL GBR AC <= 40
DL_AC_GBR_20_TO_40
8011: LTE Cell Resource
Cell DL Available Capacity for GBR bearers in the range 40 < DL GBR AC <= 60
DL_AC_GBR_40_TO_60
8011: LTE Cell Resource
Cell DL Available Capacity for GBR bearers in the range 60 < DL GBR AC <= 80
DL_AC_GBR_60_TO_80
8011: LTE Cell Resource
Cell DL Available Capacity for GBR bearers in the range 80 < DL GBR AC <= 100
DL_AC_GBR_80_TO_100
8011: LTE Cell Resource
Cell DL Available Capacity for non-GBR bearer zero (DL nonGBR AC = 0)
DL_AC_NON_GBR_EQ_ZERO
8011: LTE Cell Resource
Cell DL Available Capacity for non-GBR bearers in the range 0 < DL non-GBR AC <= 20
DL_AC_NON_GBR_0_TO_20
8011: LTE Cell Resource
Cell DL Available Capacity for DL_AC_NON_GBR_20_TO_40 non-GBR bearers in the range 20 < DL non-GBR AC <= 40
8011: LTE Cell Resource
Cell DL Available Capacity for DL_AC_NON_GBR_40_TO_60 non-GBR bearers in the range 40 < DL non-GBR AC <= 60
8011: LTE Cell Resource
Cell DL Available Capacity for DL_AC_NON_GBR_60_TO_80 non-GBR bearers in the range 60 < DL non-GBR AC <= 80
8011: LTE Cell Resource
Cell DL Available Capacity for DL_AC_NON_GBR_80_TO_10 non-GBR bearers in the range 80 0 < DL non-GBR AC <= 100
8011: LTE Cell Resource
Accumulated time of muting pattern 1 activation
E_ICIC_MUTING_PATTERN_1
8011: LTE Cell Resource
Accumulated time of muting pattern 2 activation
E_ICIC_MUTING_PATTERN_2
8011: LTE Cell Resource
Accumulated time of muting pattern 3 activation
E_ICIC_MUTING_PATTERN_3
8011: LTE Cell Resource
Accumulated time of muting pattern 4 activation
E_ICIC_MUTING_PATTERN_4
8011: LTE Cell Resource
Accumulated time of muting pattern 5 activation
E_ICIC_MUTING_PATTERN_5
8011: LTE Cell Resource
Accumulated time of muting pattern 6 activation
E_ICIC_MUTING_PATTERN_6
8011: LTE Cell Resource
PRB utilization of CRE UEs in DL E_ICIC_DL_PRB_UTIL_LEVEL ABS sub-frames per TTI Level 0 _0
8011: LTE Cell Resource
PRB utilization of CRE UEs in DL E_ICIC_DL_PRB_UTIL_LEVEL ABS sub-frames per TTI Level 1 _1
8011: LTE Cell Resource
PRB utilization of CRE UEs in DL E_ICIC_DL_PRB_UTIL_LEVEL ABS sub-frames per TTI Level 2 _2
8011: LTE Cell Resource
PRB utilization of CRE UEs in DL E_ICIC_DL_PRB_UTIL_LEVEL ABS sub-frames per TTI Level 3 _3
8011: LTE Cell Resource
PRB utilization of CRE UEs in DL E_ICIC_DL_PRB_UTIL_LEVEL ABS sub-frames per TTI Level 4 _4
8011: LTE Cell Resource
PRB utilization of CRE UEs in DL E_ICIC_DL_PRB_UTIL_LEVEL ABS sub-frames per TTI Level 5 _5
8011: LTE Cell Resource
PRB utilization of CRE UEs in DL E_ICIC_DL_PRB_UTIL_LEVEL ABS sub-frames per TTI Level 6 _6
8011: LTE Cell Resource
PRB utilization of CRE UEs in DL E_ICIC_DL_PRB_UTIL_LEVEL ABS sub-frames per TTI Level 7 _7
8011: LTE Cell Resource
PRB utilization of CRE UEs in DL E_ICIC_DL_PRB_UTIL_LEVEL ABS sub-frames per TTI Level 8 _8
8011: LTE Cell Resource
PRB utilization of CRE UEs in DL E_ICIC_DL_PRB_UTIL_LEVEL ABS sub-frames per TTI Level 9 _9
8011: LTE Cell Resource
PRB utilization of CRE UEs in DL E_ICIC_DL_PRB_UTIL_LEVEL ABS sub-frames per TTI Level _10 10
8011: LTE Cell Resource
PRB utilization of CRE UEs in UL E_ICIC_UL_PRB_UTIL_LEVEL ABS sub-frames per TTI Level 0 _0
8011: LTE Cell Resource
PRB utilization of CRE UEs in UL E_ICIC_UL_PRB_UTIL_LEVEL ABS sub-frames per TTI Level 1 _1
8011: LTE Cell Resource
PRB utilization of CRE UEs in UL E_ICIC_UL_PRB_UTIL_LEVEL ABS sub-frames per TTI Level 2 _2
8011: LTE Cell Resource
PRB utilization of CRE UEs in UL E_ICIC_UL_PRB_UTIL_LEVEL ABS sub-frames per TTI Level 3 _3
8011: LTE Cell Resource
PRB utilization of CRE UEs in UL E_ICIC_UL_PRB_UTIL_LEVEL ABS sub-frames per TTI Level 4 _4
8011: LTE Cell Resource
PRB utilization of CRE UEs in UL E_ICIC_UL_PRB_UTIL_LEVEL ABS sub-frames per TTI Level 5 _5
8011: LTE Cell Resource
PRB utilization of CRE UEs in UL E_ICIC_UL_PRB_UTIL_LEVEL ABS sub-frames per TTI Level 6 _6
8011: LTE Cell Resource
PRB utilization of CRE UEs in UL E_ICIC_UL_PRB_UTIL_LEVEL ABS sub-frames per TTI Level 7 _7
8011: LTE Cell Resource
PRB utilization of CRE UEs in UL E_ICIC_UL_PRB_UTIL_LEVEL ABS sub-frames per TTI Level 8 _8
8011: LTE Cell Resource
PRB utilization of CRE UEs in UL E_ICIC_UL_PRB_UTIL_LEVEL ABS sub-frames per TTI Level 9 _9
8011: LTE Cell Resource
PRB utilization of CRE UEs in UL E_ICIC_UL_PRB_UTIL_LEVEL ABS sub-frames per TTI Level _10 10
8011: LTE Cell Resource
Uplink PRB Usage for DTCH traffic for SAEB QoS level 1
UL_PRB_USAGE_SAEB_QOS _1
8011: LTE Cell Resource
Uplink PRB Usage for DTCH traffic for SAEB QoS level 2
UL_PRB_USAGE_SAEB_QOS _2
8011: LTE Cell Resource
Uplink PRB Usage for DTCH traffic for SAEB QoS level 3
UL_PRB_USAGE_SAEB_QOS _3
8011: LTE Cell Resource
Uplink PRB Usage for DTCH traffic for SAEB QoS level 4
UL_PRB_USAGE_SAEB_QOS _4
8011: LTE Cell Resource
Uplink PRB Usage for DTCH traffic for SAEB QoS level 5
UL_PRB_USAGE_SAEB_QOS _5
8011: LTE Cell Resource
Uplink PRB Usage for DTCH traffic for SAEB QoS level 6
UL_PRB_USAGE_SAEB_QOS _6
8011: LTE Cell Resource
Uplink PRB Usage for DTCH traffic for SAEB QoS level 7
UL_PRB_USAGE_SAEB_QOS _7
8011: LTE Cell Resource
Uplink PRB Usage for DTCH traffic for SAEB QoS level 8
UL_PRB_USAGE_SAEB_QOS _8
8011: LTE Cell Resource
Uplink PRB Usage for DTCH traffic for SAEB QoS level 9
UL_PRB_USAGE_SAEB_QOS _9
8011: LTE Cell Resource
Uplink PRB Usage for DTCH traffic for SAEB QoS levels 10255
UL_PRB_USAGE_SAEB_QOS _10_255
8011: LTE Cell Resource
Uplink PRB Usage for DCCH and UL_PRB_USAGE_SRB CCCH data
8011: LTE Cell Resource
Downlink PRB Usage for DTCH traffic for SAEB QoS level 1
DL_PRB_USAGE_SAEB_QOS _1
8011: LTE Cell Resource
Downlink PRB Usage for DTCH traffic for SAEB QoS level 2
DL_PRB_USAGE_SAEB_QOS _2
8011: LTE Cell Resource
Downlink PRB Usage for DTCH traffic for SAEB QoS level 3
DL_PRB_USAGE_SAEB_QOS _3
8011: LTE Cell Resource
Downlink PRB Usage for DTCH traffic for SAEB QoS level 4
DL_PRB_USAGE_SAEB_QOS _4
8011: LTE Cell Resource
Downlink PRB Usage for DTCH traffic for SAEB QoS level 5
DL_PRB_USAGE_SAEB_QOS _5
8011: LTE Cell Resource
Downlink PRB Usage for DTCH traffic for SAEB QoS level 6
DL_PRB_USAGE_SAEB_QOS _6
8011: LTE Cell Resource
Downlink PRB Usage for DTCH traffic for SAEB QoS level 7
DL_PRB_USAGE_SAEB_QOS _7
8011: LTE Cell Resource
Downlink PRB Usage for DTCH traffic for SAEB QoS level 8
DL_PRB_USAGE_SAEB_QOS _8
8011: LTE Cell Resource
Downlink PRB Usage for DTCH traffic for SAEB QoS level 9
DL_PRB_USAGE_SAEB_QOS _9
8011: LTE Cell Resource
Downlink PRB Usage for DTCH traffic for SAEB QoS levels 10255
DL_PRB_USAGE_SAEB_QOS _10_255
8011: LTE Cell Resource
Downlink PRB Usage for DCCH and CCCH data
DL_PRB_USAGE_SRB
8011: LTE Cell Resource
High cell load indicator for load balancing to UTRAN
HIGH_CELL_LOAD_UTRAN_L B
8011: LTE Cell Resource
Accumulated time of muting pattern 0 activation
E_ICIC_MUTING_PATTERN_0
8011: LTE Cell Resource
Number of event A6 triggered SCell swaps
CA_SCELL_SWAP_A6
8011: LTE Cell Resource
SCell scheduling blocking rate due to conflicts on PUCCH format 1bwcs resources
PUCCH_BLOCK_RATE_FORM T_1BWCS
8011: LTE Cell Resource
SCell scheduling blocking rate due to conflicts on PUCCH format 3 resources
PUCCH_BLOCK_RATE_FORM T_3
8012: LTE Cell Throughput
Total volume of original transmissions of DL-SCH TBs
VOL_ORIG_TRANS_DL_SCH_ TB
8012: LTE Cell Throughput
Total volume of correct received UL-SCH TB with re-reception
VOL_RE_REC_UL_SCH_TB
8012: LTE Cell Throughput
Total volume of retransmissions of DL-SCH TBs
VOL_RE_TRANS_DL_SCH_TB
8012: LTE Cell Throughput
Total volume of correct nonduplicate received UL-SCH TB with original receptions
VOL_ORIG_REC_UL_SCH_TB
8012: LTE Cell Throughput
RLC data volume on DL DCCH
RLC_SDU_VOL_DL_DCCH
8012: LTE Cell Throughput
RLC data volume on UL DCCH
RLC_SDU_VOL_UL_DCCH
8012: LTE Cell Throughput
RLC PDU volume received
RLC_PDU_VOL_RECEIVED
8012: LTE Cell Throughput
RLC PDU volume transmitted
RLC_PDU_VOL_TRANSMITTE D
8012: LTE Cell Throughput
PDCP SDU data volume on eUu PDCP_SDU_VOL_UL Interface uplink
8012: LTE Cell Throughput
PDCP SDU data volume on eUu PDCP_SDU_VOL_DL Interface downlink
8012: LTE Cell Throughput
PDCP Throughput UL Max
PDCP_DATA_RATE_MAX_UL
8012: LTE Cell Throughput
PDCP Throughput UL Mean
PDCP_DATA_RATE_MEAN_UL
8012: LTE Cell Throughput
PDCP Throughput DL Max
PDCP_DATA_RATE_MAX_DL
8012: LTE Cell Throughput
PDCP Throughput DL Mean
PDCP_DATA_RATE_MEAN_DL
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS0
TB_VOL_PDSCH_MCS0
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS1
TB_VOL_PDSCH_MCS1
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS2
TB_VOL_PDSCH_MCS2
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS3
TB_VOL_PDSCH_MCS3
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS4
TB_VOL_PDSCH_MCS4
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS5
TB_VOL_PDSCH_MCS5
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS6
TB_VOL_PDSCH_MCS6
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS7
TB_VOL_PDSCH_MCS7
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS8
TB_VOL_PDSCH_MCS8
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS9
TB_VOL_PDSCH_MCS9
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS10
TB_VOL_PDSCH_MCS10
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS11
TB_VOL_PDSCH_MCS11
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS12
TB_VOL_PDSCH_MCS12
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS13
TB_VOL_PDSCH_MCS13
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS14
TB_VOL_PDSCH_MCS14
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS15
TB_VOL_PDSCH_MCS15
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS16
TB_VOL_PDSCH_MCS16
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS17
TB_VOL_PDSCH_MCS17
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS18
TB_VOL_PDSCH_MCS18
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS19
TB_VOL_PDSCH_MCS19
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS20
TB_VOL_PDSCH_MCS20
8012: LTE Cell Throughput
MAC PDU volume PUSCH MCS0
TB_VOL_PUSCH_MCS0
8012: LTE Cell Throughput
MAC PDU volume PUSCH MCS1
TB_VOL_PUSCH_MCS1
8012: LTE Cell Throughput
MAC PDU volume PUSCH MCS2
TB_VOL_PUSCH_MCS2
8012: LTE Cell Throughput
MAC PDU volume PUSCH MCS3
TB_VOL_PUSCH_MCS3
8012: LTE Cell Throughput
MAC PDU volume PUSCH MCS4
TB_VOL_PUSCH_MCS4
8012: LTE Cell Throughput
MAC PDU volume PUSCH MCS5
TB_VOL_PUSCH_MCS5
8012: LTE Cell Throughput
MAC PDU volume PUSCH MCS6
TB_VOL_PUSCH_MCS6
8012: LTE Cell Throughput
MAC PDU volume PUSCH MCS7
TB_VOL_PUSCH_MCS7
8012: LTE Cell Throughput
MAC PDU volume PUSCH MCS8
TB_VOL_PUSCH_MCS8
8012: LTE Cell Throughput
MAC PDU volume PUSCH MCS9
TB_VOL_PUSCH_MCS9
8012: LTE Cell Throughput
MAC PDU volume PUSCH MCS10
TB_VOL_PUSCH_MCS10
8012: LTE Cell Throughput
MAC PDU volume PUSCH MCS11
TB_VOL_PUSCH_MCS11
8012: LTE Cell Throughput
MAC PDU volume PUSCH MCS12
TB_VOL_PUSCH_MCS12
8012: LTE Cell Throughput
MAC PDU volume PUSCH MCS13
TB_VOL_PUSCH_MCS13
8012: LTE Cell Throughput
MAC PDU volume PUSCH MCS14
TB_VOL_PUSCH_MCS14
8012: LTE Cell Throughput
MAC PDU volume PUSCH MCS15
TB_VOL_PUSCH_MCS15
8012: LTE Cell Throughput
MAC PDU volume PUSCH MCS16
TB_VOL_PUSCH_MCS16
8012: LTE Cell Throughput
MAC PDU volume PUSCH MCS17
TB_VOL_PUSCH_MCS17
8012: LTE Cell Throughput
MAC PDU volume PUSCH MCS18
TB_VOL_PUSCH_MCS18
8012: LTE Cell Throughput
MAC PDU volume PUSCH MCS19
TB_VOL_PUSCH_MCS19
8012: LTE Cell Throughput
MAC PDU volume PUSCH MCS20
TB_VOL_PUSCH_MCS20
8012: LTE Cell Throughput
MAC SDU volume on UL-CCCH
MAC_SDU_VOL_UL_CCCH
8012: LTE Cell Throughput
MAC SDU volume on UL-DCCH
MAC_SDU_VOL_UL_DCCH
8012: LTE Cell Throughput
MAC SDU volume on UL-DTCH
MAC_SDU_VOL_UL_DTCH
8012: LTE Cell Throughput
MAC SDU volume on DL-CCCH
MAC_SDU_VOL_DL_CCCH
8012: LTE Cell Throughput
MAC SDU volume on DL-DCCH
MAC_SDU_VOL_DL_DCCH
8012: LTE Cell Throughput
MAC SDU volume on DL-DTCH
MAC_SDU_VOL_DL_DTCH
8012: LTE Cell Throughput
RRC UL volume
RRC_UL_VOL
8012: LTE Cell Throughput
RRC DL volume
RRC_DL_VOL
8012: LTE Cell Throughput
RLC SDU UL-DTCH volume
RLC_SDU_VOL_UL_DTCH
8012: LTE Cell Throughput
RLC SDU DL-DTCH volume
RLC_SDU_VOL_DL_DTCH
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS21
TB_VOL_PDSCH_MCS21
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS22
TB_VOL_PDSCH_MCS22
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS23
TB_VOL_PDSCH_MCS23
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS24
TB_VOL_PDSCH_MCS24
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS25
TB_VOL_PDSCH_MCS25
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS26
TB_VOL_PDSCH_MCS26
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS27
TB_VOL_PDSCH_MCS27
8012: LTE Cell Throughput
MAC PDU volume PDSCH MCS28
TB_VOL_PDSCH_MCS28
8012: LTE Cell Throughput
Number of TTIs in UL with at least one UE scheduled to transmit user plane data.
ACTIVE_TTI_UL
8012: LTE Cell Throughput
Number of TTIs in DL with at least one UE scheduled to receive user plane data.
ACTIVE_TTI_DL
8012: LTE Cell Throughput
IP Throughput volume in UL for QCI 1
IP_TPUT_VOL_UL_QCI_1
8012: LTE Cell Throughput
IP Throughput time in UL for QCI IP_TPUT_TIME_UL_QCI_1 1
8012: LTE Cell Throughput
IP Throughput volume in UL for QCI 2
8012: LTE Cell Throughput
IP Throughput time in UL for QCI IP_TPUT_TIME_UL_QCI_2 2
8012: LTE Cell Throughput
IP Throughput volume in UL for QCI 3
8012: LTE Cell Throughput
IP Throughput time in UL for QCI IP_TPUT_TIME_UL_QCI_3 3
IP_TPUT_VOL_UL_QCI_2
IP_TPUT_VOL_UL_QCI_3
8012: LTE Cell Throughput
IP Throughput volume in UL for QCI 4
IP_TPUT_VOL_UL_QCI_4
8012: LTE Cell Throughput
IP Throughput time in UL for QCI IP_TPUT_TIME_UL_QCI_4 4
8012: LTE Cell Throughput
IP Throughput volume in UL for QCI 5
8012: LTE Cell Throughput
IP Throughput time in UL for QCI IP_TPUT_TIME_UL_QCI_5 5
8012: LTE Cell Throughput
IP Throughput volume in UL for QCI 6
8012: LTE Cell Throughput
IP Throughput time in UL for QCI IP_TPUT_TIME_UL_QCI_6 6
8012: LTE Cell Throughput
IP Throughput volume in UL for QCI 7
8012: LTE Cell Throughput
IP Throughput time in UL for QCI IP_TPUT_TIME_UL_QCI_7 7
8012: LTE Cell Throughput
IP Throughput volume in UL for QCI 8
8012: LTE Cell Throughput
IP Throughput time in UL for QCI IP_TPUT_TIME_UL_QCI_8 8
8012: LTE Cell Throughput
IP Throughput volume in UL for QCI 9
8012: LTE Cell Throughput
IP Throughput time in UL for QCI IP_TPUT_TIME_UL_QCI_9 9
IP_TPUT_VOL_UL_QCI_5
IP_TPUT_VOL_UL_QCI_6
IP_TPUT_VOL_UL_QCI_7
IP_TPUT_VOL_UL_QCI_8
IP_TPUT_VOL_UL_QCI_9
8012: LTE Cell Throughput
PDCP UL throughput Mean for QCI 1
PDCP_DATA_RATE_MEAN_UL _QCI_1
8012: LTE Cell Throughput
IP Throughput volume in DL for QCI 1
IP_TPUT_VOL_DL_QCI_1
8012: LTE Cell Throughput
IP Throughput time in DL for QCI IP_TPUT_TIME_DL_QCI_1 1
8012: LTE Cell Throughput
IP Throughput volume in DL for QCI 2
8012: LTE Cell Throughput
IP Throughput time in DL for QCI IP_TPUT_TIME_DL_QCI_2 2
8012: LTE Cell Throughput
IP Throughput volume in DL for QCI 3
8012: LTE Cell Throughput
IP Throughput time in DL for QCI IP_TPUT_TIME_DL_QCI_3 3
8012: LTE Cell Throughput
IP Throughput volume in DL for QCI 4
8012: LTE Cell Throughput
IP Throughput time in DL for QCI IP_TPUT_TIME_DL_QCI_4 4
8012: LTE Cell Throughput
IP Throughput volume in DL for QCI 5
8012: LTE Cell Throughput
IP Throughput time in DL for QCI IP_TPUT_TIME_DL_QCI_5 5
8012: LTE Cell Throughput
IP Throughput volume in DL for QCI 6
IP_TPUT_VOL_DL_QCI_2
IP_TPUT_VOL_DL_QCI_3
IP_TPUT_VOL_DL_QCI_4
IP_TPUT_VOL_DL_QCI_5
IP_TPUT_VOL_DL_QCI_6
8012: LTE Cell Throughput
IP Throughput time in DL for QCI IP_TPUT_TIME_DL_QCI_6 6
8012: LTE Cell Throughput
IP Throughput volume in DL for QCI 7
8012: LTE Cell Throughput
IP Throughput time in DL for QCI IP_TPUT_TIME_DL_QCI_7 7
8012: LTE Cell Throughput
IP Throughput volume in DL for QCI 8
8012: LTE Cell Throughput
IP Throughput time in DL for QCI IP_TPUT_TIME_DL_QCI_8 8
8012: LTE Cell Throughput
IP Throughput volume in DL for QCI 9
8012: LTE Cell Throughput
IP Throughput time in DL for QCI IP_TPUT_TIME_DL_QCI_9 9
8012: LTE Cell Throughput
PDCP DL throughput Mean for QCI 1
PDCP_DATA_RATE_MEAN_DL _QCI_1
8012: LTE Cell Throughput
MAC PDU volume PUSCH MCS21
TB_VOL_PUSCH_MCS21
8012: LTE Cell Throughput
MAC PDU volume PUSCH MCS22
TB_VOL_PUSCH_MCS22
8012: LTE Cell Throughput
MAC PDU volume PUSCH MCS23
TB_VOL_PUSCH_MCS23
8012: LTE Cell Throughput
MAC PDU volume PUSCH MCS24
TB_VOL_PUSCH_MCS24
IP_TPUT_VOL_DL_QCI_7
IP_TPUT_VOL_DL_QCI_8
IP_TPUT_VOL_DL_QCI_9
8012: LTE Cell Throughput
PCell RLC data volume in DL via RLC_PDU_DL_VOL_CA_SCEL SCell L
8012: LTE Cell Throughput
IP Throughput net time in UL for QCI 1
IP_TPUT_NET_TIME_UL_QCI1
8012: LTE Cell Throughput
IP Throughput net time in UL for QCI 2
IP_TPUT_NET_TIME_UL_QCI2
8012: LTE Cell Throughput
IP Throughput net time in UL for QCI 3
IP_TPUT_NET_TIME_UL_QCI3
8012: LTE Cell Throughput
IP Throughput net time in UL for QCI 4
IP_TPUT_NET_TIME_UL_QCI4
8012: LTE Cell Throughput
IP Throughput net time in UL for QCI 5
IP_TPUT_NET_TIME_UL_QCI5
8012: LTE Cell Throughput
IP Throughput net time in UL for QCI 6
IP_TPUT_NET_TIME_UL_QCI6
8012: LTE Cell Throughput
IP Throughput net time in UL for QCI 7
IP_TPUT_NET_TIME_UL_QCI7
8012: LTE Cell Throughput
IP Throughput net time in UL for QCI 8
IP_TPUT_NET_TIME_UL_QCI8
8012: LTE Cell Throughput
IP Throughput net time in UL for QCI 9
IP_TPUT_NET_TIME_UL_QCI9
8012: LTE Cell Throughput
IP Throughput net time in DL for QCI 1
IP_TPUT_NET_TIME_DL_QCI1
8012: LTE Cell Throughput
IP Throughput net time in DL for QCI 2
IP_TPUT_NET_TIME_DL_QCI2
8012: LTE Cell Throughput
IP Throughput net time in DL for QCI 3
IP_TPUT_NET_TIME_DL_QCI3
8012: LTE Cell Throughput
IP Throughput net time in DL for QCI 4
IP_TPUT_NET_TIME_DL_QCI4
8012: LTE Cell Throughput
IP Throughput net time in DL for QCI 5
IP_TPUT_NET_TIME_DL_QCI5
8012: LTE Cell Throughput
IP Throughput net time in DL for QCI 6
IP_TPUT_NET_TIME_DL_QCI6
8012: LTE Cell Throughput
IP Throughput net time in DL for QCI 7
IP_TPUT_NET_TIME_DL_QCI7
8012: LTE Cell Throughput
IP Throughput net time in DL for QCI 8
IP_TPUT_NET_TIME_DL_QCI8
8012: LTE Cell Throughput
IP Throughput net time in DL for QCI 9
IP_TPUT_NET_TIME_DL_QCI9
8013: LTE UE State
Signaling Connection Establishment completions
SIGN_CONN_ESTAB_COMP
8013: LTE UE State
Signaling Connection SIGN_EST_F_RRCCOMPL_MI Establishment failures due to SSING RRC Setup completions missing
8013: LTE UE State
Signaling Connection Establishment failures due to RRC Setup completions error
8013: LTE UE State
EPC initiated transitions to ECM- EPC_INIT_TO_IDLE_UE_NOR IDLE due to Normal release by M_REL UE
8013: LTE UE State
EPC initiated transitions to ECM- EPC_INIT_TO_IDLE_DETACH IDLE due to Detach procedure by UE or MME
SIGN_EST_F_RRCCOMPL_ER ROR
8013: LTE UE State
EPC initiated transitions to ECM- EPC_INIT_TO_IDLE_RNL IDLE due to Radio Network Layer cause
8013: LTE UE State
EPC initiated transitions to ECM- EPC_INIT_TO_IDLE_OTHER IDLE due to Other causes
8013: LTE UE State
eNB initiated transitions to ECM- ENB_INIT_TO_IDLE_NORM_R IDLE due to Normal release EL
8013: LTE UE State
eNB initiated transitions to ECM- ENB_INIT_TO_IDLE_RNL IDLE due to Radio Network Layer cause
8013: LTE UE State
eNB initiated transitions to ECM- ENB_INIT_TO_IDLE_OTHER IDLE due to Other causes
8013: LTE UE State
Signaling Connection Establishment attempts due to MO-Signaling
SIGN_CONN_ESTAB_ATT_MO _S
8013: LTE UE State
Signaling Connection Establishment attempts due to MT-Access
SIGN_CONN_ESTAB_ATT_MT
8013: LTE UE State
Signaling Connection Establishment attempts due to MO-Data
SIGN_CONN_ESTAB_ATT_MO _D
8013: LTE UE State
Number of Signaling Connection SIGN_CONN_ESTAB_ATT_EM Establishment attempts for G emergency calls
8013: LTE UE State
Subframes of DRX Active UE
SUBFRAME_DRX_ACTIVE_UE
8013: LTE UE State
Subframes of DRX Sleep UE
SUBFRAME_DRX_SLEEP_UE
8013: LTE UE State
Signaling Connection Establishment completions for emergency calls
SIGN_CONN_ESTAB_COMP_ EMG
8013: LTE UE State
Signaling Connection Establishment failures for emergency calls due to missing RB resources
SIGN_CONN_ESTAB_FAIL_RB _EMG
8013: LTE UE State
Pre-empted UE contexts due to pre-emption of last non-GBR bearer
PRE_EMPT_UE_CONTEXT_N ON_GBR
8013: LTE UE State
Number of rejected RRC Connection Establishment Requests for non-emergency access
SIGN_CONN_ESTAB_REJ_NE MG
8013: LTE UE State
Number of rejected RRC SIGN_CONN_ESTAB_REJ_EM Connection Establishment G Requests for emergency access
8013: LTE UE State
Signaling Connection Establishment attempts for high priority calls
SIGN_CONN_ESTAB_ATT_HIP RIO
8013: LTE UE State
Signaling Connection Establishment completions for high priority calls
SIGN_CONN_ESTAB_SUCC_H IPRIO
8013: LTE UE State
Number of rejected Signaling Connection Establishment Requests for high priority calls
SIGN_CONN_ESTAB_REJ_HIP RIO
8013: LTE UE State
Signaling Connection SIGN_CONN_ESTAB_ATT_DE Establishment attempts for delay L_TOL tolerant access
8013: LTE UE State
Signaling Connection Establishment completions for mobile originating signaling
SIGN_CONN_ESTAB_SUCC_ MO_S
8013: LTE UE State
Signaling Connection Establishment completions for mobile originating calls
SIGN_CONN_ESTAB_SUCC_ MO_D
8013: LTE UE State
Signaling Connection Establishment completions for mobile terminating access
SIGN_CONN_ESTAB_SUCC_ MT
8013: LTE UE State
Signaling Connection Establishment completions for delay tolerant access
SIGN_CONN_ESTAB_SUCC_D EL_TOL
8013: LTE UE State
Number of rejected Signaling Connection Establishment Requests for mobile originating signaling
SIGN_CONN_ESTAB_REJ_MO _S
8013: LTE UE State
Number of rejected Signaling Connection Establishment Requests for mobile originating calls
SIGN_CONN_ESTAB_REJ_MO _D
8013: LTE UE State
Number of rejected Signaling Connection Establishment Requests for mobile terminating access
SIGN_CONN_ESTAB_REJ_MT
8013: LTE UE State
Number of rejected Signaling Connection Establishment Requests for delay tolerant access
SIGN_CONN_ESTAB_REJ_DE L_TOL
8013: LTE UE State
S1 Signaling Connection Establishment attempts per UE
S1_SIGN_CONN_ESTAB_ATT_ UE
8013: LTE UE State
S1 Signaling Connection Establishment completions per UE
S1_SIGN_CONN_ESTAB_SUC C_UE
8013: LTE UE State
Setup attempts for UE Context
UE_CTX_SETUP_ATT
8013: LTE UE State
Setup attempts for UE Context being subject to CS Fallback
UE_CTX_SETUP_ATT_CSFB
8013: LTE UE State
Successfully established UE Contexts
UE_CTX_SETUP_SUCC
8013: LTE UE State
Successfully established UE Contexts being subject to CS Fallback
UE_CTX_SETUP_SUCC_CSFB
8013: LTE UE State
Failed UE Context Setup due to failed radio interface procedure
UE_CTX_SETUP_FAIL_RADIO _INT
8013: LTE UE State
Modification attempts for UE Context
UE_CTX_MOD_ATT
8013: LTE UE State
Modification attempts for UE Context being subject to CS Fallback
UE_CTX_MOD_ATT_CSFB
8013: LTE UE State
Successful Modifications of UE Contexts
UE_CTX_MOD_SUCC
8013: LTE UE State
Successful Modifications of UE Contexts being subject to CS Fallback
UE_CTX_MOD_SUCC_CSFB
8013: LTE UE State
sum of eNB initiated UE Context UE_CTX_REL_ENB releases
8013: LTE UE State
eNB initiated UE Context UE_CTX_REL_ENB_USER_IN releases with radio network layer A cause "User Inactivity"
8013: LTE UE State
eNB initiated UE Context UE_CTX_REL_ENB_CONN_LO releases with radio network layer SS cause "Radio Connection With UE Lost"
8013: LTE UE State
eNB initiated UE Context UE_CTX_REL_ENB_RADIO_IN releases with radio network layer T cause "Failure in the Radio Interface Procedure"
8013: LTE UE State
eNB initiated UE Context UE_CTX_REL_ENB_EUTRAN_ releases with radio network layer REAS cause "Release due to E-UTRAN generated reason"
8013: LTE UE State
eNB initiated UE Context UE_CTX_REL_ENB_NO_RADI releases with radio network layer O_RES cause "Radio resources not available"
8013: LTE UE State
eNB initiated UE Context UE_CTX_REL_ENB_RNL_UNS releases with radio network layer PEC cause "Unspecified"
8013: LTE UE State
eNB initiated UE Context releases due to the expiration of Handover guarding timer
UE_CTX_REL_ENB_TIMER_H O
8013: LTE UE State
Successfully established UE Contexts (for Release 11+ UEs)
UE_CTX_SETUP_SUCC_REL1 1H_UE
8013: LTE UE State
Number of Signaling Connection SIGN_CONN_ESTAB_FAIL_OV Establishment Requests rejected LCP due to Control Plane overload
8013: LTE UE State
Number of Signaling Connection SIGN_CONN_ESTAB_FAIL_OV Establishment Requests rejected LUP due to User Plane overload
8013: LTE UE State
Number of Signaling Connection SIGN_CONN_ESTAB_FAIL_PU Establishment Requests rejected CCH due to lack of PUCCH resources
8013: LTE UE State
Number of Signaling Connection SIGN_CONN_ESTAB_FAIL_MA Establishment Requests rejected XRRC due to threshold for the maximum number of RRC connections Number of Signaling Connection SIGN_CONN_ESTAB_FAIL_OV Establishment Requests rejected LMME due to MME overload
8013: LTE UE State
8014: LTE Inter eNB Handover
Inter eNB Handover preparations INTER_ENB_HO_PREP
8014: LTE Inter eNB Handover
Failed Inter eNB Handover preparations due to timer
FAIL_ENB_HO_PREP_TIME
8014: LTE Inter eNB Handover
Failed Inter eNB Handover preparations due to target eNB admission control
FAIL_ENB_HO_PREP_AC
8014: LTE Inter eNB Handover
Failed Inter-eNB Handover preparations caused by other reasons
FAIL_ENB_HO_PREP_OTHER
8014: LTE Inter eNB Handover
Attempted inter eNB HO
ATT_INTER_ENB_HO
8014: LTE Inter eNB Handover
Successful inter eNB HO
SUCC_INTER_ENB_HO
8014: LTE Inter eNB Handover
Number of Inter eNB Handover failures
INTER_ENB_HO_FAIL
8014: LTE Inter eNB Handover
Inter eNB S1-Handover preparations
INTER_ENB_S1_HO_PREP
8014: LTE Inter eNB Handover
Failed Inter eNB S1-Handover preparations due to timer
INTER_S1_HO_PREP_FAIL_TI ME
8014: LTE Inter eNB Handover
Failed Inter eNB S1-Handover preparations due to target eNB admission control
INTER_S1_HO_PREP_FAIL_N ORR
8014: LTE Inter eNB Handover
Failed Inter-eNB S1-Handover preparations caused by other reasons
INTER_S1_HO_PREP_FAIL_O THER
8014: LTE Inter eNB Handover
Attempted inter eNB S1-HO
INTER_ENB_S1_HO_ATT
8014: LTE Inter eNB Handover
Successful inter eNB S1-HO
INTER_ENB_S1_HO_SUCC
8014: LTE Inter eNB Handover
Inter eNB S1-HO failures due to timer
INTER_ENB_S1_HO_FAIL
8014: LTE Inter eNB Handover
Number of dynamic handover blacklisting occurrences
HO_DYN_BLACKLIST
8015: LTE Neighbor cell related Handover
Failed Intra eNB HO preparations INTRA_HO_PREP_FAIL_NB per neighbor cell
8015: LTE Neighbor cell related Handover
Intra eNB HO attempts per neighbor cell
INTRA_HO_ATT_NB
8015: LTE Neighbor cell related Handover
Intra eNB HO successes per neighbor cell
INTRA_HO_SUCC_NB
8015: LTE Neighbor cell related Handover
Number of failed Inter eNB Handover preparations per neighbor cell relationship
INTER_HO_PREP_FAIL_OTH_ NB
8015: LTE Neighbor cell related Handover
Failed Inter eNB Handover preparations per neighbor cell due to expiration of guarding timer
INTER_HO_PREP_FAIL_TIME_ NB
8015: LTE Neighbor cell related Handover
Failed Inter eNB Handover preparations per neighbor cell due to admission control in the target eNB
INTER_HO_PREP_FAIL_AC_N B
8015: LTE Neighbor cell related Handover
Number of Inter eNB Handover attempts per neighbor cell relationship
INTER_HO_ATT_NB
8015: LTE Neighbor cell related Handover
Number of successful Inter eNB INTER_HO_SUCC_NB Handover completions per neighbor cell relationship
8015: LTE Neighbor cell related Handover
Number of Inter eNB Handover failures per cause per neighbor cell relationship
INTER_HO_FAIL_NB
8015: LTE Neighbor cell related Handover
Intra eNB HO failures due to timer per neighbor cell
INTRA_HO_FAIL_NB
8015: LTE Neighbor cell related Handover
Number of Late Handover per neighbor cell relationship
MRO_LATE_HO_NB
8015: LTE Neighbor cell related Handover
Number of Early Handover Type1 MRO_EARLY_TYPE1_HO_NB per neighbor cell relationship
8015: LTE Neighbor cell related Handover
Number of Early Handover Type2 MRO_EARLY_TYPE2_HO_NB per neighbor cell relationship
8015: LTE Neighbor cell related Handover
Number of Ping Pong Handover per neighbor cell relationship
8015: LTE Neighbor cell related Handover
Number of inter-frequency load HO_LB_IF_ATT_NB balancing handover attempts per neighbor cell relationship
8015: LTE Neighbor cell related Handover
Number of successful interfrequency load balancing handover completions per neighbor cell relationship
MRO_PING_PONG_HO_NB
HO_LB_IF_SUCC_NB
8016: LTE Inter System Handover
CS Fallback attempts via RRC Connection Release
CSFB_REDIR_CR_ATT
8016: LTE Inter System Handover
CS Fallback attempts (UE in Connected Mode) via RRC Connection Release
CSFB_REDIR_CR_CMODE_AT T
8016: LTE Inter System Handover
CS Fallback attempts for emergency call reason via RRC Connection Release
CSFB_REDIR_CR_EMERGEN CY_ATT
8016: LTE Inter System Handover
Inter System Handover preparations
ISYS_HO_PREP
8016: LTE Inter System Handover
Failed Inter System Handover preparations due to timer
ISYS_HO_PREP_FAIL_TIM
8016: LTE Inter System Handover
Failed Inter System Handover preparations due to admission control
ISYS_HO_PREP_FAIL_AC
8016: LTE Inter System Handover
Failed Inter-System Handover preparations caused by other reasons
ISYS_HO_PREP_FAIL_OTH
8016: LTE Inter System Handover
PS-HO attempts to UTRAN
ISYS_HO_ATT
8016: LTE Inter System Handover
Successful PS-HO attempts to UTRAN
ISYS_HO_SUCC
8016: LTE Inter System Handover
Failed PS-HO attempts to UTRAN
ISYS_HO_FAIL
8016: LTE Inter System Handover
Number of NACC from LTE to GSM attempts
NACC_TO_GSM_ATT
8016: LTE Inter System Handover
Inter System Handover attempts ISYS_HO_UTRAN_SRVCC_AT to UTRAN with SRVCC T
8016: LTE Inter System Handover
Successful Inter System ISYS_HO_UTRAN_SRVCC_SU Handover completions to UTRAN CC with SRVCC
8016: LTE Inter System Handover
Failed Inter System Handover ISYS_HO_UTRAN_SRVCC_FAI attempts to UTRAN with SRVCC L
8016: LTE Inter System Handover
CS Fallback attempts to UTRAN CSFB_PSHO_UTRAN_ATT with PS Handover
8016: LTE Inter System Handover
Inter System Handover attempts ISYS_HO_GERAN_SRVCC_AT to GERAN with SRVCC T
8016: LTE Inter System Handover
Successful Inter System Handover completions to GERAN with SRVCC
8016: LTE Inter System Handover
Failed Inter System Handover ISYS_HO_GERAN_SRVCC_FA attempts to GERAN with SRVCC IL
8016: LTE Inter System Handover
Inter System Handover preparations to 1xRTT with SRVCC
SRVCC_1xRTT_PREP
8016: LTE Inter System Handover
SRVCC_1xRTT_PREP_FAIL1
8016: LTE Inter System Handover
Failed Inter System Handover preparations to 1xRTT with SRVCC due to expiration of guarding timer TUlHoPrepTransfer1xSrvcc Failed Inter System Handover
8016: LTE Inter System Handover
preparations to 1xRTT with SRVCC due to expiration of guarding timer TC2KRelocPrep1xSrvcc Failed Inter System Handover
ISYS_HO_GERAN_SRVCC_SU CC
SRVCC_1xRTT_PREP_FAIL2
SRVCC_1xRTT_PREP_FAIL3
preparations to 1xRTT with SRVCC due to received HO Failure indication message 8016: LTE Inter System Handover
Successful Inter System SRVCC_1xRTT_PREP_SUCC Handover preparations to 1xRTT with SRVCC
8016: LTE Inter System Handover
Inter System Handover attempts SRVCC_1xRTT_ATT to 1xRTT with SRVCC
8016: LTE Inter System Handover
UE context release due to Inter SRVCC_1xRTT_UE_CONTEXT System Handover to 1xRTT with _REL SRVCC
8016: LTE Inter System Handover
Inter System load balancing handover attempts to UTRAN
8016: LTE Inter System Handover
Successful Inter System load ISYS_HO_UTRAN_LB_SUCC balancing handover completions to UTRAN
8016: LTE Inter System Handover
CS Fallback 1xRTT Parameter requests
CSFB_1xRTT_PARAM_REQ
8016: LTE Inter System Handover
CS Fallback 1xRTT Parameter responses
CSFB_1xRTT_PARAM_RESP
8016: LTE Inter System Handover
CS Fallback preparations to 1xRTT
CSFB_1xRTT_PREP
8016: LTE Inter System Handover
CS Fallback UL Handover Preparation Transfers to 1xRTT
CSFB_1xRTT_UL_HO_PREP_ TRANS
8016: LTE Inter System Handover
Failed CS Fallback preparations to 1xRTT due to received HO Failure indication message
CSFB_1xRTT_PREP_FAIL_HO
8017: LTE Inter System Handover to UTRAN per Neighbor Cell
Failed Inter System Handover preparations to UTRAN due to expiration of guarding timer per neighbor cell relationship
ISYS_HO_UTRAN_PREP_FAIL _TIM_NB
8017: LTE Inter System Handover to UTRAN per Neighbor Cell
Failed Inter System Handover preparations to UTRAN due to admission control in target cell per neighbor cell relationship
ISYS_HO_UTRAN_PREP_FAIL _AC_NB
8017: LTE Inter System Handover to UTRAN per Neighbor Cell
Failed Inter System Handover preparations to UTRAN due to other reasons in target cell per neighbor cell relationship
ISYS_HO_UTRAN_PREP_FAIL _OTH_NB
8017: LTE Inter System Handover to UTRAN per Neighbor Cell
PS-HO attempts to UTRAN per neighbor cell relationship
ISYS_HO_UTRAN_ATT_NB
ISYS_HO_UTRAN_LB_ATT
8017: LTE Inter System Handover to UTRAN per Neighbor Cell
Successful PS-HO completions to UTRAN per neighbor cell relationship
ISYS_HO_UTRAN_SUCC_NB
8017: LTE Inter System Handover to UTRAN per Neighbor Cell
Failed PS-HO attempts to UTRAN per neighbor cell relationship
ISYS_HO_UTRAN_FAIL_NB
8017: LTE Inter System Handover to UTRAN per Neighbor Cell
Inter System Handover preparations per neighbor cell relationship
ISYS_HO_UTRAN_PREP_NB
8017: LTE Inter System Handover to UTRAN per Neighbor Cell
Inter System Handover attempts ISYS_HO_UTRAN_SRVCC_AT to UTRAN with SRVCC per T_NB neighbor cell relationship
8017: LTE Inter System Handover to UTRAN per Neighbor Cell
Successful Inter System ISYS_HO_UTRAN_SRVCC_SU Handover completions to UTRAN CC_NB with SRVCC per neighbor cell relationship
8017: LTE Inter System Handover to UTRAN per Neighbor Cell
Failed Inter System Handover ISYS_HO_UTRAN_SRVCC_FAI attempts to UTRAN with SRVCC L_NB per neighbor cell relationship
8018: LTE eNB Load
Active UE per eNB average
ENB_LOAD_ACT_UE_AVG
8018: LTE eNB Load
Active UE per eNB max
ENB_LOAD_ACT_UE_MAX
8018: LTE eNB Load
UE Contexts released due to S1 UE_CONT_REL_INIT_ENB Reset messages (partial and global) initiated by the eNB
8018: LTE eNB Load
Active UE Contexts released due ACT_UE_CONT_REL_INIT_EN to S1 Reset messages (partial B and global) initiated by the eNB
8018: LTE eNB Load
UE Contexts released due to S1 UE_CONT_REL_INIT_MME Reset messages (partial and global) initiated by MME
8018: LTE eNB Load
Active UE Contexts released due ACT_UE_CONT_REL_INIT_M to S1 Reset messages (partial ME and global) initiated by MME
8018: LTE eNB Load
Sum of Active UEs per eNB
SUM_ACTIVE_UE_ENB
8018: LTE eNB Load
Denominator for Active UEs per eNB
DENOM_ACTIVE_UE_ENB
8019: LTE Inter System Handover to GSM per Neighbor Cell
Number of NACC from LTE to GSM attempts per neighbor cell relationship
NACC_TO_GSM_ATT_NB
8019: LTE Inter System Handover to GSM per Neighbor Cell
Inter System Handover attempts ISYS_HO_GERAN_SRVCC_AT to GERAN with SRVCC per T_NB neighbor cell relationship
8019: LTE Inter System Handover to GSM per Neighbor Cell
Successful Inter System Handover completions to GERAN with SRVCC per neighbor cell relationship
8019: LTE Inter System Handover to GSM per Neighbor Cell
Failed Inter System Handover ISYS_HO_GERAN_SRVCC_FA attempts to GERAN with SRVCC IL_NB per neighbor cell relationship
8020: LTE Cell Availability
Number of cell state changes to "cell is available"
CHNG_TO_CELL_AVAIL
8020: LTE Cell Availability
Number of cell state changes to planned unavailable
CHNG_TO_CELL_PLAN_UNAV AIL
8020: LTE Cell Availability
Number of cell state changes to unplanned unavailable
CHNG_TO_CELL_UNPLAN_U NAVAIL
8020: LTE Cell Availability
Samples when the cell is available
SAMPLES_CELL_AVAIL
8020: LTE Cell Availability
Samples when the cell is planned unavailable
SAMPLES_CELL_PLAN_UNAV AIL
8020: LTE Cell Availability
Samples when the cell is unplanned unavailable
SAMPLES_CELL_UNPLAN_UN AVAIL
ISYS_HO_GERAN_SRVCC_SU CC_NB
8020: LTE Cell Availability
Cell availability denominator
DENOM_CELL_AVAIL
8020: LTE Cell Availability
Samples when the cell is in power saving mode
SAMPLES_CELL_POWER_SA VING
8020: LTE Cell Availability
Number of cell state changes to power saving mode
CHNG_TO_CELL_POWER_SA VING
8021: LTE Handover
Number of inter frequency Handover attempts
HO_INTFREQ_ATT
8021: LTE Handover
Number of inter frequency Handover attempts (measurement gap assisted)
HO_INTFREQ_GAP_ATT
8021: LTE Handover
Number of successful interHO_INTFREQ_SUCC frequency Handover completions
8021: LTE Handover
Number of successful interHO_INTFREQ_GAP_SUCC frequency Handover completions (measurement gap assisted)
8021: LTE Handover
Number of Handover failures per HO_INTFREQ_FAIL cause
8021: LTE Handover
Number of Handover failures per HO_INTFREQ_GAP_FAIL cause with measurement gap assisted
8021: LTE Handover
Handover preparations for IMS emergency sessions
HO_EMG_PREP
8021: LTE Handover
Number of service based handover attempts
HO_SB_ATT
8021: LTE Handover
Number of successful service based handover completions
HO_SB_SUCC
8021: LTE Handover
Failed Handover preparations for HO_EMG_PREP_FAIL IMS emergency sessions
8021: LTE Handover
Handover attempts for IMS emergency sessions
HO_EMG_ATT
8021: LTE Handover
Successful Handover completions for IMS emergency sessions
HO_EMG_SUCC
8021: LTE Handover
Number of Handover attempts for UEs running in DRX mode
HO_DRX_ATT
8021: LTE Handover
Number of Handover completions for UEs running in DRX mode
HO_DRX_SUCC
8021: LTE Handover
Number of Late Handover
MRO_LATE_HO
8021: LTE Handover
Number of Early Handover Type1 MRO_EARLY_TYPE1_HO
8021: LTE Handover
Number of Early Handover Type2 MRO_EARLY_TYPE2_HO
8021: LTE Handover
Number of load balancing Handover attempts
8021: LTE Handover
Number of successful load HO_LB_SUCC balancing Handover completions
8021: LTE Handover
Incoming handover preparation attempts
HO_PREP_IN_ATT
8021: LTE Handover
Incoming handover preparation attempts (Time Critical Handover)
HO_PREP_IN_ATT_TC
HO_LB_ATT
8021: LTE Handover
Incoming handover preparation HO_PREP_IN_ATT_RR attempts (Handover desirable for Radio Reasons)
8021: LTE Handover
Incoming handover preparation attempts (Handover to Reduce Load in serving cell)
8021: LTE Handover
Incoming handover preparation HO_PREP_IN_ATT_RO attempts (Resource Optimization Handover)
8021: LTE Handover
Successful incoming handover preparations
HO_PREP_IN_SUCC
8021: LTE Handover
Successful incoming handover preparations (Time Critical Handover)
HO_PREP_IN_SUCC_TC
8021: LTE Handover
Successful incoming handover HO_PREP_IN_SUCC_RR preparations (Handover desirable for Radio Reasons)
8021: LTE Handover
Successful incoming handover preparations (Handover to Reduce Load in serving cell)
HO_PREP_IN_SUCC_RL
8021: LTE Handover
Successful incoming handover preparations (Resource Optimization Handover)
HO_PREP_IN_SUCC_RO
8021: LTE Handover
Incoming handover preparation failures (Radio Resources)
HO_PREP_IN_FAIL_RAC
8021: LTE Handover
Incoming handover preparation failures (Transport Resources)
HO_PREP_IN_FAIL_TAC
8021: LTE Handover
Inter-frequency handover attempts for UEs with QCI1 (A3/A5 radio related handovers only)
HO_INTFREQ_QCI1_RR_A3A5 _ATT
8021: LTE Handover
Successful inter-frequency handover completions for UEs with QCI1 (A3/A5 radio related handovers only)
HO_INTFREQ_QCI1_RR_A3A5 _SUCC
HO_PREP_IN_ATT_RL
8022: LTE X2AP
Number of X2 Setup attempts
X2_SETUP_ATT
8022: LTE X2AP
Number of failed X2 Setup attempts
X2_SETUP_FAIL
8023: LTE UE and Service Differentiation
PDCP SDU data volume on eUu PDCP_SDU_DATA_VOL_UL_Q Interface UL for UEs assigned to CI_1 QCI Counter Group 1
8023: LTE UE and Service Differentiation
PDCP SDU data volume on eUu PDCP_SDU_DATA_VOL_UL_Q Interface UL for UEs assigned to CI_2 QCI Counter Group 2
8023: LTE UE and Service Differentiation
PDCP SDU data volume on eUu PDCP_SDU_DATA_VOL_UL_Q Interface UL for UEs assigned to CI_3 QCI Counter Group 3
8023: LTE UE and Service Differentiation
PDCP SDU data volume on eUu PDCP_SDU_DATA_VOL_UL_Q Interface UL for UEs assigned to CI_4 QCI Counter Group 4
8023: LTE UE and Service Differentiation
PDCP SDU data volume on eUu PDCP_SDU_DATA_VOL_UL_Q Interface UL for UEs assigned to CI_5 QCI Counter Group 5
8023: LTE UE and Service Differentiation
PDCP SDU data volume on eUu PDCP_SDU_DATA_VOL_UL_Q Interface UL for UEs assigned to CI_6 QCI Counter Group 6
8023: LTE UE and Service Differentiation
PDCP SDU data volume on eUu PDCP_SDU_DATA_VOL_DL_Q Interface DL for UEs assigned to CI_1 QCI Counter Group 1
8023: LTE UE and Service Differentiation
PDCP SDU data volume on eUu PDCP_SDU_DATA_VOL_DL_Q Interface DL for UEs assigned to CI_2 QCI Counter Group 2
8023: LTE UE and Service Differentiation
PDCP SDU data volume on eUu PDCP_SDU_DATA_VOL_DL_Q Interface DL for UEs assigned to CI_3 QCI Counter Group 3
8023: LTE UE and Service Differentiation
PDCP SDU data volume on eUu PDCP_SDU_DATA_VOL_DL_Q Interface DL for UEs assigned to CI_4 QCI Counter Group 4
8023: LTE UE and Service Differentiation
PDCP SDU data volume on eUu PDCP_SDU_DATA_VOL_DL_Q Interface DL for UEs assigned to CI_5 QCI Counter Group 5
8023: LTE UE and Service Differentiation
PDCP SDU data volume on eUu PDCP_SDU_DATA_VOL_DL_Q Interface DL for UEs assigned to CI_6 QCI Counter Group 6
8023: LTE UE and Service Differentiation
Average Number of active UE of AVG_ACT_UE_PROFILE_1 Mobility Profile 1
8023: LTE UE and Service Differentiation
Average Number of active UE of AVG_ACT_UE_PROFILE_2 Mobility Profile 2
8023: LTE UE and Service Differentiation
Average Number of active UE of AVG_ACT_UE_PROFILE_3 Mobility Profile 3
8023: LTE UE and Service Differentiation
Average Number of active UE of AVG_ACT_UE_PROFILE_4 Mobility Profile 4
8023: LTE UE and Service Differentiation
Average Number of active UE of AVG_ACT_UE_PROFILE_5 Mobility Profile 5
8023: LTE UE and Service Differentiation
Average Number of active UE of AVG_ACT_UE_PROFILE_6 Mobility Profile 6
8023: LTE UE and Service Differentiation
Average Number of active UE of AVG_ACT_UE_PROFILE_7 Mobility Profile 7
8023: LTE UE and Service Differentiation
Average Number of active UE of AVG_ACT_UE_PROFILE_8 Mobility Profile 8
8023: LTE UE and Service Differentiation
Average Number of active UE of AVG_ACT_UE_PROFILE_DEF Default Mobility Profile AULT
8023: LTE UE and Service Differentiation
Average number of active UEs of AVG_NUM_ACT_UE_QCI_GRP QCI Counter Group 1 1
8023: LTE UE and Service Differentiation
Average number of active UEs of AVG_NUM_ACT_UE_QCI_GRP QCI Counter Group 2 2
8023: LTE UE and Service Differentiation
Average number of active UEs of AVG_NUM_ACT_UE_QCI_GRP QCI Counter Group 3 3
8023: LTE UE and Service Differentiation
Average number of active UEs of AVG_NUM_ACT_UE_QCI_GRP QCI Counter Group 4 4
8023: LTE UE and Service Differentiation
Average number of active UEs of AVG_NUM_ACT_UE_QCI_GRP QCI Counter Group 5 5
8023: LTE UE and Service Differentiation
Average number of active UEs of AVG_NUM_ACT_UE_QCI_GRP QCI Counter Group 6 6
8023: LTE UE and Service Differentiation
Number of QCI Counter Group mismatch
8023: LTE UE and Service Differentiation
Average number of active UEs of AVG_ACT_UE_PROFILE_9 Mobility Profile 9
8023: LTE UE and Service Differentiation
Average number of active UEs of AVG_ACT_UE_PROFILE_10 Mobility Profile 10
8023: LTE UE and Service Differentiation
Average number of active UEs of AVG_ACT_UE_PROFILE_11 Mobility Profile 11
8023: LTE UE and Service Differentiation
Average number of active UEs of AVG_ACT_UE_PROFILE_12 Mobility Profile 12
8023: LTE UE and Service Differentiation
Average number of active UEs of AVG_ACT_UE_PROFILE_13 Mobility Profile 13
8023: LTE UE and Service Differentiation
Average number of active UEs of AVG_ACT_UE_PROFILE_14 Mobility Profile 14
NUM_QCI_GRP_MISMATCH
8023: LTE UE and Service Differentiation
Average number of active UEs of AVG_ACT_UE_PROFILE_15 Mobility Profile 15
8023: LTE UE and Service Differentiation
Average number of active UEs of AVG_ACT_UE_PROFILE_16 Mobility Profile 16
8025: LTE Handover to eHRPD per eHRPD bandclass
Inter System Handover preparations to eHRPD per eHRPD bandclass
ISYS_HO_EHRPD_PREP_BC
8025: LTE Handover to eHRPD per eHRPD bandclass
Failed Inter System Handover preparations to eHRPD caused by expiration of guarding timer TUlHoPrepTransferHrpd per eHRPD bandclass Failed Inter System Handover
ISYS_HO_EHRPD_PREP_FAIL 1_BC
8025: LTE Handover to eHRPD per eHRPD bandclass
Successful Inter System Handover preparations to eHRPD per eHRPD bandclass
ISYS_HO_EHRPD_PREP_SUC C_BC
8025: LTE Handover to eHRPD per eHRPD bandclass
Inter System Handover attempts ISYS_HO_EHRPD_ATT_BC to eHRPD per eHRPD bandclass
8025: LTE Handover to eHRPD per eHRPD bandclass
Failed Inter System Handover attempts to eHRPD caused by expiration of guarding timer TC2KRelocOverallHRPD per eHRPD bandclass Successful Inter System
8025: LTE Handover to eHRPD per eHRPD bandclass
8025: LTE Handover to eHRPD per eHRPD bandclass
8025: LTE Handover to eHRPD per eHRPD bandclass
ISYS_HO_EHRPD_PREP_FAIL preparations to eHRPD caused 2_BC by expiration of guarding timer TC2KRelocPrepHrpd per eHRPD bandclass Failed Inter System Handover ISYS_HO_EHRPD_PREP_FAIL preparations to eHRPD caused 3_BC by received HO Failure indication message per eHRPD bandclass
ISYS_HO_EHRPD_FAIL_TIM_ BC
ISYS_HO_EHRPD_SUCC_BC
Handover completions to eHRPD per eHRPD bandclass
8026: LTE QoS
Number of lost PDCP SDUs in UL for QCI 5
PDCP_SDU_LOSS_UL_QCI_5
8026: LTE QoS
Number of lost PDCP SDUs in UL for QCI 6
PDCP_SDU_LOSS_UL_QCI_6
8026: LTE QoS
Number of lost PDCP SDUs in UL for QCI 7
PDCP_SDU_LOSS_UL_QCI_7
8026: LTE QoS
Number of lost PDCP SDUs in UL for QCI 8
PDCP_SDU_LOSS_UL_QCI_8
8026: LTE QoS
Number of lost PDCP SDUs in UL for QCI 9
PDCP_SDU_LOSS_UL_QCI_9
8026: LTE QoS
Number of lost PDCP SDUs in DL for QCI 5
PDCP_SDU_LOSS_DL_QCI_5
8026: LTE QoS
Number of lost PDCP SDUs in DL for QCI 6
PDCP_SDU_LOSS_DL_QCI_6
8026: LTE QoS
Number of lost PDCP SDUs in DL for QCI 7
PDCP_SDU_LOSS_DL_QCI_7
8026: LTE QoS
Number of lost PDCP SDUs in DL for QCI 8
PDCP_SDU_LOSS_DL_QCI_8
8026: LTE QoS
Number of lost PDCP SDUs in DL for QCI 9
PDCP_SDU_LOSS_DL_QCI_9
8026: LTE QoS
PDCP SDU DL QCI 5
PDCP_SDU_DL_QCI_5
8026: LTE QoS
PDCP SDU DL QCI 6
PDCP_SDU_DL_QCI_6
8026: LTE QoS
PDCP SDU DL QCI 7
PDCP_SDU_DL_QCI_7
8026: LTE QoS
PDCP SDU DL QCI 8
PDCP_SDU_DL_QCI_8
8026: LTE QoS
PDCP SDU DL QCI 9
PDCP_SDU_DL_QCI_9
8026: LTE QoS
PDCP SDU UL QCI 5
PDCP_SDU_UL_QCI_5
8026: LTE QoS
PDCP SDU UL QCI 6
PDCP_SDU_UL_QCI_6
8026: LTE QoS
PDCP SDU UL QCI 7
PDCP_SDU_UL_QCI_7
8026: LTE QoS
PDCP SDU UL QCI 8
PDCP_SDU_UL_QCI_8
8026: LTE QoS
PDCP SDU UL QCI 9
PDCP_SDU_UL_QCI_9
8026: LTE QoS
Average HARQ transmission time for TBs with QCI 1 data
HARQ_DURATION_QCI1_AVG
8026: LTE QoS
Average HARQ transmission time for TBs with QCI 2 data
HARQ_DURATION_QCI2_AVG
8026: LTE QoS
Average HARQ transmission time for TBs with QCI 3 data
HARQ_DURATION_QCI3_AVG
8026: LTE QoS
Average HARQ transmission time for TBs with QCI 4 data
HARQ_DURATION_QCI4_AVG
8026: LTE QoS
Average HARQ transmission time for TBs with QCI 5 data
HARQ_DURATION_QCI5_AVG
8026: LTE QoS
Average HARQ transmission time for TBs with QCI 6 data
HARQ_DURATION_QCI6_AVG
8026: LTE QoS
Average HARQ transmission time for TBs with QCI 7 data
HARQ_DURATION_QCI7_AVG
8026: LTE QoS
Average HARQ transmission time for TBs with QCI 8 data
HARQ_DURATION_QCI8_AVG
8026: LTE QoS
Average HARQ transmission time for TBs with QCI 9 data
HARQ_DURATION_QCI9_AVG
8026: LTE QoS
Number of lost PDCP SDUs in UL
PDCP_SDU_LOSS_UL_FNA
8026: LTE QoS
Number of lost PDCP SDUs in UL for QCI 1
PDCP_SDU_LOSS_UL_QCI_1 _FNA
8026: LTE QoS
Number of lost PDCP SDUs in UL for QCI 2
PDCP_SDU_LOSS_UL_QCI_2 _FNA
8026: LTE QoS
Number of lost PDCP SDUs in UL for QCI 3
PDCP_SDU_LOSS_UL_QCI_3 _FNA
8026: LTE QoS
Number of lost PDCP SDUs in UL for QCI 4
PDCP_SDU_LOSS_UL_QCI_4 _FNA
8026: LTE QoS
Number of lost PDCP SDUs in DL
PDCP_SDU_LOSS_DL_FNA
8026: LTE QoS
Number of lost PDCP SDUs in DL for QCI 1
PDCP_SDU_LOSS_DL_QCI_1 _FNA
8026: LTE QoS
Number of lost PDCP SDUs in DL for QCI 2
PDCP_SDU_LOSS_DL_QCI_2 _FNA
8026: LTE QoS
Number of lost PDCP SDUs in DL for QCI 3
PDCP_SDU_LOSS_DL_QCI_3 _FNA
8026: LTE QoS
Number of lost PDCP SDUs in DL for QCI 4
PDCP_SDU_LOSS_DL_QCI_4 _FNA
8027: LTE Handover (RLF trigger)
Handover Preparation attempts due to RLF
HO_RLF_PREP_ATT
8027: LTE Handover (RLF trigger)
Successful Handover Preparation completions due to RLF
HO_RLF_PREP_SUCC
8027: LTE Handover (RLF trigger)
Successful Handover completions due to RLF
HO_RLF_SUCC
8027: LTE Handover (RLF trigger)
Attempted UE Context Retrievals RCR_UE_CONTEXT_RETR_A due to RLF TT
8027: LTE Handover (RLF trigger)
Successful UE Context Retrievals due to RLF
8027: LTE Handover (RLF trigger)
Failed UE Context Retrievals due RCR_UE_CONTEXT_RETR_F to Timer expiration AIL_TIM
8029: LTE MAC
Index of configured TA set
TIMING_ADV_SET_INDEX
8029: LTE MAC
Timing Advance bin 1
TIMING_ADV_BIN_1
8029: LTE MAC
Timing Advance bin 2
TIMING_ADV_BIN_2
8029: LTE MAC
Timing Advance bin 3
TIMING_ADV_BIN_3
8029: LTE MAC
Timing Advance bin 4
TIMING_ADV_BIN_4
RCR_UE_CONTEXT_RETR_S UCC
8029: LTE MAC
Timing Advance bin 5
TIMING_ADV_BIN_5
8029: LTE MAC
Timing Advance bin 6
TIMING_ADV_BIN_6
8029: LTE MAC
Timing Advance bin 7
TIMING_ADV_BIN_7
8029: LTE MAC
Timing Advance bin 8
TIMING_ADV_BIN_8
8029: LTE MAC
Timing Advance bin 9
TIMING_ADV_BIN_9
8029: LTE MAC
Timing Advance bin 10
TIMING_ADV_BIN_10
8029: LTE MAC
Timing Advance bin 11
TIMING_ADV_BIN_11
8029: LTE MAC
Timing Advance bin 12
TIMING_ADV_BIN_12
8029: LTE MAC
Timing Advance bin 13
TIMING_ADV_BIN_13
8029: LTE MAC
Timing Advance bin 14
TIMING_ADV_BIN_14
8029: LTE MAC
Timing Advance bin 15
TIMING_ADV_BIN_15
8029: LTE MAC
Timing Advance bin 16
TIMING_ADV_BIN_16
8029: LTE MAC
Timing Advance bin 17
TIMING_ADV_BIN_17
8029: LTE MAC
Timing Advance bin 18
TIMING_ADV_BIN_18
8029: LTE MAC
Timing Advance bin 19
TIMING_ADV_BIN_19
8029: LTE MAC
Timing Advance bin 20
TIMING_ADV_BIN_20
8029: LTE MAC
Timing Advance bin 21
TIMING_ADV_BIN_21
8029: LTE MAC
Timing Advance bin 22
TIMING_ADV_BIN_22
8029: LTE MAC
Timing Advance bin 23
TIMING_ADV_BIN_23
8029: LTE MAC
Timing Advance bin 24
TIMING_ADV_BIN_24
8029: LTE MAC
Timing Advance bin 25
TIMING_ADV_BIN_25
8029: LTE MAC
Timing Advance bin 26
TIMING_ADV_BIN_26
8029: LTE MAC
Timing Advance bin 27
TIMING_ADV_BIN_27
8029: LTE MAC
Timing Advance bin 28
TIMING_ADV_BIN_28
8029: LTE MAC
Timing Advance bin 29
TIMING_ADV_BIN_29
8029: LTE MAC
Timing Advance bin 30
TIMING_ADV_BIN_30
8029: LTE MAC
Number of RACH msg3 for UL data arrival in "UL nonsynchronized" state
RACH_MSG3_UL_DATA_NON_ SYNC
8029: LTE MAC
Number of msg3 for contentionbased RA procedures
RACH_MSG3_CONTENTION
8029: LTE MAC
Sum of CRAN receptions with 2RX Antennas
CRAN_UE_2RX
8029: LTE MAC
Sum of CRAN receptions with 4RX Antennas
CRAN_UE_4RX
8029: LTE MAC
Sum of CRAN receptions with 8RX Antennas
CRAN_UE_8RX
8030: LTE MBMS
Average number of activated MBMS sessions
MBMS_SESSION_ACT_AVG
8030: LTE MBMS
MBMS user data volume (eUu interface)
MBMS_USER_DATA_EUU
8030: LTE MBMS
MBMS user data volume (M1 interface)
MBMS_USER_DATA_M1
8030: LTE MBMS
Lost MBMS user data volume (M1 interface)
MBMS_USER_DATA_M1_LOS T
8030: LTE MBMS
Dropped MBMS user data volume 1 (M1 interface)
MBMS_USER_DATA_DROP_1
8030: LTE MBMS
Dropped MBMS user data volume 2
MBMS_USER_DATA_DROP_2
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB1_BIN0 1 SINR post-compensation - bin 0
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB1_BIN1 1 SINR post-compensation - bin 1
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB1_BIN2 1 SINR post-compensation - bin 2
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB1_BIN3 1 SINR post-compensation - bin 3
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB1_BIN4 1 SINR post-compensation - bin 4
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB1_BIN5 1 SINR post-compensation - bin 5
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB1_BIN6 1 SINR post-compensation - bin 6
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB1_BIN7 1 SINR post-compensation - bin 7
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB1_BIN8 1 SINR post-compensation - bin 8
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB1_BIN9 1 SINR post-compensation - bin 9
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB1_BIN10 1 SINR post-compensation - bin 10
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB1_BIN11 1 SINR post-compensation - bin 11
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB1_BIN12 1 SINR post-compensation - bin 12
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB1_BIN13 1 SINR post-compensation - bin 13
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB1_BIN14 1 SINR post-compensation - bin 14
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB1_BIN15 1 SINR post-compensation - bin 15
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB1_BIN16 1 SINR post-compensation - bin 16
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB1_BIN17 1 SINR post-compensation - bin 17
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB1_BIN18 1 SINR post-compensation - bin 18
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB1_BIN19 1 SINR post-compensation - bin 19
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB2_BIN0 2 SINR post-compensation - bin 0
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB2_BIN1 2 SINR post-compensation - bin 1
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB2_BIN2 2 SINR post-compensation - bin 2
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB2_BIN3 2 SINR post-compensation - bin 3
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB2_BIN4 2 SINR post-compensation - bin 4
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB2_BIN5 2 SINR post-compensation - bin 5
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB2_BIN6 2 SINR post-compensation - bin 6
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB2_BIN7 2 SINR post-compensation - bin 7
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB2_BIN8 2 SINR post-compensation - bin 8
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB2_BIN9 2 SINR post-compensation - bin 9
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB2_BIN10 2 SINR post-compensation - bin 10
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB2_BIN11 2 SINR post-compensation - bin 11
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB2_BIN12 2 SINR post-compensation - bin 12
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB2_BIN13 2 SINR post-compensation - bin 13
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB2_BIN14 2 SINR post-compensation - bin 14
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB2_BIN15 2 SINR post-compensation - bin 15
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB2_BIN16 2 SINR post-compensation - bin 16
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB2_BIN17 2 SINR post-compensation - bin 17
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB2_BIN18 2 SINR post-compensation - bin 18
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB2_BIN19 2 SINR post-compensation - bin 19
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB3_BIN0 3 SINR post-compensation - bin 0
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB3_BIN1 3 SINR post-compensation - bin 1
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB3_BIN2 3 SINR post-compensation - bin 2
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB3_BIN3 3 SINR post-compensation - bin 3
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB3_BIN4 3 SINR post-compensation - bin 4
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB3_BIN5 3 SINR post-compensation - bin 5
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB3_BIN6 3 SINR post-compensation - bin 6
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB3_BIN7 3 SINR post-compensation - bin 7
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB3_BIN8 3 SINR post-compensation - bin 8
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB3_BIN9 3 SINR post-compensation - bin 9
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB3_BIN10 3 SINR post-compensation - bin 10
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB3_BIN11 3 SINR post-compensation - bin 11
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB3_BIN12 3 SINR post-compensation - bin 12
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB3_BIN13 3 SINR post-compensation - bin 13
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB3_BIN14 3 SINR post-compensation - bin 14
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB3_BIN15 3 SINR post-compensation - bin 15
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB3_BIN16 3 SINR post-compensation - bin 16
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB3_BIN17 3 SINR post-compensation - bin 17
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB3_BIN18 3 SINR post-compensation - bin 18
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB3_BIN19 3 SINR post-compensation - bin 19
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB4_BIN0 4 SINR post-compensation - bin 0
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB4_BIN1 4 SINR post-compensation - bin 1
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB4_BIN2 4 SINR post-compensation - bin 2
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB4_BIN3 4 SINR post-compensation - bin 3
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB4_BIN4 4 SINR post-compensation - bin 4
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB4_BIN5 4 SINR post-compensation - bin 5
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB4_BIN6 4 SINR post-compensation - bin 6
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB4_BIN7 4 SINR post-compensation - bin 7
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB4_BIN8 4 SINR post-compensation - bin 8
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB4_BIN9 4 SINR post-compensation - bin 9
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB4_BIN10 4 SINR post-compensation - bin 10
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB4_BIN11 4 SINR post-compensation - bin 11
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB4_BIN12 4 SINR post-compensation - bin 12
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB4_BIN13 4 SINR post-compensation - bin 13
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB4_BIN14 4 SINR post-compensation - bin 14
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB4_BIN15 4 SINR post-compensation - bin 15
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB4_BIN16 4 SINR post-compensation - bin 16
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB4_BIN17 4 SINR post-compensation - bin 17
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB4_BIN18 4 SINR post-compensation - bin 18
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB4_BIN19 4 SINR post-compensation - bin 19
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB5_BIN0 5 SINR post-compensation - bin 0
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB5_BIN1 5 SINR post-compensation - bin 1
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB5_BIN2 5 SINR post-compensation - bin 2
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB5_BIN3 5 SINR post-compensation - bin 3
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB5_BIN4 5 SINR post-compensation - bin 4
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB5_BIN5 5 SINR post-compensation - bin 5
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB5_BIN6 5 SINR post-compensation - bin 6
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB5_BIN7 5 SINR post-compensation - bin 7
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB5_BIN8 5 SINR post-compensation - bin 8
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB5_BIN9 5 SINR post-compensation - bin 9
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB5_BIN10 5 SINR post-compensation - bin 10
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB5_BIN11 5 SINR post-compensation - bin 11
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB5_BIN12 5 SINR post-compensation - bin 12
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB5_BIN13 5 SINR post-compensation - bin 13
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB5_BIN14 5 SINR post-compensation - bin 14
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB5_BIN15 5 SINR post-compensation - bin 15
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB5_BIN16 5 SINR post-compensation - bin 16
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB5_BIN17 5 SINR post-compensation - bin 17
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB5_BIN18 5 SINR post-compensation - bin 18
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB5_BIN19 5 SINR post-compensation - bin 19
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB6_BIN0 6 SINR post-compensation - bin 0
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB6_BIN1 6 SINR post-compensation - bin 1
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB6_BIN2 6 SINR post-compensation - bin 2
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB6_BIN3 6 SINR post-compensation - bin 3
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB6_BIN4 6 SINR post-compensation - bin 4
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB6_BIN5 6 SINR post-compensation - bin 5
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB6_BIN6 6 SINR post-compensation - bin 6
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB6_BIN7 6 SINR post-compensation - bin 7
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB6_BIN8 6 SINR post-compensation - bin 8
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB6_BIN9 6 SINR post-compensation - bin 9
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB6_BIN10 6 SINR post-compensation - bin 10
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB6_BIN11 6 SINR post-compensation - bin 11
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB6_BIN12 6 SINR post-compensation - bin 12
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB6_BIN13 6 SINR post-compensation - bin 13
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB6_BIN14 6 SINR post-compensation - bin 14
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB6_BIN15 6 SINR post-compensation - bin 15
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB6_BIN16 6 SINR post-compensation - bin 16
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB6_BIN17 6 SINR post-compensation - bin 17
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB6_BIN18 6 SINR post-compensation - bin 18
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB6_BIN19 6 SINR post-compensation - bin 19
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB7_BIN0 7 SINR post-compensation - bin 0
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB7_BIN1 7 SINR post-compensation - bin 1
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB7_BIN2 7 SINR post-compensation - bin 2
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB7_BIN3 7 SINR post-compensation - bin 3
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB7_BIN4 7 SINR post-compensation - bin 4
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB7_BIN5 7 SINR post-compensation - bin 5
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB7_BIN6 7 SINR post-compensation - bin 6
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB7_BIN7 7 SINR post-compensation - bin 7
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB7_BIN8 7 SINR post-compensation - bin 8
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB7_BIN9 7 SINR post-compensation - bin 9
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB7_BIN10 7 SINR post-compensation - bin 10
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB7_BIN11 7 SINR post-compensation - bin 11
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB7_BIN12 7 SINR post-compensation - bin 12
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB7_BIN13 7 SINR post-compensation - bin 13
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB7_BIN14 7 SINR post-compensation - bin 14
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB7_BIN15 7 SINR post-compensation - bin 15
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB7_BIN16 7 SINR post-compensation - bin 16
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB7_BIN17 7 SINR post-compensation - bin 17
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB7_BIN18 7 SINR post-compensation - bin 18
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB7_BIN19 7 SINR post-compensation - bin 19
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB8_BIN0 8 SINR post-compensation - bin 0
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB8_BIN1 8 SINR post-compensation - bin 1
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB8_BIN2 8 SINR post-compensation - bin 2
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB8_BIN3 8 SINR post-compensation - bin 3
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB8_BIN4 8 SINR post-compensation - bin 4
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB8_BIN5 8 SINR post-compensation - bin 5
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB8_BIN6 8 SINR post-compensation - bin 6
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB8_BIN7 8 SINR post-compensation - bin 7
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB8_BIN8 8 SINR post-compensation - bin 8
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB8_BIN9 8 SINR post-compensation - bin 9
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB8_BIN10 8 SINR post-compensation - bin 10
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB8_BIN11 8 SINR post-compensation - bin 11
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB8_BIN12 8 SINR post-compensation - bin 12
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB8_BIN13 8 SINR post-compensation - bin 13
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB8_BIN14 8 SINR post-compensation - bin 14
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB8_BIN15 8 SINR post-compensation - bin 15
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB8_BIN16 8 SINR post-compensation - bin 16
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB8_BIN17 8 SINR post-compensation - bin 17
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB8_BIN18 8 SINR post-compensation - bin 18
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB8_BIN19 8 SINR post-compensation - bin 19
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB9_BIN0 9 SINR post-compensation - bin 0
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB9_BIN1 9 SINR post-compensation - bin 1
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB9_BIN2 9 SINR post-compensation - bin 2
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB9_BIN3 9 SINR post-compensation - bin 3
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB9_BIN4 9 SINR post-compensation - bin 4
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB9_BIN5 9 SINR post-compensation - bin 5
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB9_BIN6 9 SINR post-compensation - bin 6
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB9_BIN7 9 SINR post-compensation - bin 7
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB9_BIN8 9 SINR post-compensation - bin 8
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB9_BIN9 9 SINR post-compensation - bin 9
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB9_BIN10 9 SINR post-compensation - bin 10
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB9_BIN11 9 SINR post-compensation - bin 11
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB9_BIN12 9 SINR post-compensation - bin 12
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB9_BIN13 9 SINR post-compensation - bin 13
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB9_BIN14 9 SINR post-compensation - bin 14
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB9_BIN15 9 SINR post-compensation - bin 15
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB9_BIN16 9 SINR post-compensation - bin 16
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB9_BIN17 9 SINR post-compensation - bin 17
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB9_BIN18 9 SINR post-compensation - bin 18
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB9_BIN19 9 SINR post-compensation - bin 19
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB10_BIN0 10 SINR post-compensation - bin 0
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB10_BIN1 10 SINR post-compensation - bin 1
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB10_BIN2 10 SINR post-compensation - bin 2
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB10_BIN3 10 SINR post-compensation - bin 3
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB10_BIN4 10 SINR post-compensation - bin 4
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB10_BIN5 10 SINR post-compensation - bin 5
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB10_BIN6 10 SINR post-compensation - bin 6
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB10_BIN7 10 SINR post-compensation - bin 7
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB10_BIN8 10 SINR post-compensation - bin 8
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB10_BIN9 10 SINR post-compensation - bin 9
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB10_BIN10 10 SINR post-compensation - bin 10
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB10_BIN11 10 SINR post-compensation - bin 11
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB10_BIN12 10 SINR post-compensation - bin 12
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB10_BIN13 10 SINR post-compensation - bin 13
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB10_BIN14 10 SINR post-compensation - bin 14
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB10_BIN15 10 SINR post-compensation - bin 15
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB10_BIN16 10 SINR post-compensation - bin 16
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB10_BIN17 10 SINR post-compensation - bin 17
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB10_BIN18 10 SINR post-compensation - bin 18
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB10_BIN19 10 SINR post-compensation - bin 19
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB11_BIN0 11 SINR post-compensation - bin 0
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB11_BIN1 11 SINR post-compensation - bin 1
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB11_BIN2 11 SINR post-compensation - bin 2
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB11_BIN3 11 SINR post-compensation - bin 3
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB11_BIN4 11 SINR post-compensation - bin 4
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB11_BIN5 11 SINR post-compensation - bin 5
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB11_BIN6 11 SINR post-compensation - bin 6
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB11_BIN7 11 SINR post-compensation - bin 7
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB11_BIN8 11 SINR post-compensation - bin 8
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB11_BIN9 11 SINR post-compensation - bin 9
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB11_BIN10 11 SINR post-compensation - bin 10
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB11_BIN11 11 SINR post-compensation - bin 11
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB11_BIN12 11 SINR post-compensation - bin 12
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB11_BIN13 11 SINR post-compensation - bin 13
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB11_BIN14 11 SINR post-compensation - bin 14
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB11_BIN15 11 SINR post-compensation - bin 15
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB11_BIN16 11 SINR post-compensation - bin 16
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB11_BIN17 11 SINR post-compensation - bin 17
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB11_BIN18 11 SINR post-compensation - bin 18
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB11_BIN19 11 SINR post-compensation - bin 19
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB12_BIN0 12 SINR post-compensation - bin 0
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB12_BIN1 12 SINR post-compensation - bin 1
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB12_BIN2 12 SINR post-compensation - bin 2
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB12_BIN3 12 SINR post-compensation - bin 3
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB12_BIN4 12 SINR post-compensation - bin 4
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB12_BIN5 12 SINR post-compensation - bin 5
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB12_BIN6 12 SINR post-compensation - bin 6
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB12_BIN7 12 SINR post-compensation - bin 7
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB12_BIN8 12 SINR post-compensation - bin 8
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB12_BIN9 12 SINR post-compensation - bin 9
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB12_BIN10 12 SINR post-compensation - bin 10
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB12_BIN11 12 SINR post-compensation - bin 11
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB12_BIN12 12 SINR post-compensation - bin 12
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB12_BIN13 12 SINR post-compensation - bin 13
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB12_BIN14 12 SINR post-compensation - bin 14
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB12_BIN15 12 SINR post-compensation - bin 15
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB12_BIN16 12 SINR post-compensation - bin 16
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB12_BIN17 12 SINR post-compensation - bin 17
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB12_BIN18 12 SINR post-compensation - bin 18
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB12_BIN19 12 SINR post-compensation - bin 19
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB13_BIN0 13 SINR post-compensation - bin 0
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB13_BIN1 13 SINR post-compensation - bin 1
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB13_BIN2 13 SINR post-compensation - bin 2
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB13_BIN3 13 SINR post-compensation - bin 3
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB13_BIN4 13 SINR post-compensation - bin 4
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB13_BIN5 13 SINR post-compensation - bin 5
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB13_BIN6 13 SINR post-compensation - bin 6
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB13_BIN7 13 SINR post-compensation - bin 7
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB13_BIN8 13 SINR post-compensation - bin 8
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB13_BIN9 13 SINR post-compensation - bin 9
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB13_BIN10 13 SINR post-compensation - bin 10
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB13_BIN11 13 SINR post-compensation - bin 11
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB13_BIN12 13 SINR post-compensation - bin 12
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB13_BIN13 13 SINR post-compensation - bin 13
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB13_BIN14 13 SINR post-compensation - bin 14
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB13_BIN15 13 SINR post-compensation - bin 15
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB13_BIN16 13 SINR post-compensation - bin 16
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB13_BIN17 13 SINR post-compensation - bin 17
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB13_BIN18 13 SINR post-compensation - bin 18
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_SB13_BIN19 13 SINR post-compensation - bin 19
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB1_BI 1 SINR post-compensation for 2 N0 Codewords - bin 0
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB1_BI 1 SINR post-compensation for 2 N1 Codewords - bin 1
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB1_BI 1 SINR post-compensation for 2 N2 Codewords - bin 2
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB1_BI 1 SINR post-compensation for 2 N3 Codewords - bin 3
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB1_BI 1 SINR post-compensation for 2 N4 Codewords - bin 4
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB1_BI 1 SINR post-compensation for 2 N5 Codewords - bin 5
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB1_BI 1 SINR post-compensation for 2 N6 Codewords - bin 6
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB1_BI 1 SINR post-compensation for 2 N7 Codewords - bin 7
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB1_BI 1 SINR post-compensation for 2 N8 Codewords - bin 8
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB1_BI 1 SINR post-compensation for 2 N9 Codewords - bin 9
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB1_BI 1 SINR post-compensation for 2 N10 Codewords - bin 10
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB1_BI 1 SINR post-compensation for 2 N11 Codewords - bin 11
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB1_BI 1 SINR post-compensation for 2 N12 Codewords - bin 12
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB1_BI 1 SINR post-compensation for 2 N13 Codewords - bin 13
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB1_BI 1 SINR post-compensation for 2 N14 Codewords - bin 14
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB1_BI 1 SINR post-compensation for 2 N15 Codewords - bin 15
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB1_BI 1 SINR post-compensation for 2 N16 Codewords - bin 16
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB1_BI 1 SINR post-compensation for 2 N17 Codewords - bin 17
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB1_BI 1 SINR post-compensation for 2 N18 Codewords - bin 18
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB1_BI 1 SINR post-compensation for 2 N19 Codewords - bin 19
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB2_BI 2 SINR post-compensation for 2 N0 Codewords - bin 0
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB2_BI 2 SINR post-compensation for 2 N1 Codewords - bin 1
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB2_BI 2 SINR post-compensation for 2 N2 Codewords - bin 2
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB2_BI 2 SINR post-compensation for 2 N3 Codewords - bin 3
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB2_BI 2 SINR post-compensation for 2 N4 Codewords - bin 4
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB2_BI 2 SINR post-compensation for 2 N5 Codewords - bin 5
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB2_BI 2 SINR post-compensation for 2 N6 Codewords - bin 6
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB2_BI 2 SINR post-compensation for 2 N7 Codewords - bin 7
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB2_BI 2 SINR post-compensation for 2 N8 Codewords - bin 8
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB2_BI 2 SINR post-compensation for 2 N9 Codewords - bin 9
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB2_BI 2 SINR post-compensation for 2 N10 Codewords - bin 10
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB2_BI 2 SINR post-compensation for 2 N11 Codewords - bin 11
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB2_BI 2 SINR post-compensation for 2 N12 Codewords - bin 12
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB2_BI 2 SINR post-compensation for 2 N13 Codewords - bin 13
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB2_BI 2 SINR post-compensation for 2 N14 Codewords - bin 14
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB2_BI 2 SINR post-compensation for 2 N15 Codewords - bin 15
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB2_BI 2 SINR post-compensation for 2 N16 Codewords - bin 16
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB2_BI 2 SINR post-compensation for 2 N17 Codewords - bin 17
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB2_BI 2 SINR post-compensation for 2 N18 Codewords - bin 18
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB2_BI 2 SINR post-compensation for 2 N19 Codewords - bin 19
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB3_BI 3 SINR post-compensation for 2 N0 Codewords - bin 0
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB3_BI 3 SINR post-compensation for 2 N1 Codewords - bin 1
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB3_BI 3 SINR post-compensation for 2 N2 Codewords - bin 2
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB3_BI 3 SINR post-compensation for 2 N3 Codewords - bin 3
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB3_BI 3 SINR post-compensation for 2 N4 Codewords - bin 4
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB3_BI 3 SINR post-compensation for 2 N5 Codewords - bin 5
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB3_BI 3 SINR post-compensation for 2 N6 Codewords - bin 6
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB3_BI 3 SINR post-compensation for 2 N7 Codewords - bin 7
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB3_BI 3 SINR post-compensation for 2 N8 Codewords - bin 8
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB3_BI 3 SINR post-compensation for 2 N9 Codewords - bin 9
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB3_BI 3 SINR post-compensation for 2 N10 Codewords - bin 10
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB3_BI 3 SINR post-compensation for 2 N11 Codewords - bin 11
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB3_BI 3 SINR post-compensation for 2 N12 Codewords - bin 12
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB3_BI 3 SINR post-compensation for 2 N13 Codewords - bin 13
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB3_BI 3 SINR post-compensation for 2 N14 Codewords - bin 14
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB3_BI 3 SINR post-compensation for 2 N15 Codewords - bin 15
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB3_BI 3 SINR post-compensation for 2 N16 Codewords - bin 16
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB3_BI 3 SINR post-compensation for 2 N17 Codewords - bin 17
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB3_BI 3 SINR post-compensation for 2 N18 Codewords - bin 18
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB3_BI 3 SINR post-compensation for 2 N19 Codewords - bin 19
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB4_BI 4 SINR post-compensation for 2 N0 Codewords - bin 0
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB4_BI 4 SINR post-compensation for 2 N1 Codewords - bin 1
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB4_BI 4 SINR post-compensation for 2 N2 Codewords - bin 2
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB4_BI 4 SINR post-compensation for 2 N3 Codewords - bin 3
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB4_BI 4 SINR post-compensation for 2 N4 Codewords - bin 4
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB4_BI 4 SINR post-compensation for 2 N5 Codewords - bin 5
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB4_BI 4 SINR post-compensation for 2 N6 Codewords - bin 6
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB4_BI 4 SINR post-compensation for 2 N7 Codewords - bin 7
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB4_BI 4 SINR post-compensation for 2 N8 Codewords - bin 8
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB4_BI 4 SINR post-compensation for 2 N9 Codewords - bin 9
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB4_BI 4 SINR post-compensation for 2 N10 Codewords - bin 10
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB4_BI 4 SINR post-compensation for 2 N11 Codewords - bin 11
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB4_BI 4 SINR post-compensation for 2 N12 Codewords - bin 12
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB4_BI 4 SINR post-compensation for 2 N13 Codewords - bin 13
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB4_BI 4 SINR post-compensation for 2 N14 Codewords - bin 14
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB4_BI 4 SINR post-compensation for 2 N15 Codewords - bin 15
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB4_BI 4 SINR post-compensation for 2 N16 Codewords - bin 16
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB4_BI 4 SINR post-compensation for 2 N17 Codewords - bin 17
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB4_BI 4 SINR post-compensation for 2 N18 Codewords - bin 18
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB4_BI 4 SINR post-compensation for 2 N19 Codewords - bin 19
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB5_BI 5 SINR post-compensation for 2 N0 Codewords - bin 0
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB5_BI 5 SINR post-compensation for 2 N1 Codewords - bin 1
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB5_BI 5 SINR post-compensation for 2 N2 Codewords - bin 2
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB5_BI 5 SINR post-compensation for 2 N3 Codewords - bin 3
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB5_BI 5 SINR post-compensation for 2 N4 Codewords - bin 4
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB5_BI 5 SINR post-compensation for 2 N5 Codewords - bin 5
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB5_BI 5 SINR post-compensation for 2 N6 Codewords - bin 6
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB5_BI 5 SINR post-compensation for 2 N7 Codewords - bin 7
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB5_BI 5 SINR post-compensation for 2 N8 Codewords - bin 8
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB5_BI 5 SINR post-compensation for 2 N9 Codewords - bin 9
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB5_BI 5 SINR post-compensation for 2 N10 Codewords - bin 10
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB5_BI 5 SINR post-compensation for 2 N11 Codewords - bin 11
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB5_BI 5 SINR post-compensation for 2 N12 Codewords - bin 12
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB5_BI 5 SINR post-compensation for 2 N13 Codewords - bin 13
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB5_BI 5 SINR post-compensation for 2 N14 Codewords - bin 14
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB5_BI 5 SINR post-compensation for 2 N15 Codewords - bin 15
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB5_BI 5 SINR post-compensation for 2 N16 Codewords - bin 16
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB5_BI 5 SINR post-compensation for 2 N17 Codewords - bin 17
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB5_BI 5 SINR post-compensation for 2 N18 Codewords - bin 18
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB5_BI 5 SINR post-compensation for 2 N19 Codewords - bin 19
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB6_BI 6 SINR post-compensation for 2 N0 Codewords - bin 0
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB6_BI 6 SINR post-compensation for 2 N1 Codewords - bin 1
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB6_BI 6 SINR post-compensation for 2 N2 Codewords - bin 2
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB6_BI 6 SINR post-compensation for 2 N3 Codewords - bin 3
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB6_BI 6 SINR post-compensation for 2 N4 Codewords - bin 4
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB6_BI 6 SINR post-compensation for 2 N5 Codewords - bin 5
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB6_BI 6 SINR post-compensation for 2 N6 Codewords - bin 6
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB6_BI 6 SINR post-compensation for 2 N7 Codewords - bin 7
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB6_BI 6 SINR post-compensation for 2 N8 Codewords - bin 8
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB6_BI 6 SINR post-compensation for 2 N9 Codewords - bin 9
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB6_BI 6 SINR post-compensation for 2 N10 Codewords - bin 10
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB6_BI 6 SINR post-compensation for 2 N11 Codewords - bin 11
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB6_BI 6 SINR post-compensation for 2 N12 Codewords - bin 12
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB6_BI 6 SINR post-compensation for 2 N13 Codewords - bin 13
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB6_BI 6 SINR post-compensation for 2 N14 Codewords - bin 14
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB6_BI 6 SINR post-compensation for 2 N15 Codewords - bin 15
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB6_BI 6 SINR post-compensation for 2 N16 Codewords - bin 16
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB6_BI 6 SINR post-compensation for 2 N17 Codewords - bin 17
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB6_BI 6 SINR post-compensation for 2 N18 Codewords - bin 18
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB6_BI 6 SINR post-compensation for 2 N19 Codewords - bin 19
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB7_BI 7 SINR post-compensation for 2 N0 Codewords - bin 0
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB7_BI 7 SINR post-compensation for 2 N1 Codewords - bin 1
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB7_BI 7 SINR post-compensation for 2 N2 Codewords - bin 2
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB7_BI 7 SINR post-compensation for 2 N3 Codewords - bin 3
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB7_BI 7 SINR post-compensation for 2 N4 Codewords - bin 4
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB7_BI 7 SINR post-compensation for 2 N5 Codewords - bin 5
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB7_BI 7 SINR post-compensation for 2 N6 Codewords - bin 6
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB7_BI 7 SINR post-compensation for 2 N7 Codewords - bin 7
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB7_BI 7 SINR post-compensation for 2 N8 Codewords - bin 8
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB7_BI 7 SINR post-compensation for 2 N9 Codewords - bin 9
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB7_BI 7 SINR post-compensation for 2 N10 Codewords - bin 10
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB7_BI 7 SINR post-compensation for 2 N11 Codewords - bin 11
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB7_BI 7 SINR post-compensation for 2 N12 Codewords - bin 12
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB7_BI 7 SINR post-compensation for 2 N13 Codewords - bin 13
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB7_BI 7 SINR post-compensation for 2 N14 Codewords - bin 14
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB7_BI 7 SINR post-compensation for 2 N15 Codewords - bin 15
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB7_BI 7 SINR post-compensation for 2 N16 Codewords - bin 16
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB7_BI 7 SINR post-compensation for 2 N17 Codewords - bin 17
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB7_BI 7 SINR post-compensation for 2 N18 Codewords - bin 18
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB7_BI 7 SINR post-compensation for 2 N19 Codewords - bin 19
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB8_BI 8 SINR post-compensation for 2 N0 Codewords - bin 0
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB8_BI 8 SINR post-compensation for 2 N1 Codewords - bin 1
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB8_BI 8 SINR post-compensation for 2 N2 Codewords - bin 2
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB8_BI 8 SINR post-compensation for 2 N3 Codewords - bin 3
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB8_BI 8 SINR post-compensation for 2 N4 Codewords - bin 4
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB8_BI 8 SINR post-compensation for 2 N5 Codewords - bin 5
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB8_BI 8 SINR post-compensation for 2 N6 Codewords - bin 6
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB8_BI 8 SINR post-compensation for 2 N7 Codewords - bin 7
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB8_BI 8 SINR post-compensation for 2 N8 Codewords - bin 8
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB8_BI 8 SINR post-compensation for 2 N9 Codewords - bin 9
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB8_BI 8 SINR post-compensation for 2 N10 Codewords - bin 10
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB8_BI 8 SINR post-compensation for 2 N11 Codewords - bin 11
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB8_BI 8 SINR post-compensation for 2 N12 Codewords - bin 12
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB8_BI 8 SINR post-compensation for 2 N13 Codewords - bin 13
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB8_BI 8 SINR post-compensation for 2 N14 Codewords - bin 14
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB8_BI 8 SINR post-compensation for 2 N15 Codewords - bin 15
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB8_BI 8 SINR post-compensation for 2 N16 Codewords - bin 16
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB8_BI 8 SINR post-compensation for 2 N17 Codewords - bin 17
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB8_BI 8 SINR post-compensation for 2 N18 Codewords - bin 18
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB8_BI 8 SINR post-compensation for 2 N19 Codewords - bin 19
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB9_BI 9 SINR post-compensation for 2 N0 Codewords - bin 0
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB9_BI 9 SINR post-compensation for 2 N1 Codewords - bin 1
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB9_BI 9 SINR post-compensation for 2 N2 Codewords - bin 2
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB9_BI 9 SINR post-compensation for 2 N3 Codewords - bin 3
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB9_BI 9 SINR post-compensation for 2 N4 Codewords - bin 4
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB9_BI 9 SINR post-compensation for 2 N5 Codewords - bin 5
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB9_BI 9 SINR post-compensation for 2 N6 Codewords - bin 6
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB9_BI 9 SINR post-compensation for 2 N7 Codewords - bin 7
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB9_BI 9 SINR post-compensation for 2 N8 Codewords - bin 8
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB9_BI 9 SINR post-compensation for 2 N9 Codewords - bin 9
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB9_BI 9 SINR post-compensation for 2 N10 Codewords - bin 10
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB9_BI 9 SINR post-compensation for 2 N11 Codewords - bin 11
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB9_BI 9 SINR post-compensation for 2 N12 Codewords - bin 12
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB9_BI 9 SINR post-compensation for 2 N13 Codewords - bin 13
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB9_BI 9 SINR post-compensation for 2 N14 Codewords - bin 14
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB9_BI 9 SINR post-compensation for 2 N15 Codewords - bin 15
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB9_BI 9 SINR post-compensation for 2 N16 Codewords - bin 16
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB9_BI 9 SINR post-compensation for 2 N17 Codewords - bin 17
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB9_BI 9 SINR post-compensation for 2 N18 Codewords - bin 18
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB9_BI 9 SINR post-compensation for 2 N19 Codewords - bin 19
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB10_BI 10 SINR post-compensation for 2 N0 Codewords - bin 0
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB10_BI 10 SINR post-compensation for 2 N1 Codewords - bin 1
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB10_BI 10 SINR post-compensation for 2 N2 Codewords - bin 2
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB10_BI 10 SINR post-compensation for 2 N3 Codewords - bin 3
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB10_BI 10 SINR post-compensation for 2 N4 Codewords - bin 4
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB10_BI 10 SINR post-compensation for 2 N5 Codewords - bin 5
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB10_BI 10 SINR post-compensation for 2 N6 Codewords - bin 6
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB10_BI 10 SINR post-compensation for 2 N7 Codewords - bin 7
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB10_BI 10 SINR post-compensation for 2 N8 Codewords - bin 8
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB10_BI 10 SINR post-compensation for 2 N9 Codewords - bin 9
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB10_BI 10 SINR post-compensation for 2 N10 Codewords - bin 10
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB10_BI 10 SINR post-compensation for 2 N11 Codewords - bin 11
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB10_BI 10 SINR post-compensation for 2 N12 Codewords - bin 12
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB10_BI 10 SINR post-compensation for 2 N13 Codewords - bin 13
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB10_BI 10 SINR post-compensation for 2 N14 Codewords - bin 14
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB10_BI 10 SINR post-compensation for 2 N15 Codewords - bin 15
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB10_BI 10 SINR post-compensation for 2 N16 Codewords - bin 16
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB10_BI 10 SINR post-compensation for 2 N17 Codewords - bin 17
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB10_BI 10 SINR post-compensation for 2 N18 Codewords - bin 18
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB10_BI 10 SINR post-compensation for 2 N19 Codewords - bin 19
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB11_BI 11 SINR post-compensation for 2 N0 Codewords - bin 0
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB11_BI 11 SINR post-compensation for 2 N1 Codewords - bin 1
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB11_BI 11 SINR post-compensation for 2 N2 Codewords - bin 2
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB11_BI 11 SINR post-compensation for 2 N3 Codewords - bin 3
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB11_BI 11 SINR post-compensation for 2 N4 Codewords - bin 4
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB11_BI 11 SINR post-compensation for 2 N5 Codewords - bin 5
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB11_BI 11 SINR post-compensation for 2 N6 Codewords - bin 6
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB11_BI 11 SINR post-compensation for 2 N7 Codewords - bin 7
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB11_BI 11 SINR post-compensation for 2 N8 Codewords - bin 8
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB11_BI 11 SINR post-compensation for 2 N9 Codewords - bin 9
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB11_BI 11 SINR post-compensation for 2 N10 Codewords - bin 10
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB11_BI 11 SINR post-compensation for 2 N11 Codewords - bin 11
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB11_BI 11 SINR post-compensation for 2 N12 Codewords - bin 12
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB11_BI 11 SINR post-compensation for 2 N13 Codewords - bin 13
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB11_BI 11 SINR post-compensation for 2 N14 Codewords - bin 14
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB11_BI 11 SINR post-compensation for 2 N15 Codewords - bin 15
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB11_BI 11 SINR post-compensation for 2 N16 Codewords - bin 16
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB11_BI 11 SINR post-compensation for 2 N17 Codewords - bin 17
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB11_BI 11 SINR post-compensation for 2 N18 Codewords - bin 18
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB11_BI 11 SINR post-compensation for 2 N19 Codewords - bin 19
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB12_BI 12 SINR post-compensation for 2 N0 Codewords - bin 0
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB12_BI 12 SINR post-compensation for 2 N1 Codewords - bin 1
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB12_BI 12 SINR post-compensation for 2 N2 Codewords - bin 2
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB12_BI 12 SINR post-compensation for 2 N3 Codewords - bin 3
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB12_BI 12 SINR post-compensation for 2 N4 Codewords - bin 4
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB12_BI 12 SINR post-compensation for 2 N5 Codewords - bin 5
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB12_BI 12 SINR post-compensation for 2 N6 Codewords - bin 6
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB12_BI 12 SINR post-compensation for 2 N7 Codewords - bin 7
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB12_BI 12 SINR post-compensation for 2 N8 Codewords - bin 8
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB12_BI 12 SINR post-compensation for 2 N9 Codewords - bin 9
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB12_BI 12 SINR post-compensation for 2 N10 Codewords - bin 10
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB12_BI 12 SINR post-compensation for 2 N11 Codewords - bin 11
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB12_BI 12 SINR post-compensation for 2 N12 Codewords - bin 12
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB12_BI 12 SINR post-compensation for 2 N13 Codewords - bin 13
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB12_BI 12 SINR post-compensation for 2 N14 Codewords - bin 14
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB12_BI 12 SINR post-compensation for 2 N15 Codewords - bin 15
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB12_BI 12 SINR post-compensation for 2 N16 Codewords - bin 16
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB12_BI 12 SINR post-compensation for 2 N17 Codewords - bin 17
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB12_BI 12 SINR post-compensation for 2 N18 Codewords - bin 18
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB12_BI 12 SINR post-compensation for 2 N19 Codewords - bin 19
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB13_BI 13 SINR post-compensation for 2 N0 Codewords - bin 0
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB13_BI 13 SINR post-compensation for 2 N1 Codewords - bin 1
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB13_BI 13 SINR post-compensation for 2 N2 Codewords - bin 2
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB13_BI 13 SINR post-compensation for 2 N3 Codewords - bin 3
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB13_BI 13 SINR post-compensation for 2 N4 Codewords - bin 4
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB13_BI 13 SINR post-compensation for 2 N5 Codewords - bin 5
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB13_BI 13 SINR post-compensation for 2 N6 Codewords - bin 6
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB13_BI 13 SINR post-compensation for 2 N7 Codewords - bin 7
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB13_BI 13 SINR post-compensation for 2 N8 Codewords - bin 8
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB13_BI 13 SINR post-compensation for 2 N9 Codewords - bin 9
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB13_BI 13 SINR post-compensation for 2 N10 Codewords - bin 10
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB13_BI 13 SINR post-compensation for 2 N11 Codewords - bin 11
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB13_BI 13 SINR post-compensation for 2 N12 Codewords - bin 12
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB13_BI 13 SINR post-compensation for 2 N13 Codewords - bin 13
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB13_BI 13 SINR post-compensation for 2 N14 Codewords - bin 14
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB13_BI 13 SINR post-compensation for 2 N15 Codewords - bin 15
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB13_BI 13 SINR post-compensation for 2 N16 Codewords - bin 16
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB13_BI 13 SINR post-compensation for 2 N17 Codewords - bin 17
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB13_BI 13 SINR post-compensation for 2 N18 Codewords - bin 18
8031: LTE SINR
Distribution of Downlink Subband DL_SINR_DIST_CW2_SB13_BI 13 SINR post-compensation for 2 N19 Codewords - bin 19
8031: LTE SINR
Distribution of Downlink Wideband SINR postcompensation - bin 0
DL_SINR_DIST_WB_BIN0
8031: LTE SINR
Distribution of Downlink Wideband SINR postcompensation - bin 1
DL_SINR_DIST_WB_BIN1
8031: LTE SINR
Distribution of Downlink Wideband SINR postcompensation - bin 2
DL_SINR_DIST_WB_BIN2
8031: LTE SINR
Distribution of Downlink Wideband SINR postcompensation - bin 3
DL_SINR_DIST_WB_BIN3
8031: LTE SINR
Distribution of Downlink Wideband SINR postcompensation - bin 4
DL_SINR_DIST_WB_BIN4
8031: LTE SINR
Distribution of Downlink Wideband SINR postcompensation - bin 5
DL_SINR_DIST_WB_BIN5
8031: LTE SINR
Distribution of Downlink Wideband SINR postcompensation - bin 6
DL_SINR_DIST_WB_BIN6
8031: LTE SINR
Distribution of Downlink Wideband SINR postcompensation - bin 7
DL_SINR_DIST_WB_BIN7
8031: LTE SINR
Distribution of Downlink Wideband SINR postcompensation - bin 8
DL_SINR_DIST_WB_BIN8
8031: LTE SINR
Distribution of Downlink Wideband SINR postcompensation - bin 9
DL_SINR_DIST_WB_BIN9
8031: LTE SINR
Distribution of Downlink Wideband SINR postcompensation - bin 10
DL_SINR_DIST_WB_BIN10
8031: LTE SINR
Distribution of Downlink Wideband SINR postcompensation - bin 11
DL_SINR_DIST_WB_BIN11
8031: LTE SINR
Distribution of Downlink Wideband SINR postcompensation - bin 12
DL_SINR_DIST_WB_BIN12
8031: LTE SINR
Distribution of Downlink Wideband SINR postcompensation - bin 13
DL_SINR_DIST_WB_BIN13
8031: LTE SINR
Distribution of Downlink Wideband SINR postcompensation - bin 14
DL_SINR_DIST_WB_BIN14
8031: LTE SINR
Distribution of Downlink Wideband SINR postcompensation - bin 15
DL_SINR_DIST_WB_BIN15
8031: LTE SINR
Distribution of Downlink Wideband SINR postcompensation - bin 16
DL_SINR_DIST_WB_BIN16
8031: LTE SINR
Distribution of Downlink Wideband SINR postcompensation - bin 17
DL_SINR_DIST_WB_BIN17
8031: LTE SINR
Distribution of Downlink Wideband SINR postcompensation - bin 18
DL_SINR_DIST_WB_BIN18
8031: LTE SINR
Distribution of Downlink Wideband SINR postcompensation - bin 19
DL_SINR_DIST_WB_BIN19
8031: LTE SINR
Distribution of Downlink DL_SINR_DIST_CW2_WB_BIN Wideband SINR post0 compensation for 2 Codewords bin 0
8031: LTE SINR
Distribution of Downlink DL_SINR_DIST_CW2_WB_BIN Wideband SINR post1 compensation for 2 Codewords bin 1
8031: LTE SINR
Distribution of Downlink DL_SINR_DIST_CW2_WB_BIN Wideband SINR post2 compensation for 2 Codewords bin 2
8031: LTE SINR
Distribution of Downlink DL_SINR_DIST_CW2_WB_BIN Wideband SINR post3 compensation for 2 Codewords bin 3
8031: LTE SINR
Distribution of Downlink DL_SINR_DIST_CW2_WB_BIN Wideband SINR post4 compensation for 2 Codewords bin 4
8031: LTE SINR
Distribution of Downlink DL_SINR_DIST_CW2_WB_BIN Wideband SINR post5 compensation for 2 Codewords bin 5
8031: LTE SINR
Distribution of Downlink DL_SINR_DIST_CW2_WB_BIN Wideband SINR post6 compensation for 2 Codewords bin 6
8031: LTE SINR
Distribution of Downlink DL_SINR_DIST_CW2_WB_BIN Wideband SINR post7 compensation for 2 Codewords bin 7
8031: LTE SINR
Distribution of Downlink DL_SINR_DIST_CW2_WB_BIN Wideband SINR post8 compensation for 2 Codewords bin 8
8031: LTE SINR
Distribution of Downlink DL_SINR_DIST_CW2_WB_BIN Wideband SINR post9 compensation for 2 Codewords bin 9
8031: LTE SINR
Distribution of Downlink DL_SINR_DIST_CW2_WB_BIN Wideband SINR post10 compensation for 2 Codewords bin 10
8031: LTE SINR
Distribution of Downlink DL_SINR_DIST_CW2_WB_BIN Wideband SINR post11 compensation for 2 Codewords bin 11
8031: LTE SINR
Distribution of Downlink DL_SINR_DIST_CW2_WB_BIN Wideband SINR post12 compensation for 2 Codewords bin 12
8031: LTE SINR
Distribution of Downlink DL_SINR_DIST_CW2_WB_BIN Wideband SINR post13 compensation for 2 Codewords bin 13
8031: LTE SINR
Distribution of Downlink DL_SINR_DIST_CW2_WB_BIN Wideband SINR post14 compensation for 2 Codewords bin 14
8031: LTE SINR
Distribution of Downlink DL_SINR_DIST_CW2_WB_BIN Wideband SINR post15 compensation for 2 Codewords bin 15
8031: LTE SINR
Distribution of Downlink DL_SINR_DIST_CW2_WB_BIN Wideband SINR post16 compensation for 2 Codewords bin 16
8031: LTE SINR
Distribution of Downlink DL_SINR_DIST_CW2_WB_BIN Wideband SINR post17 compensation for 2 Codewords bin 17
8031: LTE SINR
Distribution of Downlink DL_SINR_DIST_CW2_WB_BIN Wideband SINR post18 compensation for 2 Codewords bin 18
8031: LTE SINR
Distribution of Downlink DL_SINR_DIST_CW2_WB_BIN Wideband SINR post19 compensation for 2 Codewords bin 19
8032: LTE MRO UTRAN frequency related
Late Handover to UTRAN (threshold B2T2-PSHO not met) per UTRAN frequency
8032: LTE MRO UTRAN frequency related
Late Handover to UTRAN MRO_LATE_HO_UTRAN_B2T2 (threshold B2T2-VoLTE not met) _V_F per UTRAN frequency
8032: LTE MRO UTRAN frequency related
Early Handover to UTRAN MRO_EARLY_HO_UTRAN_B2 (threshold B2T2-PSHO met) per T2_P_F UTRAN frequency
MRO_LATE_HO_UTRAN_B2T2 _P_F
8032: LTE MRO UTRAN frequency related
Early Handover to UTRAN MRO_EARLY_HO_UTRAN_B2 (threshold B2T2-VoLTE met) per T2_V_F UTRAN frequency
8032: LTE MRO UTRAN frequency related
Inter System Handover attempts ISYS_HO_UTRAN_PSHO_ATT to UTRAN (Event B2-PSHO Met) _F per UTRAN frequency
8032: LTE MRO UTRAN frequency related
Inter System Handover attempts ISYS_HO_UTRAN_VOLTE_AT to UTRAN (Event B2-VoLTE Met) T_F per UTRAN frequency
8033: LTE Mobility Events
Number of A2 events received, which crossed inter frequency threshold
REPORTS_INTFREQ_A2
8033: LTE Mobility Events
Number of A2 events received, which crossed inter frequency QCI1 threshold
REPORTS_INTFREQ_A2_QCI_ 1
8033: LTE Mobility Events
Number of A2 events received, which crossed WCDMA threshold
REPORTS_WCDMA_A2
8033: LTE Mobility Events
Number of A2 events received, which crossed WCDMA QCI1 threshold
REPORTS_WCDMA_A2_QCI_ 1
8033: LTE Mobility Events
Number of A2 events received, which crossed RSRQ mobility threshold
REPORTS_RSRQ_A2
8033: LTE Mobility Events
Number of A2 events received, which crossed redirect RSRP threshold
REPORTS_RSRP_A2_REDIR
8033: LTE Mobility Events
Number of A2 events received, which crossed redirect RSRQ threshold
REPORTS_RSRQ_A2_REDIR
8033: LTE Mobility Events
Number of A1 events triggered for RSRP
REPORTS_RSRP_A1
8033: LTE Mobility Events
Number of A1 events received, REPORTS_A1_QCI_1 which crossed A1 QCI1 threshold
8034: LTE EUTRA carrier frequency
Number of A4 measurement activations for Measurement Based IMLB
A4_MEAS_ACT_MBIMLB
8034: LTE EUTRA carrier frequency
Number of successfully evaluated A4 measurement reports for Measurement Based IMLB
A4_MEAS_SUCC_MBIMLB
8035: LTE S1 SCTP Statistics
Number of data chunks sent to S1 SCTP peer
SCTP_S1CHSNT
8035: LTE S1 SCTP Statistics
Number of data chunks received SCTP_S1CHRCV from S1 SCTP peer
8035: LTE S1 SCTP Statistics
Number of data chunks re-sent to S1 SCTP peer
8035: LTE S1 SCTP Statistics
Duration of congested periods of SCTP_S1CONDUR S1 SCTP association
8035: LTE S1 SCTP Statistics
Number of S1 SCTP association SCTP_S1NBRASSOCCON state changes to congested.
8035: LTE S1 SCTP Statistics
Duration of unavailable periods of S1 SCTP association.
8035: LTE S1 SCTP Statistics
Number of S1 SCTP association SCTP_S1NBRASSOCUNAVL state changes to unavailable.
8036: LTE X2 SCTP Statistics
Number of data chunks sent to X2 SCTP peer
8036: LTE X2 SCTP Statistics
Number of data chunks received SCTP_X2CHRCV from X2 SCTP peer
8036: LTE X2 SCTP Statistics
Number of data chunks re-sent to X2 SCTP peer
SCTP_S1CHRSNT
SCTP_S1UNVLDUR
SCTP_X2CHSNT
SCTP_X2CHRSNT
8036: LTE X2 SCTP Statistics
Duration of congested periods of SCTP_X2CONDUR X2 SCTP association
8036: LTE X2 SCTP Statistics
Number of X2 SCTP association SCTP_X2NBRASSOCCON state changes to congested.
8036: LTE X2 SCTP Statistics
Duration of unavailable periods of X2 SCTP association.
8036: LTE X2 SCTP Statistics
Number of X2 SCTP association SCTP_X2NBRASSOCUNAVL state changes to unavailable.
8037: LTE M3 SCTP Statistics
Number of data chunks sent to M3 SCTP peer
8037: LTE M3 SCTP Statistics
Number of data chunks received SCTP_M3CHRCV from M3 SCTP peer
8037: LTE M3 SCTP Statistics
Number of data chunks re-sent to M3 SCTP peer
8037: LTE M3 SCTP Statistics
Duration of congested periods of SCTP_M3CONDUR M3 SCTP association.
8037: LTE M3 SCTP Statistics
Number of M3 SCTP association SCTP_M3NBRASSOCCON state changes to congested.
8037: LTE M3 SCTP Statistics
Duration of unavailable periods of M3 SCTP association.
8037: LTE M3 SCTP Statistics
Number of M3 SCTP association SCTP_M3NBRASSOCUNAVL state changes to unavailable.
51120: LTE IP Statistics
ifInPackets15
SCTP_X2UNVLDUR
SCTP_M3CHSNT
SCTP_M3CHRSNT
SCTP_M3UNVLDUR
ifInPackets15
51120: LTE IP Statistics
ifInOctets15
ifInOctets15
51120: LTE IP Statistics
ifOutPackets15
ifOutPackets15
51120: LTE IP Statistics
ifOutOctets15
ifOutOctets15
51120: LTE IP Statistics
ifInErrors15
ifInErrors15
51120: LTE IP Statistics
ifOutDroppedPackets
ifOutDroppedPackets
51120: LTE IP Statistics
ifOutDroppedOctets
ifOutDroppedOctets
51120: LTE IP Statistics
ifInMCastPackets
ifInMCastPackets
51120: LTE IP Statistics
ifInMCastOctets
ifInMCastOctets
51120: LTE IP Statistics
ifOutMCastPackets
ifOutMCastPackets
51120: LTE IP Statistics
ifOutMCastOctets
ifOutMCastOctets
51120: LTE IP Statistics
ifInDiscardedMCastPackets
ifInDiscardedMCastPackets
51120: LTE IP Statistics
ifInDiscardedMCastOctets
ifInDiscardedMCastOctets
51121: LTE PHB Statistics
ifOctets_EF
ifOctets_EF
51121: LTE PHB Statistics
ifPackets_EF
ifPackets_EF
51121: LTE PHB Statistics
ifDroppedOctets_EF
ifDroppedOctets_EF
51121: LTE PHB Statistics
ifDroppedPackets_EF
ifDroppedPackets_EF
51121: LTE PHB Statistics
ifOctets_AF4
ifOctets_AF4
51121: LTE PHB Statistics
ifPackets_AF4
ifPackets_AF4
51121: LTE PHB Statistics
ifDroppedOctets_AF4
ifDroppedOctets_AF4
51121: LTE PHB Statistics
ifDroppedPackets_AF4
ifDroppedPackets_AF4
51121: LTE PHB Statistics
ifOctets_AF3
ifOctets_AF3
51121: LTE PHB Statistics
ifPackets_AF3
ifPackets_AF3
51121: LTE PHB Statistics
ifDroppedOctets_AF3
ifDroppedOctets_AF3
51121: LTE PHB Statistics
ifDroppedPackets_AF3
ifDroppedPackets_AF3
51121: LTE PHB Statistics
ifOctets_AF2
ifOctets_AF2
51121: LTE PHB Statistics
ifPackets_AF2
ifPackets_AF2
51121: LTE PHB Statistics
ifDroppedOctets_AF2
ifDroppedOctets_AF2
51121: LTE PHB Statistics
ifDroppedPackets_AF2
ifDroppedPackets_AF2
51121: LTE PHB Statistics
ifOctets_AF1
ifOctets_AF1
51121: LTE PHB Statistics
ifPackets_AF1
ifPackets_AF1
51121: LTE PHB Statistics
ifDroppedOctets_AF1
ifDroppedOctets_AF1
51121: LTE PHB Statistics
ifDroppedPackets_AF1
ifDroppedPackets_AF1
51121: LTE PHB Statistics
ifOctets_BE
ifOctets_BE
51121: LTE PHB Statistics
ifPackets_BE
ifPackets_BE
51121: LTE PHB Statistics
ifDroppedOctets_BE
ifDroppedOctets_BE
51121: LTE PHB Statistics
ifDroppedPackets_BE
ifDroppedPackets_BE
51121: LTE PHB Statistics
ifRxOctets_EF
ifRxOctets_EF
51121: LTE PHB Statistics
ifRxPackets_EF
ifRxPackets_EF
51121: LTE PHB Statistics
ifRxOctets_AF4
ifRxOctets_AF4
51121: LTE PHB Statistics
ifRxPackets_AF4
ifRxPackets_AF4
51121: LTE PHB Statistics
ifRxOctets_AF3
ifRxOctets_AF3
51121: LTE PHB Statistics
ifRxPackets_AF3
ifRxPackets_AF3
51121: LTE PHB Statistics
ifRxOctets_AF2
ifRxOctets_AF2
51121: LTE PHB Statistics
ifRxPackets_AF2
ifRxPackets_AF2
51121: LTE PHB Statistics
ifRxOctets_AF1
ifRxOctets_AF1
51121: LTE PHB Statistics
ifRxPackets_AF1
ifRxPackets_AF1
51121: LTE PHB Statistics
ifRxOctets_BE
ifRxOctets_BE
51121: LTE PHB Statistics
ifRxPackets_BE
ifRxPackets_BE
51123: LTE Ethernet Link
EthIfInOcts_15
EthIfInOcts_15
51123: LTE Ethernet Link
EthIfOutOcts_15
EthIfOutOcts_15
51123: LTE Ethernet Link
EthIfInPkt_15
EthIfInPkt_15
51123: LTE Ethernet Link
EthIfOutPkt_15
EthIfOutPkt_15
51123: LTE Ethernet Link
EthIfInPktErr_15
EthIfInPktErr_15
51123: LTE Ethernet Link
EthIfInDiscRateLimiting
EthIfInDiscRateLimiting
51123: LTE Ethernet Link
ethIfInVlanMismatch
ethIfInVlanMismatch
51123: LTE Ethernet Link
ethIfOutDiscShaping_Q5
ethIfOutDiscShaping_Q5
51123: LTE Ethernet Link
ethIfOutDiscShaping_Q4
ethIfOutDiscShaping_Q4
51123: LTE Ethernet Link
ethIfOutDiscShaping_Q3
ethIfOutDiscShaping_Q3
51123: LTE Ethernet Link
ethIfOutDiscShaping_Q2
ethIfOutDiscShaping_Q2
51123: LTE Ethernet Link
ethIfOutDiscShaping_Q1
ethIfOutDiscShaping_Q1
51123: LTE Ethernet Link
ethIfOutDiscShaping_Q6
ethIfOutDiscShaping_Q6
51123: LTE Ethernet Link
EthIfInBlocksDiscRateLimiting
EthIfInBlocksDiscRateLimiting
51125: LTE IP Sec
Protected_ESPFramesTx
Protected_ESPFramesTx
51125: LTE IP Sec
Protected_ESPFramesRx
Protected_ESPFramesRx
51125: LTE IP Sec
Discarded_ESPFramesTx
Discarded_ESPFramesTx
51125: LTE IP Sec
Discarded_ESPFramesRx
Discarded_ESPFramesRx
51125: LTE IP Sec
Bypassed_FramesTx
Bypassed_FramesTx
51125: LTE IP Sec
Bypassed_FramesRx
Bypassed_FramesRx
51126: LTE IP Filtering
ipRmDroppedPacketsRateLimitin ipRmDroppedPacketsRateLimiti g ng
51126: LTE IP Filtering
ipRmDroppedPacketsFiltering
ipRmDroppedPacketsFiltering
51127: LTE VLAN IP Statistics
ifInPackets15
ifInPackets15
51127: LTE VLAN IP Statistics
ifInOctets15
ifInOctets15
51127: LTE VLAN IP Statistics
ifOutPackets15
ifOutPackets15
51127: LTE VLAN IP Statistics
ifOutOctets15
ifOutOctets15
51127: LTE VLAN IP Statistics
ifInErrors15
ifInErrors15
51127: LTE VLAN IP Statistics
ifOutDroppedPackets
ifOutDroppedPackets
51127: LTE VLAN IP Statistics
ifOutDroppedOctets
ifOutDroppedOctets
51127: LTE VLAN IP Statistics
ifInMCastPackets
ifInMCastPackets
51127: LTE VLAN IP Statistics
ifInMCastOctets
ifInMCastOctets
51127: LTE VLAN IP Statistics
ifOutMCastPackets
ifOutMCastPackets
51127: LTE VLAN IP Statistics
ifOutMCastOctets
ifOutMCastOctets
51127: LTE VLAN IP Statistics
ifInDiscardedMCastPackets
ifInDiscardedMCastPackets
51127: LTE VLAN IP Statistics
ifInDiscardedMCastOctets
ifInDiscardedMCastOctets
51128: LTE VLAN PHB Statistics
ifOctets_EF
ifOctets_EF
51128: LTE VLAN PHB Statistics
ifPackets_EF
ifPackets_EF
51128: LTE VLAN PHB Statistics
ifDroppedOctets_EF
ifDroppedOctets_EF
51128: LTE VLAN PHB Statistics
ifDroppedPackets_EF
ifDroppedPackets_EF
51128: LTE VLAN PHB Statistics
ifOctets_AF4
ifOctets_AF4
51128: LTE VLAN PHB Statistics
ifPackets_AF4
ifPackets_AF4
51128: LTE VLAN PHB Statistics
ifDroppedOctets_AF4
ifDroppedOctets_AF4
51128: LTE VLAN PHB Statistics
ifDroppedPackets_AF4
ifDroppedPackets_AF4
51128: LTE VLAN PHB Statistics
ifOctets_AF3
ifOctets_AF3
51128: LTE VLAN PHB Statistics
ifPackets_AF3
ifPackets_AF3
51128: LTE VLAN PHB Statistics
ifDroppedOctets_AF3
ifDroppedOctets_AF3
51128: LTE VLAN PHB Statistics
ifDroppedPackets_AF3
ifDroppedPackets_AF3
51128: LTE VLAN PHB Statistics
ifOctets_AF2
ifOctets_AF2
51128: LTE VLAN PHB Statistics
ifPackets_AF2
ifPackets_AF2
51128: LTE VLAN PHB Statistics
ifDroppedOctets_AF2
ifDroppedOctets_AF2
51128: LTE VLAN PHB Statistics
ifDroppedPackets_AF2
ifDroppedPackets_AF2
51128: LTE VLAN PHB Statistics
ifOctets_AF1
ifOctets_AF1
51128: LTE VLAN PHB Statistics
ifPackets_AF1
ifPackets_AF1
51128: LTE VLAN PHB Statistics
ifDroppedOctets_AF1
ifDroppedOctets_AF1
51128: LTE VLAN PHB Statistics
ifDroppedPackets_AF1
ifDroppedPackets_AF1
51128: LTE VLAN PHB Statistics
ifOctets_BE
ifOctets_BE
51128: LTE VLAN PHB Statistics
ifPackets_BE
ifPackets_BE
51128: LTE VLAN PHB Statistics
ifDroppedOctets_BE
ifDroppedOctets_BE
51128: LTE VLAN PHB Statistics
ifDroppedPackets_BE
ifDroppedPackets_BE
51128: LTE VLAN PHB Statistics
ifRxOctets_EF
ifRxOctets_EF
51128: LTE VLAN PHB Statistics
ifRxPackets_EF
ifRxPackets_EF
51128: LTE VLAN PHB Statistics
ifRxOctets_AF4
ifRxOctets_AF4
51128: LTE VLAN PHB Statistics
ifRxPackets_AF4
ifRxPackets_AF4
51128: LTE VLAN PHB Statistics
ifRxOctets_AF3
ifRxOctets_AF3
51128: LTE VLAN PHB Statistics
ifRxPackets_AF3
ifRxPackets_AF3
51128: LTE VLAN PHB Statistics
ifRxOctets_AF2
ifRxOctets_AF2
51128: LTE VLAN PHB Statistics
ifRxPackets_AF2
ifRxPackets_AF2
51128: LTE VLAN PHB Statistics
ifRxOctets_AF1
ifRxOctets_AF1
51128: LTE VLAN PHB Statistics
ifRxPackets_AF1
ifRxPackets_AF1
51128: LTE VLAN PHB Statistics
ifRxOctets_BE
ifRxOctets_BE
51128: LTE VLAN PHB Statistics
ifRxPackets_BE
ifRxPackets_BE
51129: LTE VLAN Statistics
rxEthernetPackets
rxEthernetPackets
51129: LTE VLAN Statistics
rxEthernetOctets
rxEhernetOctets
51129: LTE VLAN Statistics
txEthernetPackets
txEthernetPackets
51129: LTE VLAN Statistics
txEthernetOctets
txEthernetOctets
51130: LTE ETH_IF Statistics
rxEthernetPackets
rxEthernetPackets
51130: LTE ETH_IF Statistics
rxEthernetOctets
rxEhernetOctets
51130: LTE ETH_IF Statistics
txEthernetPackets
txEthernetPackets
51130: LTE ETH_IF Statistics
txEthernetOctets
txEthernetOctets
51130: LTE ETH_IF Statistics
EthIfInUnknownVLAN_15
EthIfInUnknownVLAN_15
51130: LTE ETH_IF Statistics
rxFramesMulticast
rxFramesMulticast
51130: LTE ETH_IF Statistics
txFramesMulticast
txFramesMulticast
51131: LTE L2 Switch Statistics
ethIfOutDiscShaping
ethIfOutDiscShaping
51132: LTE TWAMP Statistics
avgRTT_15Min
avgRTT_15Min
51132: LTE TWAMP Statistics
maxRTT_15Min
maxRTT_15Min
51132: LTE TWAMP Statistics
minRTT_15Min
minRTT_15Min
51132: LTE TWAMP Statistics
lostTwampMessages
lostTwampMessages
51132: LTE TWAMP Statistics
txTwampMessages
txTwampMessages
51136: LTE TAC Statistics
tacSuccessfulGbrNormal
tacSuccessfulGbrNormal
51136: LTE TAC Statistics
tacSuccessfulGbrHandover
tacSuccessfulGbrHandover
51136: LTE TAC Statistics
tacSuccessfulGbrEmergency
tacSuccessfulGbrEmergency
51136: LTE TAC Statistics
tacRejectedGbrNormal
tacRejectedGbrNormal
51136: LTE TAC Statistics
tacRejectedGbrHandover
tacRejectedGbrHandover
51136: LTE TAC Statistics
tacRejectedGbrEmergency
tacRejectedGbrEmergency
51136: LTE TAC Statistics
tacUlGbrRateMean
tacUlGbrRateMean
51136: LTE TAC Statistics
tacUlGbrRateMax
tacUlGbrRateMax
51136: LTE TAC Statistics
tacDlGbrRateMean
tacDlGbrRateMean
51136: LTE TAC Statistics
tacDlGbrRateMax
tacDlGbrRateMax
51137: LTE TOP FreqSync Statistics
topRxFreqSyncMsg
topRxFreqSyncMsg
51137: LTE TOP FreqSync Statistics
topMinFreqSyncError
topMinFreqSyncError
51137: LTE TOP FreqSync Statistics
topAvgFreqSyncError
topAvgFreqSyncError
51137: LTE TOP FreqSync Statistics
topMaxFreqSyncError
topMaxFreqSyncError
51137: LTE TOP FreqSync Statistics
topFreqSyncSLS
topFreqSyncSLS
51138: LTE TOP PhaseSync Statistics
topRxPhaseSyncMsg
topRxPhaseSyncMsg
51138: LTE TOP PhaseSync Statistics
topMinPhaseSyncError
topMinPhaseSyncError
51138: LTE TOP PhaseSync Statistics
topAvgPhaseSyncError
topAvgPhaseSyncError
51138: LTE TOP PhaseSync Statistics
topMaxPhaseSyncError
topMaxPhaseSyncError
51138: LTE TOP PhaseSync Statistics
topPhaseSyncSLS
topPhaseSyncSLS
51139: WIFI statistics
wifiUplinkTxBytes
wifiUplinkTxBytes
51139: WIFI statistics
wifiDownlinkRxBytes
wifiDownlinkRxBytes
8006: LTE EPS Bearer
EPS Bearer setup failures due to EPS_BEARER_SETUP_FAIL_R Radio Network Layer NL
8006: LTE EPS Bearer
EPS Bearer setup failures due to EPS_BEARER_SETUP_FAIL_T Transport Layer RPORT
8006: LTE EPS Bearer
EPS Bearer setup failures due to EPS_BEARER_SETUP_FAIL_R Radio Resource reasons ESOUR
8006: LTE EPS Bearer
EPS Bearer setup failures due to EPS_BEARER_SETUP_FAIL_ Other reasons OTH
8006: LTE EPS Bearer
Released E-RABs initiated by the ENB_EPS_BEARER_REL_RE eNB due to User Inactivity Q_NORM
8006: LTE EPS Bearer
Released E-RABs initiated by the ENB_EPS_BEARER_REL_RE eNB due to Radio Link Failure Q_RNL
8006: LTE EPS Bearer
Released E-RABs initiated by the ENB_EPS_BEARER_REL_RE eNB due to other reasons Q_OTH
8006: LTE EPS Bearer
Released E-RABs initiated by the ENB_EPSBEAR_REL_REQ_R eNB due to Redirect NL_REDIR
8006: LTE EPS Bearer
Released QCI1 E-RABs initiated ENB_EPS_BEAR_REL_REQ_N by the eNB due to User Inactivity _QCI1
8006: LTE EPS Bearer
Released QCI1 E-RABs initiated ENB_EPS_BEAR_REL_REQ_R by the eNB due to Radio Link _QCI1 Failure
8006: LTE EPS Bearer
Released QCI1 E-RABs initiated ENB_EPS_BEAR_REL_REQ_O by the eNB due to other reasons _QCI1
8006: LTE EPS Bearer
Released QCI1 E-RABs initiated ENB_EPS_BEAR_REL_REQ_R by the eNB due to Redirect D_QCI1
8006: LTE EPS Bearer
Pre-empted GBR bearers
PRE_EMPT_GBR_BEARER
8006: LTE EPS Bearer
Pre-empted non-GBR bearers
PRE_EMPT_NON_GBR_BEAR ER
8007: LTE Radio Bearer
Number of released Data Radio RB_REL_REQ_NORM_REL Bearers due to Normal Release
8007: LTE Radio Bearer
Number of released Data Radio Bearers due to Lost Radio Connection
RB_REL_REQ_RNL
8007: LTE Radio Bearer
Number of released Data Radio Bearers due to Other Reasons
RB_REL_REQ_OTHER
8007: LTE Radio Bearer
Radio Bearer Release requests including redirect information
RB_REL_REQ_RNL_REDIR
8012: LTE Cell Throughput
PDCP Throughput UL Min
PDCP_DATA_RATE_MIN_UL
8012: LTE Cell Throughput
PDCP Throughput DL Min
PDCP_DATA_RATE_MIN_DL
8013: LTE UE State
Signaling Connection Establishment failures due to Rejection by RRM RAC
SIGN_CONN_ESTAB_FAIL_RR MRAC
8013: LTE UE State
Signaling Connection Establishment attempts due to others
SIGN_CONN_ESTAB_ATT_OT HERS
Product Type
Description
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of S1 Setup Requests. Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of S1 Setup completions. Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of S1 Setup failures due to the Controller,FDD,TDD,SBTS expiration of the S1 setup procedure guarding timer. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of S1 Setup failures due to the Controller,FDD,TDD,SBTS reception of S1 Setup Failure message from MME. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of S1 paging requests. Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of S1 Full Reset messages initiated Controller,FDD,TDD,SBTS by eNB.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of S1 Full Reset messages initiated Controller,FDD,TDD,SBTS by MME
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of S1 Partial Reset messages Controller,FDD,TDD,SBTS initiated by eNB.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of S1 Partial Reset messages Controller,FDD,TDD,SBTS initiated by MME
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of UE context modification attempts Controller,FDD,TDD,SBTS due to UE-AMBR modification
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of failed Controller,FDD,TDD,SBTS WRITE-REPLACE WARNING procedures. The procedure is regarded as failed when there is no eNB cell for which the Warning Message has been successfully initiated. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone handling Number of failed KILL procedures. The Controller,FDD,TDD,SBTS
procedure is regarded as failed when the cancellation of the indicated Warning Message has not been initiated for at least one cell of the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone eNB. The number of Uplink NAS Transport messages Controller,FDD,TDD,SBTS sent to MME.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Downlink NAS Transport Controller,FDD,TDD,SBTS messages received by the eNB.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of E-RAB Setup Requests for IMS Controller,FDD,TDD,SBTS emergency sessions.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of E-RAB Setup Completions for Controller,FDD,TDD,SBTS IMS emergency sessions.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of E-RAB setup failures for IMS Controller,FDD,TDD,SBTS emergency sessions due to missing RB (Radio Bearer) resources. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Location Reporting Control Controller,FDD,TDD,SBTS messages received from MME per eNB.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Location Report messages sent Controller,FDD,TDD,SBTS to MME per eNB.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of successful Controller,FDD,TDD,SBTS X2 IP address retrievals of a neighbor eNB via S1. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of attempts Controller,FDD,TDD,SBTS initiated by eNB to retrieve the X2 IP address of a neighbor eNB via S1. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of S1AP:WRITE-REPLACE WARNING Controller,FDD,TDD,SBTS REQUEST messages received from MME.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of S1AP:WRITE-REPLACE WARNING Controller,FDD,TDD,SBTS RESPONSE messages sent to MME.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of S1AP:KILL REQUEST messages Controller,FDD,TDD,SBTS received from MME.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of S1AP:KILL RESPONSE messages Controller,FDD,TDD,SBTS sent to MME.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of downlink UE Controller,FDD,TDD,SBTS associated LPPa transport messages with E-CID measurement initiation request per eNB (LPPA:E-CID MEASUREMENT INITIATION Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone REQUEST). This counter provides the number of uplink UE Controller,FDD,TDD,SBTS
associated LPPa transport messages with E-CID measurement initiation response per eNB (LPPA:E-CID MEASUREMENT INITIATION Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone RESPONSE). This counter provides the number of uplink UE Controller,FDD,TDD,SBTS associated LPPa transport messages with E-CID measurement initiation response per eNB with cause "Requested Item not Supported" (LPPA:E-CID MEASUREMENT INITIATION Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of uplink UE FAILURE). The following list shows thewith potential Controller,FDD,TDD,SBTS associated LPPa transport messages E-CID scenarios where this may happen: measurement initiation response per eNB with -cause The feature is notItem activated. "Requested Temporarily not -Available" None of the requested E-CID measurements Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The minimum retention period for a PDCP SDU are supported. (LPPA:E-CID INITIATION Controller,FDD,TDD,SBTS (DL) theMEASUREMENT eNB. -FAILURE). Theinside periodic reporting is requested (but not yet supported). The following are potential scenarios where this -may TDD: Request for AoA but dependent features happen: are not activated. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The maximum retention period for ahandover PDCP SDU - Request for measurements when is in Controller,FDD,TDD,SBTS (DL) inside the eNB. progress - Requested measurements are supported but none of the measurements can be provided due internal failure. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone to The mean eNB retention period for a PDCP SDU (DL) Controller,FDD,TDD,SBTS inside the eNB.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The minimum retention period for a PDCP SDU Controller,FDD,TDD,SBTS (UL) inside the eNB.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The maximum retention period for a PDCP SDU Controller,FDD,TDD,SBTS (UL) inside the eNB.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The mean retention period for a PDCP SDU (UL) Controller,FDD,TDD,SBTS inside the eNB.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of RACH setup attempts for small Controller,FDD,TDD,SBTS size messages (only contention based).
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of RACH setup attempts for large Controller,FDD,TDD,SBTS size messages (only contention based).
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of RACH setup completions Controller,FDD,TDD,SBTS (contention based and dedicated preambles).
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmitted transport blocks on Controller,FDD,TDD,SBTS PCH.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmitted transport blocks on Controller,FDD,TDD,SBTS BCH.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmitted transport blocks on Controller,FDD,TDD,SBTS DL-SCH.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of HARQ retransmissions on DLController,FDD,TDD,SBTS SCH.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of correct non-duplicate UL-SCH TB Controller,FDD,TDD,SBTS with original reception.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of correct UL-SCH TB with reController,FDD,TDD,SBTS reception
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of erroneous UL-SCH TB Controller,FDD,TDD,SBTS receptions.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS0
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS1
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS2
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS3
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS4
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS5
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS6
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS7
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS8
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS9
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS10
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS11
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS12
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS13
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS14
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS15
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS16
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS17
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS18
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS19
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS20
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS21
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS22
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS23
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS24
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS25
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS26
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS27
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PUSCH over Controller,FDD,TDD,SBTS the measurement period using MCS28
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS0
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS1
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS2
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS3
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS4
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS5
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS6
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS7
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS8
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS9
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS10
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS11
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS12
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS13
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS14
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS15
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS16
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS17
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS18
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS19
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS20
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS21
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS22
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS23
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS24
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS25
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS26
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS27
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmissions on PDSCH over Controller,FDD,TDD,SBTS the measurement period using MCS28
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS0
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS1
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS2
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS3
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS4
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS5
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS6
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS7
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS8
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS9
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS10
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS11
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS12
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS13
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS14
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS15
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS16
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS17
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS18
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS19
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS20
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS21
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS22
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS23
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS24
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS25
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS26
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS27
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PUSCH using MCS28
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS0
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS1
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS2
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS3
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS4
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS5
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS6
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS7
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS8
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS9
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS10
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS11
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS12
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS13
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS14
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS15
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS16
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS17
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS18
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS19
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS20
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS21
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS22
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS23
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS24
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS25
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS26
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS27
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unacknowledged transmissions Controller,FDD,TDD,SBTS on PDSCH using MCS28
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of RLC SDUs on DL DTCH Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of RLC SDUs on DL DCCH Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of RLC SDUs on UL DTCH Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of RLC SDUs on UL DCCH Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of RLC AM/UM data PDUs Controller,FDD,TDD,SBTS transmitted for the first time on the RLC level
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of RLC data PDUs retransmitted on Controller,FDD,TDD,SBTS the RLC level
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Non-duplicate RLC AM/UM data Controller,FDD,TDD,SBTS PDUs received.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of DL RLC Control PDUs transmitted Controller,FDD,TDD,SBTS the first time
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of DL RLC Data PDUs transmitted Controller,FDD,TDD,SBTS the first time
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of UL RLC PDUs received (total). Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of duplicate UL RLC PDU received Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of UL RLC PDUs retransmission Controller,FDD,TDD,SBTS requested on the RLC level
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of UL RLC PDUs discarded Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of DL RLC SDUs received from the Controller,FDD,TDD,SBTS upper layer
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The average number of UE contexts per TTI with Controller,FDD,TDD,SBTS UP data on the RLC-level buffers in the DL (active users). This measurement can be used to monitor the congestion level of the eNB queuing which is realized forTTI the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone system, The maximum number of by UEschedulers contexts per shared channels. Controller,FDD,TDD,SBTS with UP data on the RLC-level buffers in the DL The reported 100 times higher than theto (active users).value This is measurement can be used actual value (for example, 1.00 is stored as 100). monitor the congestion level of the eNB queuing Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
system, which is realizedthe byaggregated schedulers time for the The counter represents shared channels. period of the Control Plane during Overload level 1 operation.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The average number of UE contexts per TTI Controller,FDD,TDD,SBTS having buffered DRB data in the UL (active users). This measurement can be used to monitor the congestion level of the eNB queuing which is realized forTTI the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone system, The maximum number of by UEschedulers contexts per shared channels. Controller,FDD,TDD,SBTS having buffered DRB data in the UL (active The reported value is 100 times higher users). This measurement can be usedthan to the actual value (for example, 1.00 is stored as 100). monitor the congestion level of the eNB queuing Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
system, which is realizedthe byaggregated schedulers time for the The counter represents shared channels (Inter-RAT Redirection). period of the Control Plane during Overload level 2 operation.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of received PDCP SDUs (uplink) per Controller,FDD,TDD,SBTS cell.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmitted PDCP SDUs per cell. Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the total number of Controller,FDD,TDD,SBTS discarded PDCP SDUs in downlink for DRBs.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS0 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS1 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS2 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS3 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS4 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS5 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS6 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS7 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS8 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS9 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS10 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS11 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS12 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS13 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS14 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS15 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS16 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS17 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS18 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS19 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS20 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful receptions on Controller,FDD,TDD,SBTS PUSCH using MCS0 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful receptions on Controller,FDD,TDD,SBTS PUSCH using MCS1 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful receptions on Controller,FDD,TDD,SBTS PUSCH using MCS2 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful receptions on Controller,FDD,TDD,SBTS PUSCH using MCS3 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful receptions on Controller,FDD,TDD,SBTS PUSCH using MCS4 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful receptions on Controller,FDD,TDD,SBTS PUSCH using MCS5 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful receptions on Controller,FDD,TDD,SBTS PUSCH using MCS6 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful receptions on Controller,FDD,TDD,SBTS PUSCH using MCS7 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful receptions on Controller,FDD,TDD,SBTS PUSCH using MCS8 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful receptions on Controller,FDD,TDD,SBTS PUSCH using MCS9 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful receptions on Controller,FDD,TDD,SBTS PUSCH using MCS10 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful receptions on Controller,FDD,TDD,SBTS PUSCH using MCS11 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful receptions on Controller,FDD,TDD,SBTS PUSCH using MCS12 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful receptions on Controller,FDD,TDD,SBTS PUSCH using MCS13 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful receptions on Controller,FDD,TDD,SBTS PUSCH using MCS14 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful receptions on Controller,FDD,TDD,SBTS PUSCH using MCS15 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful receptions on Controller,FDD,TDD,SBTS PUSCH using MCS16 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful receptions on Controller,FDD,TDD,SBTS PUSCH using MCS17 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful receptions on Controller,FDD,TDD,SBTS PUSCH using MCS18 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful receptions on Controller,FDD,TDD,SBTS PUSCH using MCS19 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful receptions on Controller,FDD,TDD,SBTS PUSCH using MCS20 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the average number of Controller,FDD,TDD,SBTS UEs per TTI using UL intra-eNB CoMP. The reported value is 100 times higher than the actual value (for example 1.00 is stored as 100). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The average number of UEs in Controller,FDD,TDD,SBTS RRC_CONNECTED state over the measurement period. The average value is the arithmetical average of samples taken from the number of in RRC_CONNECTED Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone UEs The highest value for numberstate. of UEs in Controller,FDD,TDD,SBTS
RRC_CONNECTED state over the measurement period.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS21 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS22 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS23 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS24 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS25 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS26 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS27 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful transmissions on Controller,FDD,TDD,SBTS PDSCH using MCS28 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The volume of queued RLC SDUs is measured. Controller,FDD,TDD,SBTS DL SRB queues are counted only when there is data in the buffer. The minimum value over the measurement period is updated to this counter.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The volume of queued RLC SDUs is measured. Controller,FDD,TDD,SBTS DL SRB queues are counted only when there is data in the buffer. The mean value over the measurement period is updated to this counter. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The volume of queued RLC SDUs is measured. Controller,FDD,TDD,SBTS DL SRB queues are counted only when there is data in the buffer. The maximum value over the measurement period is updated to this counter. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The volume of queued RLC SDUs is measured. Controller,FDD,TDD,SBTS DL DRB queues are counted only when there is data in the buffer. The minimum value over the measurement period is updated to this counter. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The volume of queued RLC SDUs is measured. Controller,FDD,TDD,SBTS DL DRB queues are counted only when there is data in the buffer. The mean value over the measurement period is updated to this counter. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The volume of queued RLC SDUs is measured. Controller,FDD,TDD,SBTS DL DRB queues are counted only when there is data in the buffer. The maximum value over the measurement period is updated to this counter. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the average number Controller,FDD,TDD,SBTS of PRBs on PDSCH available for dynamic scheduling. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the average number Controller,FDD,TDD,SBTS of PRBs on PUSCH available for dynamic scheduling. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmitted RLC SDUs on BCCH Controller,FDD,TDD,SBTS per cell.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmitted RLC SDUs on CCCH Controller,FDD,TDD,SBTS per cell.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmitted RLC SDUs on PCCH Controller,FDD,TDD,SBTS per cell.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of received RLC SDUs on CCCH. Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The average number of active UEs per cell Controller,FDD,TDD,SBTS during measurement period. A UE is active if at least a single non-GBR DRB has been successfully configured for it.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The maximum number of active UEs per cell Controller,FDD,TDD,SBTS during measurement period. A UE is active if at least a single non-GBR DRB has been successfully configured for it. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The average number of UE contexts per TTI with Controller,FDD,TDD,SBTS buffered data in the DL for QCI1 data radio bearer. The reported value is 100 times higher than the value (for example, is stored Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone actual The average number of UE1.00 contexts per as TTI100). with Controller,FDD,TDD,SBTS
buffered data in the DL for QCI2 data radio bearer. The reported value is 100 times higher than the value (for example, is stored Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone actual The average number of UE1.00 contexts per as TTI100). with Controller,FDD,TDD,SBTS buffered data in the DL for QCI3 data radio bearer. The reported value is 100 times higher than the value (for example, is stored Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone actual The average number of UE1.00 contexts per as TTI100). with Controller,FDD,TDD,SBTS
buffered data in the DL for QCI4 data radio bearer. The reported value is 100 times higher than the value (for example, is stored as 100). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone actual Number of primary ETWS 1.00 notifications. Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of secondary ETWS notifications. Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of CMAS notifications. Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,TDD,SBTS
This counter provides the average number of active UEs with UE Category 8 (3GPP TS 36.306, 36.331). A UE is active when a Signalling Radio Bearer (SRB) and at least one Data Radio (DRB)number are established for the per UE.TTI with Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Bearer The average of UE contexts Controller,FDD,TDD,SBTS buffered data in the DL for non-GBR data radio bearers. The reported value is 100 times higher than the value (for example, 1.00 stored as 100). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone actual This measurement provides theissum of sampled Controller,FDD,TDD,SBTS
values for measuring the number of simultaneously Active UEs with buffered data in DL. This counter, divided by the denominator provides the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone DENOM_ACTIVE_UE_DATA_DL, The number of samples taken for counter average number of Active UEs with user Controller,FDD,TDD,SBTS SUM_ACTIVE_UE_DATA_DL used buffered as a plane data in DL per cell. denominator for average calculation.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the sum of sampled Controller,FDD,TDD,SBTS values for measuring the number of simultaneously Active UEs with buffered data in UL. This counter, divided by the denominator provides the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone DENOM_ACTIVE_UE_DATA_UL, The number of samples taken for counter average number of Active UEs with user Controller,FDD,TDD,SBTS SUM_ACTIVE_UE_DATA_UL used buffered as a plane data in UL per cell. denominator for average calculation. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The mean retention delay for a PDCP SDU (DL) Controller,FDD,TDD,SBTS inside eNB per QCI 1
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The mean retention delay for a PDCP SDU (DL) Controller,FDD,TDD,SBTS inside eNB non-GBR data radio bearers
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The mean retention delay for a PDCP SDU (DL) Controller,FDD,TDD,SBTS inside eNB for QCI2 bearers.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The mean retention delay for a PDCP SDU (DL) Controller,FDD,TDD,SBTS inside eNB for QCI3 bearers.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The mean retention delay for a PDCP SDU (DL) Controller,FDD,TDD,SBTS inside eNB for QCI4 bearers.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of RACH setup attempts for Controller,FDD,TDD,SBTS dedicated preambles.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the sum of Controller,FDD,TDD,SBTS scheduled UEs with expected DRB data in UL per cell to measure the number of simultaneously active UEs in a TTI, which had data scheduled in Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone UL. The number of samples taken for counter Controller,FDD,TDD,SBTS
SUM_ACT_UE_SCHED_DATA_UL used as a This counter, for divided by the denominator denominator average calculation. DENOM_ACT_UE_SCHED_DATA_UL, provides the average number of active UEs per cell, which Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement had data scheduledprovides in UL. the sum of sampled Controller,FDD,TDD,SBTS values for measuring the number of active UEs in a TTI, which had data scheduled in DL. This counter, divided by the denominator provides Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone DENOM_ACT_UE_SCHED_DATA_DL, The number of samples taken for counter the average number of active UEs per cell, Controller,FDD,TDD,SBTS SUM_ACT_UE_SCHED_DATA_DL used aswhich a had data scheduled in DL.calculation. denominator for average
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The counter represents the amount of overload Controller,FDD,TDD,SBTS samples when the user plane overload level is 1.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The counter represents the amount of overload Controller,FDD,TDD,SBTS samples when the user plane overload level is 2.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS received PDCP SDUs for QCI 1 bearers. Only user-plane traffic (DTCH) is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS received PDCP SDUs for QCI 2 bearers. Only user-plane traffic (DTCH) is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS received PDCP SDUs for QCI 3 bearers. Only user-plane traffic (DTCH) is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS received PDCP SDUs for QCI 4 bearers. Only user-plane traffic (DTCH) is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The mean IP latency (retention delay for a PDCP Controller,FDD,TDD,SBTS SDU) inside eNB for QCI 5 bearers.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The mean IP latency (retention delay for a PDCP Controller,FDD,TDD,SBTS SDU) inside eNB for QCI 6 bearers.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The mean IP latency (retention delay for a PDCP Controller,FDD,TDD,SBTS SDU) inside eNB for QCI 7 bearers.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The mean IP latency (retention delay for a PDCP Controller,FDD,TDD,SBTS SDU) inside eNB for QCI 8 bearers.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The mean IP latency (retention delay for a PDCP Controller,FDD,TDD,SBTS SDU) inside eNB for QCI 9 bearers.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmitted PDCP SDUs in Controller,FDD,TDD,SBTS downlink for QCI 1
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS transmitted PDCP SDUs in downlink for GBR DRBs of QCI2 characteristics. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS transmitted PDCP SDUs in downlink for GBR DRBs of QCI3 characteristics. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS transmitted PDCP SDUs in downlink for GBR DRBs of QCI4 characteristics. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the sum of sampled Controller,FDD,TDD,SBTS values for measuring the number of simultaneously RRC Connected UEs. This counter divided by the denominator provides the average Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone DENOM_RRC_CONN_UE The number of samples taken for counter number of RRC Connected UEs per cell. Controller,FDD,TDD,SBTS SUM_RRC_CONN_UE used as a denominator for average calculation. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the sum of sampled Controller,FDD,TDD,SBTS values for measuring the number of simultaneously Active UEs. This counter divided by the denominator DENOM_ACTIVE_UE the of average number UEs per Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone provides The number samples takenof forActive counter cell. Controller,FDD,TDD,SBTS SUM_ACTIVE_UE used as a denominator for A UE is active if at least a single non-GBR DRB average calculation. has been successfully configured for it. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The counter represents the time period for the Controller,FDD,TDD,SBTS broadcast of automatic access class barring information due to overload. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS discarded PDCP SDUs in downlink for GBR DRBs of QCI1 bearers. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS discarded PDCP SDUs in downlink for GBR DRBs of QCI2 characteristics. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS discarded PDCP SDUs in downlink for GBR DRBs of QCI3 characteristics. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS discarded PDCP SDUs in downlink for GBR DRBs of QCI4 characteristics.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The average number of UE contexts per TTI with Controller,FDD,TDD,SBTS buffered data in the UL for logical channel group (LCG), which has VoIP (QCI1) bearer that is mapped. Note that this counter provides reliable only if number QCI1 is of mapped into the LCG1. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone results The average UE contexts per TTI with The reported value is 100 times higher than the Controller,FDD,TDD,SBTS buffered data in the UL for logical channel actual (for example, 1.00bearers is stored as 100). groups,value which have non-GBR (QCI5...9) that are mapped. that in case of mixed GBR/non-GBR Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Note This counter provides the number of PDCCH bearers that are mapping into the LCG, Controller,FDD,TDD,SBTS order attempts (including PDCCH order there can be an error in the obtained results because it repetitions). cannot be distinguished whether this counter is updated only for non-GBR bearers or for GBR Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of initial bearers as well. Controller,FDD,TDD,SBTS PDCCH ordervalue attempts. The reported is 100 times higher than the actual value (for example, 1.00 is stored as 100). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of successful Controller,FDD,TDD,SBTS PDCCH orders.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of events when Controller,FDD,TDD,SBTS a dedicated preamble could not be assigned (eNB -> UE) because of insufficient dedicated preamble resources in the cell. This counter is irrespectively of that for which purpose a Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone updated This counter provides the number of events when dedicated preamble could not be assigned, that Controller,FDD,TDD,SBTS a dedicated preamble could not be assigned is irrespective ofPDCCH whetherorder a dedicated preamble (eNB -> UE) for purposes because could not be assigned, for example for PDCCH of insufficient dedicated preamble resources in order purposes, for handover purposes or for the cell. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This provides the number of events when othercounter purposes. Controller,FDD,TDD,SBTS a dedicated preamble could not be assigned (eNB -> UE) for handover purposes because of insufficient dedicated preamble resources in the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone cell. This counter provides the number of UE state Controller,FDD,TDD,SBTS
transitions from Uplink-In-Sync to Uplink-Out-OfSync.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the average number of Controller,FDD,TDD,SBTS UEs which are in Uplink-In-Sync. Remark: The average number of Uplink-Out-OfSync UEs is the difference between the average of RRC connected UEs and the average Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone number This counter provides the average number of number of Uplink-In-Sync UEs. Controller,FDD,TDD,SBTS RRC connected UEs which have set the "deviceType" in the "UE-EUTRA-Capability" to "noBenFromBatConsumpOpt", that is which have to the network that they not Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone indicated This counter is part of the(eNB) histogram "UEdo UL-Outforesee to benefit from network-based battery Controller,FDD,TDD,SBTS Of-Sync time" and provides the number of events consumption optimization (3GPP TS 36.331, when the measured Uplink-Out-Of-Sync time TS T of 36.306), that is which have indicated that their a UE was in the range power supply are not limited to the 0 seconds < Tresources <= 0.5 seconds. small battery of a normal UEtime (for example LTE The UE Uplink-Out-Of-Sync T is measured smart phone with limited battery life) but that by the eNB as the time between the UE statethey have access to unlimited power supply resources transition UL-In-Sync -> UL-Out-Of-Sync and the (for example LTE USB-stick connected to a PC subsequent UE state transition UL-Out-Of-Sync using the PC power supply resources). -> UL-In-Sync. The counters which are part of the histogram "UE UL-Out-Of-Sync time" provide information regarding the distribution of the UL-Out-Of-Sync times of the UEs in the cell.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter is part of the histogram "UE UL-OutController,FDD,TDD,SBTS Of-Sync time" and provides the number of events when the measured Uplink-Out-Of-Sync time T of a UE was in the range <= of 2.5the seconds. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone 0.5 Thisseconds counter UL-Out-Of-Sync and the subsequent UE state UL-Out-Of-Sync seconds <= of 10transition seconds. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone 2.5 This counter UL-In-Sync. The UE Uplink-Out-Of-Sync timenumber T is measured Controller,FDD,TDD,SBTS Of-Sync time"which and provides of events The counters arebetween partthe of the histogram "UE by the eNB as the time the UE state when the measured Uplink-Out-Of-Sync time T of UL-Out-Of-Sync time" provide information transition and the a UE was UL-In-Sync in the range-> UL-Out-Of-Sync regarding the distribution of the UL-Out-Of-Sync UL-Out-Of-Sync subsequent UE state transition seconds <= seconds. times of the < UEs in 100 the cell. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone 10 This counter isTpart of the histogram "UE UL-Out-> UL-In-Sync. The UE Uplink-Out-Of-Sync timenumber T is measured Controller,FDD,TDD,SBTS Of-Sync time"which and provides the of events The counters are part of the histogram "UE by the eNB as the time between the UE state when the measured Uplink-Out-Of-Sync time T of UL-Out-Of-Sync time" provide information transition -> UL-Out-Of-Sync and the a UE was UL-In-Sync regarding theUE distribution of the UL-Out-Of-Sync UL-Out-Of-Sync subsequent state transition than 100 seconds. times of the UEs in the cell. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone larger The number of first transmissions on PUSCH for -> UL-In-Sync. The UE Uplink-Out-Of-Sync time T is measured Controller,FDD,TDD,SBTS used Modulation and Coding Scheme. The counters arebetween part of the by the eNB aswhich the time thehistogram UE state "UE UL-Out-Of-Sync time" provide information transition UL-In-Sync -> UL-Out-Of-Sync and the regarding theUE distribution of the UL-Out-Of-Sync UL-Out-Of-Sync subsequent state transition times of the UEs in the cell. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone -> The number of first transmissions on PUSCH for UL-In-Sync. Controller,FDD,TDD,SBTS used Modulation andare Coding The counters which part ofScheme. the histogram "UE UL-Out-Of-Sync time" provide information regarding the distribution of the UL-Out-Of-Sync timesnumber of the UEs in the cell. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The of first transmissions on PUSCH for Controller,FDD,TDD,SBTS used Modulation and Coding Scheme.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of first transmissions on PUSCH for Controller,FDD,TDD,SBTS used Modulation and Coding Scheme.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of first transmissions on PUSCH for Controller,FDD,TDD,SBTS used Modulation and Coding Scheme.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of first transmissions on PUSCH for Controller,FDD,TDD,SBTS used Modulation and Coding Scheme.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of first transmissions on PUSCH for Controller,FDD,TDD,SBTS used Modulation and Coding Scheme.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of first transmissions on PUSCH for Controller,FDD,TDD,SBTS used Modulation and Coding Scheme.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of first transmissions on PUSCH for Controller,FDD,TDD,SBTS used Modulation and Coding Scheme.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of first transmissions on PUSCH for Controller,FDD,TDD,SBTS used Modulation and Coding Scheme.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of first transmissions on PUSCH for Controller,FDD,TDD,SBTS used Modulation and Coding Scheme.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of first transmissions on PUSCH for Controller,FDD,TDD,SBTS used Modulation and Coding Scheme.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of first transmissions on PUSCH for Controller,FDD,TDD,SBTS used Modulation and Coding Scheme.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of first transmissions on PUSCH for Controller,FDD,TDD,SBTS used Modulation and Coding Scheme.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of first transmissions on PUSCH for Controller,FDD,TDD,SBTS used Modulation and Coding Scheme.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of first transmissions on PUSCH for Controller,FDD,TDD,SBTS used Modulation and Coding Scheme.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of first transmissions on PUSCH for Controller,FDD,TDD,SBTS used Modulation and Coding Scheme.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of first transmissions on PUSCH for Controller,FDD,TDD,SBTS used Modulation and Coding Scheme.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of first transmissions on PUSCH for Controller,FDD,TDD,SBTS used Modulation and Coding Scheme.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of first transmissions on PUSCH for Controller,FDD,TDD,SBTS used Modulation and Coding Scheme.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of first transmissions on PUSCH for Controller,FDD,TDD,SBTS used Modulation and Coding Scheme.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of first transmissions on PUSCH for Controller,FDD,TDD,SBTS used Modulation and Coding Scheme.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of first transmissions on PUSCH for Controller,FDD,TDD,SBTS used Modulation and Coding Scheme.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of first transmissions on PUSCH for Controller,FDD,TDD,SBTS used Modulation and Coding Scheme.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of first transmissions on PUSCH for Controller,FDD,TDD,SBTS used Modulation and Coding Scheme.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of not acknowledged 1st Controller,FDD,TDD,SBTS transmissions on PUSCH for used Modulation and Coding Scheme. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of not acknowledged 1st Controller,FDD,TDD,SBTS transmissions on PUSCH for used Modulation and Coding Scheme. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of not acknowledged 1st Controller,FDD,TDD,SBTS transmissions on PUSCH for used Modulation and Coding Scheme. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of not acknowledged 1st Controller,FDD,TDD,SBTS transmissions on PUSCH for used Modulation and Coding Scheme. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of not acknowledged 1st Controller,FDD,TDD,SBTS transmissions on PUSCH for used Modulation and Coding Scheme. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of not acknowledged 1st Controller,FDD,TDD,SBTS transmissions on PUSCH for used Modulation and Coding Scheme. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of not acknowledged 1st Controller,FDD,TDD,SBTS transmissions on PUSCH for used Modulation and Coding Scheme.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of not acknowledged 1st Controller,FDD,TDD,SBTS transmissions on PUSCH for used Modulation and Coding Scheme. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of not acknowledged 1st Controller,FDD,TDD,SBTS transmissions on PUSCH for used Modulation and Coding Scheme. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of not acknowledged 1st Controller,FDD,TDD,SBTS transmissions on PUSCH for used Modulation and Coding Scheme. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of not acknowledged 1st Controller,FDD,TDD,SBTS transmissions on PUSCH for used Modulation and Coding Scheme. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of not acknowledged 1st Controller,FDD,TDD,SBTS transmissions on PUSCH for used Modulation and Coding Scheme. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of not acknowledged 1st Controller,FDD,TDD,SBTS transmissions on PUSCH for used Modulation and Coding Scheme. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of not acknowledged 1st Controller,FDD,TDD,SBTS transmissions on PUSCH for used Modulation and Coding Scheme. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of not acknowledged 1st Controller,FDD,TDD,SBTS transmissions on PUSCH for used Modulation and Coding Scheme. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of not acknowledged 1st Controller,FDD,TDD,SBTS transmissions on PUSCH for used Modulation and Coding Scheme. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of not acknowledged 1st Controller,FDD,TDD,SBTS transmissions on PUSCH for used Modulation and Coding Scheme. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of not acknowledged 1st Controller,FDD,TDD,SBTS transmissions on PUSCH for used Modulation and Coding Scheme. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of not acknowledged 1st Controller,FDD,TDD,SBTS transmissions on PUSCH for used Modulation and Coding Scheme.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of not acknowledged 1st Controller,FDD,TDD,SBTS transmissions on PUSCH for used Modulation and Coding Scheme. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of not acknowledged 1st Controller,FDD,TDD,SBTS transmissions on PUSCH for used Modulation and Coding Scheme. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of not acknowledged 1st Controller,FDD,TDD,SBTS transmissions on PUSCH for used Modulation and Coding Scheme. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of not acknowledged 1st Controller,FDD,TDD,SBTS transmissions on PUSCH for used Modulation and Coding Scheme. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of not acknowledged 1st Controller,FDD,TDD,SBTS transmissions on PUSCH for used Modulation and Coding Scheme. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of not acknowledged 1st Controller,FDD,TDD,SBTS transmissions on PUSCH for used Modulation and Coding Scheme. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful receptions on Controller,FDD,TDD,SBTS PUSCH for used Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful receptions on Controller,FDD,TDD,SBTS PUSCH for used Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful receptions on Controller,FDD,TDD,SBTS PUSCH for used Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of unsuccessful receptions on Controller,FDD,TDD,SBTS PUSCH for used Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered. Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,TDD,SBTS
This counter provides the average number of active UEs with UE Category 5 (3GPP TS 36.306, 36.331). A UE is active when a SRB (Signalling Radio Bearer) and at least one DRB Radio Bearer) for theofUE. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone (Data This counter providesare theestablished average number DL Controller,FDD,TDD,SBTS CA-capable UEs in the current cell. The counter is updated in the PCell. The reported value is 100 times higher than the actual value (for example, 1.00 is stored as 100).
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the average number of Controller,FDD,TDD,SBTS UEs in the current cell, which have a configured SCell. The reported value is 100 times higher than the value (for example is stored as of 100). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone actual This counter provides the 1.00 average number Controller,FDD,TDD,SBTS
UEs in the current cell, which have an activated SCell. The reported value is 100 times higher than the value (for example is stored as of 100). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone actual This counter provides the 1.00 average number DL Controller,FDD,TDD,SBTS CA-capable UEs for 3 component carriers (3 CCs) in the current cell. The counter is updated in the PCell. value is 100 times higher thanofthe Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The This reported counter provides the average number actual value (for example, 1.00 is stored as 100). Controller,FDD,TDD,SBTS UEs in the current cell having two configured SCells. Note: If a UE supports 2 CCs as higher well, this is the The reported value is 100 times than counted in M8001C494. value (for example, 1.00 is stored asof 100). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone actual This counter provides the average number Controller,FDD,TDD,SBTS UEs in the current cell, which have two activated SCells. The reported value is 100 times higher than the value (for example, is stored Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone actual The measurement gives an1.00 indication of as the100). X2 Controller,FDD,TDD,SBTS
interface signaling load per eNB by reporting the sum of received signaling volume.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The measurement gives an indication of the X2 Controller,FDD,TDD,SBTS interface signaling load per eNB by reporting the sum of transmitted signaling volume. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The measurement gives an indication of the X2 Controller,FDD,TDD,SBTS interface traffic load per eNB by reporting the sum of received u-plane traffic volume. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The measurement gives an indication of the X2 Controller,FDD,TDD,SBTS interface traffic load per eNB by reporting the sum of transmitted u-plane traffic volume. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS Min value for PUCCH, measured in the eNB.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS Max value for PUCCH, measured in the eNB.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS Mean value for PUCCH, measured in the eNB.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS Min value for PUSCH, measured in the eNB.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS Max value for PUSCH, measured in the eNB.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS Mean value for PUSCH, measured in the eNB.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS distribution for PUCCH, measured in the eNB. The RssiPucchUe value <= -120 dBm is updated to this counter. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS distribution for PUCCH, measured in the eNB. The RssiPucchUe value in the range of -120 dBm < RssiPucchUe <= -118 dBm is updated to Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone this The counter. Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS
distribution for PUCCH, measured in the eNB. The RssiPucchUe value in the range of -118 dBm < RssiPucchUe <= -116 dBm is updated to Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone this The counter. Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS distribution for PUCCH, measured in the eNB. The RssiPucchUe value in the range of -116 dBm < RssiPucchUe <= -114 dBm is updated to Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone this The counter. Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS
distribution for PUCCH, measured in the eNB. The RssiPucchUe value in the range of -114 dBm < RssiPucchUe <= -112 dBm is updated to Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone this The counter. Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS distribution for PUCCH, measured in the eNB. The RssiPucchUe value in the range of -112 dBm < RssiPucchUe <= -110 dBm is updated to Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone this The counter. Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS
distribution for PUCCH, measured in the eNB. The RssiPucchUe value in the range of -110 dBm < RssiPucchUe <= -108 dBm is updated to Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone this The counter. Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS distribution for PUCCH, measured in the eNB. The RssiPucchUe value in the range of -108 dBm < RssiPucchUe <= -106 dBm is updated to Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone this The counter. Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS
distribution for PUCCH, measured in the eNB. The RssiPucchUe value in the range of -106 dBm < RssiPucchUe <= -104 dBm is updated to this counter.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS distribution for PUCCH, measured in the eNB. The RssiPucchUe value in the range of -104 dBm < RssiPucchUe <= -102 dBm is updated to Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone this The counter. Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS
distribution for PUCCH, measured in the eNB. The RssiPucchUe value in the range of -102 dBm < RssiPucchUe <= -100 dBm is updated to Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone this The counter. Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS distribution for PUCCH, measured in the eNB. The RssiPucchUe value in the range of -100 dBm < RssiPucchUe <= -98 dBm is updated to Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone this The counter. Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS
distribution for PUCCH, measured in the eNB. The RssiPucchUe value in the range of -98 dBm < RssiPucchUe <= -96 dBm is updated to this Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone counter. The Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS distribution for PUCCH, measured in the eNB. The RssiPucchUe value in the range of -96 dBm < RssiPucchUe <= -94 dBm is updated to this Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone counter. The Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS
distribution for PUCCH, measured in the eNB. The RssiPucchUe value in the range of -94 dBm < RssiPucchUe <= -92 dBm is updated to this Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone counter. The Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS distribution for PUCCH, measured in the eNB. The RssiPucchUe value in the range of -92 dBm < RssiPucchUe <= -90 dBm is updated to this Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone counter. The Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS
distribution for PUCCH, measured in the eNB. The RssiPucchUe value in the range of -90 dBm < RssiPucchUe <= -88 dBm is updated to this Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone counter. The Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS distribution for PUCCH, measured in the eNB. The RssiPucchUe value in the range of -88 dBm < RssiPucchUe <= -86 dBm is updated to this Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone counter. The Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS
distribution for PUCCH, measured in the eNB. The RssiPucchUe value in the range of -86 dBm < RssiPucchUe <= -84 dBm is updated to this Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone counter. The Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS distribution for PUCCH, measured in the eNB. The RssiPucchUe value in the range of -84 dBm < RssiPucchUe <= -82 dBm is updated to this Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone counter. The Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS
distribution for PUCCH, measured in the eNB. The RssiPucchUe value in the range of -82 dBm < RssiPucchUe <= -80 dBm is updated to this counter.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS distribution for PUCCH, measured in the eNB. The RssiPucchUe value in the range of RssiPucchUe > -80 dBm is updated to this Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone counter. The Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS
distribution for PUSCH, measured in the eNB. The RssiPucchUe value <= -120 dBm is updated to this counter.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS distribution for PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of -120 dBm < RssiPUSCHUe <= -118 dBm is updated this counter.Signal Strength Indicator (RSSI) Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone to The Received Controller,FDD,TDD,SBTS
distribution for PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of -118 dBm < RssiPUSCHUe <= -116 dBm is updated this counter.Signal Strength Indicator (RSSI) Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone to The Received Controller,FDD,TDD,SBTS distribution for PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of -116 dBm < RssiPUSCHUe <= -114 dBm is updated this counter.Signal Strength Indicator (RSSI) Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone to The Received Controller,FDD,TDD,SBTS
distribution for PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of -114 dBm < RssiPUSCHUe <= -112 dBm is updated this counter.Signal Strength Indicator (RSSI) Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone to The Received Controller,FDD,TDD,SBTS distribution for PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of -112 dBm < RssiPUSCHUe <= -110 dBm is updated this counter.Signal Strength Indicator (RSSI) Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone to The Received Controller,FDD,TDD,SBTS
distribution for PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of -110 dBm < RssiPUSCHUe <= -108 dBm is updated this counter.Signal Strength Indicator (RSSI) Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone to The Received Controller,FDD,TDD,SBTS distribution for PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of -108 dBm < RssiPUSCHUe <= -106 dBm is updated this counter.Signal Strength Indicator (RSSI) Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone to The Received Controller,FDD,TDD,SBTS
distribution for PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of -106 dBm < RssiPUSCHUe <= -104 dBm is updated this counter.Signal Strength Indicator (RSSI) Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone to The Received Controller,FDD,TDD,SBTS distribution for PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of -104 dBm < RssiPUSCHUe <= -102 dBm is updated this counter.Signal Strength Indicator (RSSI) Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone to The Received Controller,FDD,TDD,SBTS
distribution for PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of -102 dBm < RssiPUSCHUe <= -100 dBm is updated to this counter.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS distribution for PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of -100 dBm < RssiPUSCHUe <= -98 dBm is updated to Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone this The counter. Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS
distribution for PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of -98 dBm < RssiPUSCHUe <= -96 dBm is updated to Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone this The counter. Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS distribution for PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of -96 dBm < RssiPUSCHUe <= -94 dBm is updated to Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone this The counter. Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS
distribution for PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of -94 dBm < RssiPUSCHUe <= -92 dBm is updated to Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone this The counter. Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS distribution for PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of -92 dBm < RssiPUSCHUe <= -90 dBm is updated to Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone this The counter. Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS
distribution for PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of -90 dBm < RssiPUSCHUe <= -88 dBm is updated to Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone this The counter. Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS distribution for PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of -88 dBm < RssiPUSCHUe <= -86 dBm is updated to Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone this The counter. Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS
distribution for PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of -86 dBm < RssiPUSCHUe <= -84 dBm is updated to Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone this The counter. Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS distribution for PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of -84 dBm < RssiPUSCHUe <= -82 dBm is updated to Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone this The counter. Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS
distribution for PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of -82 dBm < RssiPUSCHUe <= -80 dBm is updated to Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone this The counter. Received Signal Strength Indicator (RSSI) Controller,FDD,TDD,SBTS distribution for PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of RssiPUSCHUe > -80 dBm is updated to this Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone counter. The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS
-23dB <= PHR < -21dB. Used for the UE Power Headroom PUSCH histogram.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS -21dB <= PHR < -19dB. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS -19dB <= PHR < -17dB. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS -17dB <= PHR < -15dB. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS -15dB <= PHR < -13dB. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS -13dB <= PHR < -11dB. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS -11dB <= PHR < -9dB. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS -9dB <= PHR < -7dB. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS -7dB <= PHR < -5dB. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS -5dB <= PHR < -3dB. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS -3dB <= PHR < -1dB. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS -1dB <= PHR < 1dB. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS 1dB <= PHR < 3dB. Used for the UE Power Headroom PUSCH histogram.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS 3dB <= PHR < 5dB. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS 5dB <= PHR < 7dB. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS 7dB <= PHR < 9dB. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS 9dB <= PHR < 11dB. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS 11dB <= PHR < 13dB. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS 13dB <= PHR < 15dB. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS 15dB <= PHR < 17dB. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS 17dB <= PHR < 19dB. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS 19dB <= PHR < 21dB. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS 21dB <= PHR < 23dB. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS 23dB <= PHR < 25dB. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS 25dB <= PHR < 27dB. Used for the UE Power Headroom PUSCH histogram.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS 27dB <= PHR < 29dB. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS 29dB <= PHR < 31dB. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS 31dB <= PHR < 33dB. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS 33dB <= PHR < 35dB. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS 35dB <= PHR < 37dB. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS 37dB <= PHR < 39dB. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom values in the range of Controller,FDD,TDD,SBTS 39 dB <= PHR. Used for the UE Power Headroom PUSCH histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom for the PUSCH Controller,FDD,TDD,SBTS minimum value for the reporting period. To get actual dB value calculate: "counter value - 23" according to 3GPP 36.133 chapter 9.1.8.4. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom for the PUSCH Controller,FDD,TDD,SBTS maximum value for the reporting period. To get actual dB value calculate: "counter value - 23" according to 3GPP 36.133 chapter 9.1.8.4. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The UE Power Headroom for the PUSCH mean Controller,FDD,TDD,SBTS value for the reporting period. To get actual dB value calculate: "counter value - 23" according to 3GPP 36.133 chapter 9.1.8.4. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS (SINR) Min value for PUCCH, measured in the eNB. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS (SINR) Max value for PUCCH, measured in the eNB.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS (SINR) Mean value for PUCCH, measured in the eNB. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS (SINR) Min value for PUSCH, measured in the eNB. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS (SINR) Max value for PUSCH, measured in the eNB. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS (SINR) Mean value for PUSCH, measured in the eNB. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS (SINR) for PUCCH, measured in the eNB. Values in the range of SINR <= -10dB are updated to this counter. Used for SINR for the PUCCH Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone histogram. The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS
(SINR) for PUCCH, measured in the eNB. Values in the range of -10dB < SINR <= -8dB are updated to this counter. Used for SINR for the histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone PUCCH The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS (SINR) for PUCCH, measured in the eNB. Values in the range of -8dB < SINR <= -6dB are updated to this counter. Used for SINR for the PUCCH Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone histogram. The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS
(SINR) for PUCCH, measured in the eNB. Values in the range of -6dB < SINR <= -4dB are updated to this counter. Used for SINR for the PUCCH Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone histogram. The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS (SINR) for PUCCH, measured in the eNB. Values in the range of -4dB < SINR <= -2dB are updated to this counter. Used for SINR for the PUCCH Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone histogram. The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS
(SINR) for PUCCH, measured in the eNB. Values in the range of -2dB < SINR <= 0dB are updated to this counter. Used for SINR for the PUCCH Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone histogram. The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS (SINR) for PUCCH, measured in the eNB. Values in the range of 0dB < SINR <= 2dB are updated to this counter. Used for SINR for the PUCCH Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone histogram. The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS
(SINR) for PUCCH, measured in the eNB. Values in the range of 2dB < SINR <= 4dB are updated to this counter. Used for SINR for the PUCCH histogram.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS (SINR) for PUCCH, measured in the eNB. Values in the range of 4dB < SINR <= 6dB are updated to this counter. Used for SINR for the PUCCH Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone histogram. The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS
(SINR) for PUCCH, measured in the eNB. Values in the range of 6dB < SINR <= 8dB are updated to this counter. Used for SINR for the PUCCH Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone histogram. The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS (SINR) for PUCCH, measured in the eNB. Values in the range of 8dB < SINR <= 10dB are updated to this counter. Used for SINR for the PUCCH Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone histogram. The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS
(SINR) for PUCCH, measured in the eNB. Values in the range of 10dB < SINR <= 12dB are updated to this counter. Used for SINR for the histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone PUCCH The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS (SINR) for PUCCH, measured in the eNB. Values in the range of 12dB < SINR <= 14dB are updated to this counter. Used for SINR for the histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone PUCCH The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS
(SINR) for PUCCH, measured in the eNB. Values in the range of 14dB < SINR <= 16dB are updated to this counter. Used for SINR for the histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone PUCCH The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS (SINR) for PUCCH, measured in the eNB. Values in the range of 16dB < SINR <= 18dB are updated to this counter. Used for SINR for the histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone PUCCH The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS
(SINR) for PUCCH, measured in the eNB. Values in the range of 18dB < SINR <= 20dB are updated to this counter. Used for SINR for the histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone PUCCH The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS (SINR) for PUCCH, measured in the eNB. Values in the range of 20dB < SINR <= 22dB are updated to this counter. Used for SINR for the histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone PUCCH The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS
(SINR) for PUCCH, measured in the eNB. Values in the range of 22dB < SINR <= 24dB are updated to this counter. Used for SINR for the histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone PUCCH The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS (SINR) for PUCCH, measured in the eNB. Values in the range of 24dB < SINR <= 26dB are updated to this counter. Used for SINR for the histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone PUCCH The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS
(SINR) for PUCCH, measured in the eNB. Values in the range of 26dB < SINR <= 28dB are updated to this counter. Used for SINR for the PUCCH histogram.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS (SINR) for PUCCH, measured in the eNB. Values in the range of 28dB < SINR <= 30dB are updated to this counter. Used for SINR for the histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone PUCCH The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS
(SINR) for PUCCH, measured in the eNB. Values in the range of > 30dB are updated to this counter. Used for SINR for the PUCCH Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone histogram. The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS (SINR) for PUSCH, measured in the eNB. Values in the range of SINR <= -10dB are updated to this counter. Used for SINR for the PUSCH Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone histogram. The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS
(SINR) for PUSCH, measured in the eNB. Values in the range of -10dB < SINR <= -8dB are updated to this counter. Used for SINR for the histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone PUSCH The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS (SINR) for PUSCH, measured in the eNB. Values in the range of -8dB < SINR <= -6dB are updated to this counter. Used for SINR for the PUSCH Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone histogram. The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS
(SINR) for PUSCH, measured in the eNB. Values in the range of -6dB < SINR <= -4dB are updated to this counter. Used for SINR for the PUSCH Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone histogram. The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS (SINR) for PUSCH, measured in the eNB. Values in the range of -4dB < SINR <= -2dB are updated to this counter. Used for SINR for the PUSCH Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone histogram. The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS
(SINR) for PUSCH, measured in the eNB. Values in the range of -2dB < SINR <= 0dB are updated to this counter. Used for SINR for the PUSCH Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone histogram. The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS (SINR) for PUSCH, measured in the eNB. Values in the range of 0dB < SINR <= 2dB are updated to this counter. Used for SINR for the PUSCH Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone histogram. The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS
(SINR) for PUSCH, measured in the eNB. Values in the range of 2dB < SINR <= 4dB are updated to this counter. Used for SINR for the PUSCH Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone histogram. The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS (SINR) for PUSCH, measured in the eNB. Values in the range of 4dB < SINR <= 6dB are updated to this counter. Used for SINR for the PUSCH Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone histogram. The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS
(SINR) for PUSCH, measured in the eNB. Values in the range of 6dB < SINR <= 8dB are updated to this counter. Used for SINR for the PUSCH histogram.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS (SINR) for PUSCH, measured in the eNB. Values in the range of 8dB < SINR <= 10dB are updated to this counter. Used for SINR for the PUSCH Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone histogram. The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS
(SINR) for PUSCH, measured in the eNB. Values in the range of 10dB < SINR <= 12dB are updated to this counter. Used for SINR for the histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone PUSCH The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS (SINR) for PUSCH, measured in the eNB. Values in the range of 12dB < SINR <= 14dB are updated to this counter. Used for SINR for the histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone PUSCH The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS
(SINR) for PUSCH, measured in the eNB. Values in the range of 14dB < SINR <= 16dB are updated to this counter. Used for SINR for the histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone PUSCH The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS (SINR) for PUSCH, measured in the eNB. Values in the range of 16dB < SINR <= 18dB are updated to this counter. Used for SINR for the histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone PUSCH The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS
(SINR) for PUSCH, measured in the eNB. Values in the range of 18dB < SINR <= 20dB are updated to this counter. Used for SINR for the histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone PUSCH The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS (SINR) for PUSCH, measured in the eNB. Values in the range of 20dB < SINR <= 22dB are updated to this counter. Used for SINR for the histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone PUSCH The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS
(SINR) for PUSCH, measured in the eNB. Values in the range of 22dB < SINR <= 24dB are updated to this counter. Used for SINR for the histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone PUSCH The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS (SINR) for PUSCH, measured in the eNB. Values in the range of 24dB < SINR <= 26dB are updated to this counter. Used for SINR for the histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone PUSCH The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS
(SINR) for PUSCH, measured in the eNB. Values in the range of 26dB < SINR <= 28dB are updated to this counter. Used for SINR for the histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone PUSCH The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS (SINR) for PUSCH, measured in the eNB. Values in the range of 28dB < SINR <= 30dB are updated to this counter. Used for SINR for the histogram. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone PUSCH The Signal to Interference and Noise Ratio Controller,FDD,TDD,SBTS
(SINR) for PUSCH, measured in the eNB. Values in the range of > 30dB are updated to this counter. Used for SINR for the PUSCH histogram.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Adaptive Modulation and Coding Controller,FDD,TDD,SBTS (AMC) upgrades in UL.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Adaptive Modulation and Coding Controller,FDD,TDD,SBTS (AMC) downgrades in UL.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the minimum of the Controller,FDD,TDD,SBTS cell-wide RSSI value on PUCCH, which is calculated as: Total RSSI per cell per TTI for PUCCH over the PUCCH-bandwidth by the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone configured This measurement provides thedivided maximum of the number of PRBs (of given whole cell non-blanked Controller,FDD,TDD,SBTS cell-wide RSSI value on PUCCH, which is UL frequency calculated as: bandwidth) which could be used by PUCCH in Total RSSI the per cell. cell per TTI for PUCCH over the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
configured PUCCH-bandwidth by the the cellThis measurement provides thedivided mean of number of PRBs (of given whole cell non-blanked wide RSSI value on PUCCH, which is calculated UL as: frequency bandwidth) which could be used by PUCCH in the Total RSSI per cell. cell per TTI for PUCCH over the
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
configured PUCCH-bandwidth byofthe This measurement provides thedivided number TTIs, number of PRBs (of given whole cell non-blanked in which the cell-wide RSSI values on PUCCH UL bandwidth) which could be used by are frequency less than or equal to -120 dBm. PUCCH in the cell The cell-wide RSSI value is calculated as:
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUCCH the This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by the in which the cell-wide RSSI values on PUCCH number PRBsof(of-120 given whole non-blanked are in theofrange dBm < x cell <= -118 dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUCCH in the Total RSSI per cell. cell per TTI for PUCCH the This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by the in which the cell-wide RSSI values on PUCCH number PRBsof(of-118 given whole cell-116 non-blanked are in theofrange dBm < x <= dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUCCH in the Total RSSI per cell. cell per TTI for PUCCH the This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by the in which the cell-wide RSSI values on PUCCH number PRBsof(of-116 given whole cell-114 non-blanked are in theofrange dBm < x <= dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUCCH in the Total RSSI per cell. cell per TTI for PUCCH the This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by the in which the cell-wide RSSI values on PUCCH number PRBsof(of-114 given whole cell-112 non-blanked are in theofrange dBm < x <= dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUCCH in the Total RSSI per cell. cell per TTI for PUCCH the This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by the in which the cell-wide RSSI values on PUCCH number PRBsof(of-112 given whole cell-110 non-blanked are in theofrange dBm < x <= dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUCCH in the Total RSSI per cell. cell per TTI for PUCCH the This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by the in which the cell-wide RSSI values on PUCCH number PRBsof(of-110 given whole cell-108 non-blanked are in theofrange dBm < x <= dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUCCH in the Total RSSI per cell. cell per TTI for PUCCH over the configured PUCCH-bandwidth divided by the number of PRBs (of given whole cell non-blanked UL frequency bandwidth) which could be used by PUCCH in the cell.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of TTIs, Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUCCH are in the range of -108 dBm < x <= -106 dBm. The cell-wide RSSI value is calculated as: RSSI per cell per TTI for PUCCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by the Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUCCH number PRBsof(of-106 given whole non-blanked are in theofrange dBm < x cell <= -104 dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUCCH in the RSSI per cell. cell per TTI for PUCCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by the Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUCCH number PRBsof(of-104 given whole non-blanked are in theofrange dBm < x cell <= -102 dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUCCH in the RSSI per cell. cell per TTI for PUCCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by the Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUCCH number PRBsof(of-102 given whole non-blanked are in theofrange dBm < x cell <= -100 dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUCCH in the RSSI per cell. cell per TTI for PUCCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by the Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUCCH number PRBsof(of-100 given whole non-blanked are in theofrange dBm < x cell <= -98 dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUCCH in the RSSI per cell. cell per TTI for PUCCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by the Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUCCH number PRBsof(of-98 given cell non-blanked are in theofrange dBmwhole < x <= -96 dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUCCH in the RSSI per cell. cell per TTI for PUCCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by the Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUCCH number PRBsof(of-96 given cell non-blanked are in theofrange dBmwhole < x <= -94 dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUCCH in the RSSI per cell. cell per TTI for PUCCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by the Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUCCH number PRBsof(of-94 given cell non-blanked are in theofrange dBmwhole < x <= -92 dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUCCH in the RSSI per cell. cell per TTI for PUCCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by the Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUCCH number PRBsof(of-92 given cell non-blanked are in theofrange dBmwhole < x <= -90 dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUCCH in the RSSI per cell. cell per TTI for PUCCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by the Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUCCH number PRBsof(of-90 given cell non-blanked are in theofrange dBmwhole < x <= -88 dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUCCH in the RSSI per cell. cell per TTI for PUCCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by the Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUCCH number PRBsof(of-88 given cell non-blanked are in theofrange dBmwhole < x <= -86 dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUCCH in the RSSI per cell. cell per TTI for PUCCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by the Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUCCH number PRBsof(of-86 given cell non-blanked are in theofrange dBmwhole < x <= -84 dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUCCH in the Total RSSI per cell. cell per TTI for PUCCH over the configured PUCCH-bandwidth divided by the number of PRBs (of given whole cell non-blanked UL frequency bandwidth) which could be used by PUCCH in the cell.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of TTIs, Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUCCH are in the range of -84 dBm < x <= -82 dBm. The cell-wide RSSI value is calculated as: RSSI per cell per TTI for PUCCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by the Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUCCH number PRBsof(of-82 given cell non-blanked are in theofrange dBmwhole < x <= -80 dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUCCH in the RSSI per cell. cell per TTI for PUCCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by the Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUCCH number of PRBs (of given are greater than -80 dBm. whole cell non-blanked UL frequency bandwidth) could be The cell-wide RSSI value which is calculated as:used by PUCCH in the cell. RSSI per cell per TTI for PUCCH over Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the minimum ofthe the configured PUCCH-bandwidth divided by the Controller,FDD,TDD,SBTS cell-wide RSSI value on PUSCH, which is number of as: PRBs (of given whole cell non-blanked calculated UL frequency could be used Total RSSI perbandwidth) cell per TTIwhich for PUSCH over theby PUCCH in the cell. channel bandwidth divided by theof the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone complete This measurement provides the maximum number of PRBs (of given whole cell non-blanked Controller,FDD,TDD,SBTS cell-wide RSSI value on PUSCH, which is UL frequency calculated as: bandwidth) which could be used by PUSCH in Total RSSI the per cell. cell per TTI for PUSCH over the complete channel divided by themean Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurementbandwidth provides the arithmetic number of PRBs (of given whole cell non-blanked Controller,FDD,TDD,SBTS of the cell-wide RSSI value on PUSCH, which is UL frequency calculated as: bandwidth) which could be used by PUSCH in Total RSSI the per cell. cell per TTI for PUSCH over the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
complete channel bandwidth divided by the This measurement provides the number of TTIs, number of PRBs (of given whole cell non-blanked in which the cell-wide RSSI values on PUSCH UL bandwidth) which could be used by are frequency less than or equal to -120 dBm. PUSCH in the cell. The cell-wide RSSI value is calculated as:
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUSCH the This measurement provides the numberover of TTIs, complete channel bandwidth divided by the in which the cell-wide RSSI values on PUSCH number PRBsof(of-120 given whole non-blanked are in theofrange dBm < x cell <= -118 dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUSCH in the Total RSSI per cell. cell per TTI for PUSCH the This measurement provides the numberover of TTIs, complete channel bandwidth divided by the in which the cell-wide RSSI values on PUSCH number PRBsof(of-118 given whole cell-116 non-blanked are in theofrange dBm < x <= dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUSCH in the Total RSSI per cell. cell per TTI for PUSCH the This measurement provides the numberover of TTIs, complete channel bandwidth divided by the in which the cell-wide RSSI values on PUSCH number PRBsof(of-116 given whole cell-114 non-blanked are in theofrange dBm < x <= dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUSCH in the Total RSSI per cell. cell per TTI for PUSCH the This measurement provides the numberover of TTIs, complete channel bandwidth divided by the in which the cell-wide RSSI values on PUSCH number PRBsof(of-114 given whole cell-112 non-blanked are in theofrange dBm < x <= dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUSCH in the Total RSSI per cell. cell per TTI for PUSCH the This measurement provides the numberover of TTIs, complete channel bandwidth divided by the in which the cell-wide RSSI values on PUSCH number PRBsof(of-112 given whole cell-110 non-blanked are in theofrange dBm < x <= dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUSCH in the Total RSSI per cell. cell per TTI for PUSCH over the
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
complete channel bandwidth divided by the number of PRBs (of given whole cell non-blanked UL frequency bandwidth) which could be used by PUSCH in the cell-
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of TTIs, Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUSCH are in the range of -110 dBm < x <= -108 dBm. The cell-wide RSSI value is calculated as: RSSI per cell per TTI for PUSCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUSCH number PRBsof(of-108 given whole non-blanked are in theofrange dBm < x cell <= -106 dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUSCH in the RSSI per cell. cell per TTI for PUSCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUSCH number PRBsof(of-106 given whole non-blanked are in theofrange dBm < x cell <= -104 dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUSCH in the RSSI per cell. cell per TTI for PUSCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUSCH number PRBsof(of-104 given whole non-blanked are in theofrange dBm < x cell <= -102 dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUSCH in the RSSI per cell. cell per TTI for PUSCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUSCH number PRBsof(of-102 given whole non-blanked are in theofrange dBm < x cell <= -100 dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUSCH in the RSSI per cell. cell per TTI for PUSCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUSCH number PRBsof(of-100 given whole non-blanked are in theofrange dBm < x cell <= -98 dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUSCH in the RSSI per cell. cell per TTI for PUSCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUSCH number PRBsof(of-98 given cell non-blanked are in theofrange dBmwhole < x <= -96 dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUSCH in the RSSI per cell. cell per TTI for PUSCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUSCH number PRBsof(of-96 given cell non-blanked are in theofrange dBmwhole < x <= -94 dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUSCH in the RSSI per cell. cell per TTI for PUSCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUSCH number PRBsof(of-94 given cell non-blanked are in theofrange dBmwhole < x <= -92 dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUSCH in the RSSI per cell. cell per TTI for PUSCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUSCH number PRBsof(of-92 given cell non-blanked are in theofrange dBmwhole < x <= -90 dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUSCH in the RSSI per cell. cell per TTI for PUSCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUSCH number PRBsof(of-90 given cell non-blanked are in theofrange dBmwhole < x <= -88 dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUSCH in the RSSI per cell. cell per TTI for PUSCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUSCH number PRBsof(of-88 given cell non-blanked are in theofrange dBmwhole < x <= -86 dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUSCH in the Total RSSI per cell. cell per TTI for PUSCH over the complete channel bandwidth divided by the number of PRBs (of given whole cell non-blanked UL frequency bandwidth) which could be used by PUSCH in the cell.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of TTIs, Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUSCH are in the range of -86 dBm < x <= -84 dBm. The cell-wide RSSI value is calculated as: RSSI per cell per TTI for PUSCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUSCH number PRBsof(of-84 given cell non-blanked are in theofrange dBmwhole < x <= -82 dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUSCH in the RSSI per cell. cell per TTI for PUSCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUSCH number PRBsof(of-82 given cell non-blanked are in theofrange dBmwhole < x <= -80 dBm. UL frequency bandwidth) which could The cell-wide RSSI value is calculatedbe as:used by PUSCH in the RSSI per cell. cell per TTI for PUSCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Controller,FDD,TDD,SBTS in which the cell-wide RSSI values on PUSCH number of PRBs (of given are greater than -80 dBm. whole cell non-blanked UL frequency bandwidth) could be The cell-wide RSSI value which is calculated as:used by PUSCH in the cell. RSSI per cell per TTI for PUSCH over Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the minimum ofthe the complete channel bandwidth divided by the Controller,FDD,TDD,SBTS cell-wide SINR value on PUCCH, which is number of as: PRBs (of given whole cell non-blanked calculated UL frequency could be used Total RSSI perbandwidth) cell per TTIwhich for PUCCH over theby PUSCH in the cell. PUCCH-bandwidth by Total Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone configured This measurement provides thedivided maximum of the interference power per cell per TTI over Controller,FDD,TDD,SBTS cell-wide SINR value on PUCCH, which the is configured PUCCH-bandwidth. calculated as: Total RSSI per cell per TTI for PUCCH over the PUCCH-bandwidth by the Total Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone configured This measurement provides thedivided mean of cellinterference power per cell per TTI over the Controller,FDD,TDD,SBTS wide SINR value on PUCCH, which is calculated configured PUCCH-bandwidth. as: Total RSSI per cell per TTI for PUCCH over the PUCCH-bandwidth byofTotal Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone configured This measurement provides thedivided number TTIs, interference power per cell per TTI over the Controller,FDD,TDD,SBTS in which the cell-wide SINR values on PUCCH configured PUCCH-bandwidth. are less than or equal to -10 dB. The cell-wide SINR value is calculated as: RSSI per cell per TTI for PUCCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by Total Controller,FDD,TDD,SBTS in which the cell-wide SINR values on PUCCH interference power per dB cell
Total RSSI per cell per TTI for PUCCH the This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by Total in which the cell-wide SINR values on PUCCH interference power perdB cell over the are in the range of -8 < xper <=TTI -6 dB. configured PUCCH-bandwidth. The cell-wide SINR value is calculated as:
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUCCH the This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by Total in which the cell-wide SINR values on PUCCH interference power perdB cell over the are in the range of -6 < xper <=TTI -4 dB. configured PUCCH-bandwidth. The cell-wide SINR value is calculated as:
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUCCH the This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by Total in which the cell-wide SINR values on PUCCH interference power perdB cell over the are in the range of -4 < xper <=TTI -2 dB. configured PUCCH-bandwidth. The cell-wide SINR value is calculated as: Total RSSI per cell per TTI for PUCCH over the configured PUCCH-bandwidth divided by Total interference power per cell per TTI over the configured PUCCH-bandwidth.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of TTIs, Controller,FDD,TDD,SBTS in which the cell-wide SINR values on PUCCH are in the range of -2 dB < x <= 0 dB. The cell-wide SINR value is calculated as: RSSI per cell per TTI for PUCCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by Total Controller,FDD,TDD,SBTS in which the cell-wide SINR values on PUCCH interference power over the are in the range of 0per dBcell < xper <= TTI 2 dB. configured PUCCH-bandwidth. The cell-wide SINR value is calculated as: Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUCCH the This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by Total in which the cell-wide SINR values on PUCCH interference power over the are in the range of 2per dBcell < xper <= TTI 4 dB. configured PUCCH-bandwidth. The cell-wide SINR value is calculated as:
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUCCH the This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by Total in which the cell-wide SINR values on PUCCH interference power over the are in the range of 4per dBcell < xper <= TTI 6 dB. configured PUCCH-bandwidth. The cell-wide SINR value is calculated as:
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUCCH the This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by Total in which the cell-wide SINR values on PUCCH interference power over the are in the range of 6per dBcell < xper <= TTI 8 dB. configured PUCCH-bandwidth. The cell-wide SINR value is calculated as:
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUCCH the This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by Total in which the cell-wide SINR values on PUCCH interference power over the are in the range of 8per dBcell < xper <= TTI 10 dB. configured PUCCH-bandwidth. The cell-wide SINR value is calculated as:
Totalmeasurement RSSI per cell provides per TTI for the This thePUCCH numberover of TTIs, configured PUCCH-bandwidth divided by Total in which the cell-wide SINR values on PUCCH interference power perdB cell< per are in the range of 10 x <=TTI 12 over dB. the configured PUCCH-bandwidth. The cell-wide SINR value is calculated as: RSSI per cell per TTI for PUCCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by Total Controller,FDD,TDD,SBTS in which the cell-wide SINR values on PUCCH interference power perdB cell< per are in the range of 12 x <=TTI 14 over dB. the configured PUCCH-bandwidth. The cell-wide SINR value is calculated as: Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUCCH the This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by Total in which the cell-wide SINR values on PUCCH interference power perdB cell< per are in the range of 14 x <=TTI 16 over dB. the configured PUCCH-bandwidth. The cell-wide SINR value is calculated as:
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUCCH the This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by Total in which the cell-wide SINR values on PUCCH interference power perdB cell< per are in the range of 16 x <=TTI 18 over dB. the configured PUCCH-bandwidth. The cell-wide SINR value is calculated as:
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUCCH the This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by Total in which the cell-wide SINR values on PUCCH interference power perdB cell< per are in the range of 18 x <=TTI 20 over dB. the configured PUCCH-bandwidth. The cell-wide SINR value is calculated as:
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUCCH the This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by Total in which the cell-wide SINR values on PUCCH interference power perdB cell< per are in the range of 20 x <=TTI 22 over dB. the configured PUCCH-bandwidth. The cell-wide SINR value is calculated as: Total RSSI per cell per TTI for PUCCH over the configured PUCCH-bandwidth divided by Total interference power per cell per TTI over the configured PUCCH-bandwidth.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of TTIs, Controller,FDD,TDD,SBTS in which the cell-wide SINR values on PUCCH are in the range of 22 dB < x <= 24 dB. The cell-wide SINR value is calculated as: RSSI per cell per TTI for PUCCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by Total Controller,FDD,TDD,SBTS in which the cell-wide SINR values on PUCCH interference power perdB cell< per are in the range of 24 x <=TTI 26 over dB. the configured PUCCH-bandwidth. The cell-wide SINR value is calculated as: Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUCCH the This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by Total in which the cell-wide SINR values on PUCCH interference power perdB cell< per are in the range of 26 x <=TTI 28 over dB. the configured PUCCH-bandwidth. The cell-wide SINR value is calculated as:
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUCCH the This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by Total in which the cell-wide SINR values on PUCCH interference power perdB cell< per are in the range of 28 x <=TTI 30 over dB. the configured PUCCH-bandwidth. The cell-wide SINR value is calculated as:
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUCCH the This measurement provides the numberover of TTIs, configured PUCCH-bandwidth divided by Total in which the cell-wide SINR values on PUCCH interference power are greater than 30 per dB.cell per TTI over the configured PUCCH-bandwidth. The cell-wide SINR value is calculated as:
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUCCH over This measurement provides the minimum ofthe the configured PUCCH-bandwidth divided by Total cell-wide SINR value on PUSCH, which is interference power per cell per TTI over the calculated as: configured PUCCH-bandwidth. Total RSSI per cell per TTI for PUSCH over the
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
complete channel bandwidth divided by theofTotal This measurement provides the maximum the interference power per cell per TTI for cell-wide SINR value on PUSCH, whichPUSCH is over the complete channel bandwidth. calculated as:
Total RSSI per cell per TTI for PUSCH over the channel bandwidth divided by themean Total Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone complete This measurement provides the arithmetic interference power per cell per TTI for PUSCH Controller,FDD,TDD,SBTS of the cell-wide SINR value on PUSCH, which is over the complete channel bandwidth. calculated as: Total RSSI per cell per TTI for PUSCH over the channel bandwidth divided by the Total Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone complete This measurement provides the number of TTIs, interference power per cell per TTI for PUSCH Controller,FDD,TDD,SBTS in which the cell-wide SINR values on PUSCH over the than complete channel are less or equal to -10bandwidth. dB. The cell-wide SINR value is calculated as: RSSI per cell per TTI for PUSCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Total Controller,FDD,TDD,SBTS in which the cell-wide SINR values on PUSCH interference power per dB cell
Total RSSI per cell per TTI for PUSCH the This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Total in which the cell-wide SINR values on PUSCH interference power perdB cell for PUSCH are in the range of -8 < xper <=TTI -6 dB. over the complete channel bandwidth. The cell-wide SINR value is calculated as:
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUSCH the This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Total in which the cell-wide SINR values on PUSCH interference power perdB cell for PUSCH are in the range of -6 < xper <=TTI -4 dB. over the complete channel bandwidth. The cell-wide SINR value is calculated as: Total RSSI per cell per TTI for PUSCH over the complete channel bandwidth divided by the Total interference power per cell per TTI for PUSCH over the complete channel bandwidth.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of TTIs, Controller,FDD,TDD,SBTS in which the cell-wide SINR values on PUSCH are in the range of -4 dB < x <= -2 dB. The cell-wide SINR value is calculated as: RSSI per cell per TTI for PUSCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Total Controller,FDD,TDD,SBTS in which the cell-wide SINR values on PUSCH interference power perdB cell for PUSCH are in the range of -2 < xper <=TTI 0 dB. over the complete channel bandwidth. The cell-wide SINR value is calculated as: Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUSCH the This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Total in which the cell-wide SINR values on PUSCH interference power for PUSCH are in the range of 0per dBcell < xper <= TTI 2 dB. over the complete channel bandwidth. The cell-wide SINR value is calculated as:
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUSCH the This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Total in which the cell-wide SINR values on PUSCH interference power for PUSCH are in the range of 2per dBcell < xper <= TTI 4 dB. over the complete channel bandwidth. The cell-wide SINR value is calculated as:
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUSCH the This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Total in which the cell-wide SINR values on PUSCH interference power for PUSCH are in the range of 4per dBcell < xper <= TTI 6 dB. over the complete channel bandwidth. The cell-wide SINR value is calculated as:
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUSCH the This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Total in which the cell-wide SINR values on PUSCH interference power for PUSCH are in the range of 6per dBcell < xper <= TTI 8 dB. over the complete channel bandwidth. The cell-wide SINR value is calculated as:
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUSCH the This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Total in which the cell-wide SINR values on PUSCH interference power for PUSCH are in the range of 8per dBcell < xper <= TTI 10 dB. over the complete channel bandwidth. The cell-wide SINR value is calculated as:
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUSCH the This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Total in which the cell-wide SINR values on PUSCH interference power perdB cell< per are in the range of 10 x <=TTI 12 for dB.PUSCH over the complete channel bandwidth. The cell-wide SINR value is calculated as:
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUSCH the This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Total in which the cell-wide SINR values on PUSCH interference power perdB cell< per are in the range of 12 x <=TTI 14 for dB.PUSCH over the complete channel bandwidth. The cell-wide SINR value is calculated as:
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUSCH the This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Total in which the cell-wide SINR values on PUSCH interference power perdB cell< per are in the range of 14 x <=TTI 16 for dB.PUSCH over the complete channel bandwidth. The cell-wide SINR value is calculated as:
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUSCH the This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Total in which the cell-wide SINR values on PUSCH interference power perdB cell< per are in the range of 16 x <=TTI 18 for dB.PUSCH over the complete channel bandwidth. The cell-wide SINR value is calculated as:
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUSCH the This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Total in which the cell-wide SINR values on PUSCH interference power perdB cell< per are in the range of 18 x <=TTI 20 for dB.PUSCH over the complete channel bandwidth. The cell-wide SINR value is calculated as: Total RSSI per cell per TTI for PUSCH over the complete channel bandwidth divided by the Total interference power per cell per TTI for PUSCH over the complete channel bandwidth.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of TTIs, Controller,FDD,TDD,SBTS in which the cell-wide SINR values on PUSCH are in the range of 20 dB < x <= 22 dB. The cell-wide SINR value is calculated as: RSSI per cell per TTI for PUSCH the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Total Controller,FDD,TDD,SBTS in which the cell-wide SINR values on PUSCH interference power perdB cell< per are in the range of 22 x <=TTI 24 for dB.PUSCH over the complete channel bandwidth. The cell-wide SINR value is calculated as: Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUSCH the This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Total in which the cell-wide SINR values on PUSCH interference power perdB cell< per are in the range of 24 x <=TTI 26 for dB.PUSCH over the complete channel bandwidth. The cell-wide SINR value is calculated as:
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUSCH the This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Total in which the cell-wide SINR values on PUSCH interference power perdB cell< per are in the range of 26 x <=TTI 28 for dB.PUSCH over the complete channel bandwidth. The cell-wide SINR value is calculated as:
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUSCH the This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Total in which the cell-wide SINR values on PUSCH interference power perdB cell< per are in the range of 28 x <=TTI 30 for dB.PUSCH over the complete channel bandwidth. The cell-wide SINR value is calculated as:
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUSCH the This measurement provides the numberover of TTIs, complete channel bandwidth divided by the Total in which the cell-wide SINR values on PUSCH interference power are greater than 30 per dB.cell per TTI for PUSCH over the complete channel The cell-wide SINR value isbandwidth. calculated as:
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Total RSSI per cell per TTI for PUSCH over the This measurement provides the average complete channel bandwidth divided by theforTotal Received Total Wideband Power (RTWP) Rx interference power per cell per TTI for PUSCH antenna 1 at the end of the collection interval. over the complete channel bandwidth.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement provides the average Received Total Wideband Power (RTWP) for Rx antenna 2 at the end of the collection interval.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement provides the average Received Total Wideband Power (RTWP) for Rx antenna 3 at the end of the collection interval.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement provides the average Received Total Wideband Power (RTWP) for Rx antenna 4 at the end of the collection interval.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement provides the average Received Total Wideband Power (RTWP) for Rx antenna 5 at the end of the collection interval.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement provides the average Received Total Wideband Power (RTWP) for Rx antenna 6 at the end of the collection interval.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement provides the average Received Total Wideband Power (RTWP) for Rx antenna 7 at the end of the collection interval.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement provides the average Received Total Wideband Power (RTWP) for Rx antenna 8 at the end of the collection interval.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement provides the maximum Received Total Wideband Power (RTWP) at the end of collection interval.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement provides the 50 percentile value of the uplink Interference Power over Thermal (IoT) Noise Power for the PUSCH Resource Block (RB) distribution bin 0. To increase the granularity, is This measurement providesthe thecounter 50 percentile reported in 10* dB units. value of the uplink Interference Power over To support theNoise PUSCH RB distribution, there are Thermal (IoT) Power for the PUSCH 9 bins (bin0 to bin8). Resource Block (RB) distribution bin 1. The PUSCHthe RBs would be the evenly distributed (as To increase granularity, counter is This measurement provides the 50 percentile much as possible) across the 9 bins with bin 0 reported in 10* dB units. value of 8the uplink Power over and bin having anInterference equal of PUSCH To support the PUSCH RBnumber distribution, there are Thermal (IoT) Noise Power for the PUSCH RBs. 9 bins (bin0 to bin8). Resource Block (RB) distribution bin 2. The PUSCHthe RBs would be the evenly distributed (as To increase granularity, counter is This measurement provides the 50 percentile much as possible) across the 9 bins with bin 0 reported in 10* dB units. value of 8the uplink Power over and bin having anInterference equal of PUSCH To support the PUSCH RBnumber distribution, there are Thermal (IoT) Noise Power for the PUSCH RBs. 9 bins (bin0 to bin8). Resource Block (RB) distribution bin 3. The PUSCHthe RBs would be the evenly distributed (as To increase granularity, counter is This measurement provides the 50 percentile much as possible) across the 9 bins with bin 0 reported in 10* dB units. value of 8the uplink Power over and bin having anInterference equal of PUSCH To support the PUSCH RBnumber distribution, there are Thermal (IoT) Noise Power for the PUSCH RBs. 9 bins (bin0 to bin8). Resource Block (RB) distribution bin 4. The PUSCHthe RBs would be the evenly distributed (as To increase granularity, counter is This measurement provides the 50 percentile much as possible) across the 9 bins with bin 0 reported in 10* dB units. value of 8the uplink Power over and bin having anInterference equal of PUSCH To support the PUSCH RBnumber distribution, there are Thermal (IoT) Noise Power for the PUSCH RBs. 9 bins (bin0 to bin8). Resource Block (RB) distribution bin 5. The PUSCHthe RBs would be the evenly distributed (as To increase granularity, counter is This measurement provides the 50 percentile much as possible) across the 9 bins with bin 0 reported in 10* dB units. value of 8the uplink Power over and bin having anInterference equal of PUSCH To support the PUSCH RBnumber distribution, there are Thermal (IoT) Noise Power for the PUSCH RBs. 9 bins (bin0 to bin8). Resource Block (RB) distribution bin 6. The PUSCHthe RBs would be the evenly distributed (as To increase granularity, counter is This measurement provides the 50 percentile much as possible) across the 9 bins with bin 0 reported in 10* dB units. value of 8the uplink Power over and bin having anInterference equal of PUSCH To support the PUSCH RBnumber distribution, there are Thermal (IoT) Noise Power for the PUSCH RBs. 9 bins (bin0 to bin8). Resource Block (RB) distribution bin 7. The PUSCHthe RBs would be the evenly distributed (as To increase granularity, counter is This measurement provides the 50 percentile much as possible) across the 9 bins with bin 0 reported in 10* dB units. value of 8the uplink Power over and bin having anInterference equal of PUSCH To support the PUSCH RBnumber distribution, there are Thermal (IoT) Noise Power for the PUSCH RBs. 9 bins (bin0 to bin8). Resource Block (RB) distribution bin 8. The PUSCHthe RBs would be the evenly distributed (as To increase granularity, counter is much as possible) across the 9 bins with bin 0 reported in 10* dB units. and bin 8 having an equal of PUSCH To support the PUSCH RBnumber distribution, there are RBs. 9 bins (bin0 to bin8). The PUSCH RBs would be evenly distributed (as much as possible) across the 9 bins with bin 0 and bin 8 having an equal number of PUSCH RBs.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement provides the number of in-use PUSCH Resource Blocks (PRB) having an average Signal to Interference Ratio (SIR) value less than 1.0 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement provides the number of in-use PUSCH Resource Blocks (PRB) having an average Signal to Interference Ratio (SIR) value from 1.0 dB to less than 4.0 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement provides the number of in-use PUSCH Resource Blocks (PRB) having an average Signal to Interference Ratio (SIR) value from 4.0 dB to less than 7.0 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement provides the number of in-use PUSCH Resource Blocks (PRB) having an average Signal to Interference Ratio (SIR) value from 7.0 dB to less than 10.0 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement provides the number of in-use PUSCH Resource Blocks (PRB) having an average Signal to Interference Ratio (SIR) value from 10.0 dB to less than 13.0 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement provides the number of in-use PUSCH Resource Blocks (PRB) having an average Signal to Interference Ratio (SIR) value from 13.0 dB to less than 16.0 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement provides the number of in-use PUSCH Resource Blocks (PRB) having an average Signal to Interference Ratio (SIR) value from 16.0 dB to less than 19.0 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement provides the number of in-use PUSCH Resource Blocks (PRB) having an average Signal to Interference Ratio (SIR) value from 19.0 dB to less than 22.0 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement provides the number of in-use PUSCH Resource Blocks (PRB) having an average Signal to Interference Ratio (SIR) value from 22.0 dB to less than 25.0 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement provides the number of in-use PUSCH Resource Blocks (PRB) having an average Signal to Interference Ratio (SIR) value equal or greater than 25.0 dB.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of EPS bearer setup attempts. Each Controller,FDD,TDD,SBTS bearer of the "E-RAB to Be Setup List" IE is counted. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of EPS bearer setup completions. Controller,FDD,TDD,SBTS Each bearer of the "E-RAB Setup List" IE is counted.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of released Data Radio Bearers due Controller,FDD,TDD,SBTS to "normal release per call". Each bearer of the "E-RAB To Be Released List" IE has to be counted. In case of a UE context release EPS Bearers are Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone command, The numberallofestablished EPC-initiated EPS Bearer counted. Controller,FDD,TDD,SBTS Release requests due to the Detach procedure by the UE or MME (NAS cause). Each bearer of the "E-RAB To Be Released List" IE has to be In case of a UE context Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone counted. The number of EPC-initiated EPSrelease Bearer command, all established EPS Bearers are Controller,FDD,TDD,SBTS Release requests due to the Radio Network counted. Layer cause. Each bearer of the "E-RAB to be Released List" IE is counted. In case of a UE release command, all established EPS Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone context The number of released Data-Radio Bearers due Bearers are counted. Controller,FDD,TDD,SBTS to Other Reasons. Each bearer of the "E-RAB To Be Released List" IE has to be counted. In case of a UE context release command, all EPS Bearer are counted. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone established This measurement provides the number of EController,FDD,TDD,SBTS RABs released due to a failed Handover Completion phase at the target cell. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the sum of sampled Controller,FDD,TDD,SBTS values for measuring the number of simultaneous E-RABs with QCI 1 characteristics. This counter, divided by the denominator the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone DENOM_SUM_SIMUL_ERAB, This measurement provides theprovides sum of sampled average number of simultaneous QCI 1 E-RABs Controller,FDD,TDD,SBTS values for measuring the number of simultaneous per cell. with QCI 2 characteristics. This counter, E-RABs divided by the denominator the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone DENOM_SUM_SIMUL_ERAB, This measurement provides theprovides sum of sampled average number of simultaneous QCI 2 E-RABs Controller,FDD,TDD,SBTS values for measuring the number of simultaneous per cell. with QCI 3 characteristics. This counter, E-RABs divided by the denominator the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone DENOM_SUM_SIMUL_ERAB, This measurement provides theprovides sum of sampled average number of simultaneous QCI 3 E-RABs Controller,FDD,TDD,SBTS values for measuring the number of simultaneous per cell. with QCI 4 characteristics. This counter, E-RABs divided by the denominator the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone DENOM_SUM_SIMUL_ERAB, This measurement provides theprovides sum of sampled average number of simultaneous QCI 4 E-RABs Controller,FDD,TDD,SBTS values for measuring the number of simultaneous per cell. with QCI 5 characteristics. This counter, E-RABs divided by the denominator the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone DENOM_SUM_SIMUL_ERAB, This measurement provides theprovides sum of sampled average number of simultaneous QCI 5 E-RABs Controller,FDD,TDD,SBTS values for measuring the number of simultaneous per cell. with QCI 6 characteristics. This counter, E-RABs divided by the denominator the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone DENOM_SUM_SIMUL_ERAB, This measurement provides theprovides sum of sampled average number of simultaneous QCI 6 E-RABs Controller,FDD,TDD,SBTS values for measuring the number of simultaneous per cell. with QCI 7 characteristics. This counter, E-RABs divided by the denominator DENOM_SUM_SIMUL_ERAB, provides the average number of simultaneous QCI 7 E-RABs per cell.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the sum of sampled Controller,FDD,TDD,SBTS values for measuring the number of simultaneous E-RABs with QCI 8 characteristics. This counter, divided by the denominator the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone DENOM_SUM_SIMUL_ERAB, This measurement provides theprovides sum of sampled average number of simultaneous QCI 8 E-RABs Controller,FDD,TDD,SBTS values for measuring the number of per cell. simultaneously E-RABs with QCI 9 characteristics. This counter, divided by the DENOM_SUM_SIMUL_ERAB, Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone denominator This measurement provides the number of provides the average number simultaneous Controller,FDD,TDD,SBTS samples, which were taken to of determine the QCI 9 E-RABs per cell. number of simultaneous E-RABs per QCI. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS attempted modifications of QoS parameters for E-RABs of QCI1. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS attempted modifications of QoS parameters for E-RABs of QCI2. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS attempted modifications of QoS parameters for E-RABs of QCI3. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS attempted modifications of QoS parameters for E-RABs of QCI4. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS attempted modifications of QoS parameters for E-RABs of QCI5. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS attempted modifications of QoS parameters for E-RABs of QCI6. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS attempted modifications of QoS parameters for E-RABs of QCI7. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS attempted modifications of QoS parameters for E-RABs of QCI8. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS attempted modifications of QoS parameters for E-RABs of QCI9.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successful modifications of QoS parameters for E-RABs of QCI1. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successful modifications of QoS parameters for E-RABs of QCI2. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successful modifications of QoS parameters for E-RABs of QCI3. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successful modifications of QoS parameters for E-RABs of QCI4. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successful modifications of QoS parameters for E-RABs of QCI5. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successful modifications of QoS parameters for E-RABs of QCI6. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successful modifications of QoS parameters for E-RABs of QCI7. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successful modifications of QoS parameters for E-RABs of QCI8. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successful modifications of QoS parameters for E-RABs of QCI9. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of failed Controller,FDD,TDD,SBTS E-RAB modifications in case of a timeout of the RRC Connection Reconfguration procedure since the UE has not acknowledged the DRB Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone modification. This measurement provides the number of failed Controller,FDD,TDD,SBTS
E-RAB modifications, for example in case that the requested new QCI is not supported.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of failed Controller,FDD,TDD,SBTS E-RAB modifications in case that a QoS modification is not supported, like for example the modification of a GBR DRB or the modifcation of a DRB being used for IMS signaling or the modification of a DRB with emergency ARP.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of EPC-initiated EPS Bearer Controller,FDD,TDD,SBTS Release requests for QCI1 due to normal release by UE. Each bearer of the E-RAB to be Released List IE is counted. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of EPC-initiated EPS Bearer Controller,FDD,TDD,SBTS Release requests for QCI1 due to the Detach procedure by the UE or the MME. Each bearer of the E-RAB to be Released List IE is counted. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of EPC-initiated EPS Bearer Controller,FDD,TDD,SBTS Release requests for QCI1 due to the Radio Network Layer cause. Each bearer of the E-RAB to be Released List IE is counted. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of EPC-initiated EPS Bearer Controller,FDD,TDD,SBTS Release requests for QCI1 due to Other causes. Each bearer of the E-RAB to be Released List IE is counted. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of QCI1 Controller,FDD,TDD,SBTS E-RABs released due to a failed Handover Completion phase at the target cell. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS released active E-RABs (that is when there was user data in the queue at the time of release) with QCI1 characteristics. The release is initiated the eNB due to radio connectivity problems. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone by This measurement provides the number of Controller,FDD,TDD,SBTS
released active E-RABs (that is when there was user data in the queue at the time of release) with QCI2 characteristics. The release is initiated the eNB due to radio connectivity problems. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone by This measurement provides the number of Controller,FDD,TDD,SBTS released active E-RABs (that is when there was user data in the queue at the time of release) with QCI3 characteristics. The release is initiated the eNB due to radio connectivity problems. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone by This measurement provides the number of Controller,FDD,TDD,SBTS
released active E-RABs (that is when there was user data in the queue at the time of release) with QCI4 characteristics. The release is initiated the eNB due to radio connectivity problems. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone by This measurement provides the number of Controller,FDD,TDD,SBTS released active E-RABs (that is when there was user data in the queue at the time of release) with non-GBR characteristics (QCI5...9). The is initiated by the eNB due to radio inFlexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone release This measurement provides the aggregated connectivity problems. Controller,FDD,TDD,SBTS session activity time in seconds for all E-RABs with QCI1 characteristics. The E-RAB is said to be "in session" if any user data has been in UL orprovides DL direction within the last Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone transferred This measurement the aggregated in100msec. Controller,FDD,TDD,SBTS session activity time in seconds for all E-RABs with QCI2 characteristics. The E-RAB is said to be "in session" if any user data has been transferred in UL or DL direction within the last 100msec.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the aggregated inController,FDD,TDD,SBTS session activity time in seconds for all E-RABs with QCI3 characteristics. The E-RAB is said to be "in session" if any user data has been in UL orprovides DL direction within the last Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone transferred This measurement the aggregated in100msec. Controller,FDD,TDD,SBTS session activity time in seconds for all E-RABs with QCI4 characteristics. The E-RAB is said to be "in session" if any user data has been in UL orprovides DL direction within the last Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone transferred This measurement the aggregated in100msec. Controller,FDD,TDD,SBTS session activity time in seconds for all E-RABs with non-GBR (QCI5..9) characteristics. The ERAB is said to be "in session" if any user data transferred UL or attempts DL direction within Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone has The been number of E-RABinSetup (requests) the last 100msec. Controller,FDD,TDD,SBTS for high priority calls. Each bearer of the "E-RAB to be Setup List" IE is counted. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of E-RAB Setup completions for Controller,FDD,TDD,SBTS high priority calls. Each bearer of the "E-RAB Setup List" IE is counted. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of setup Controller,FDD,TDD,SBTS attempts for initial E-RABs of QCI1.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of setup Controller,FDD,TDD,SBTS attempts for initial E-RABs of QCI2.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of setup Controller,FDD,TDD,SBTS attempts for initial E-RABs of QCI3.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of setup Controller,FDD,TDD,SBTS attempts for initial E-RABs of QCI4.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of setup Controller,FDD,TDD,SBTS attempts for initial E-RABs of QCI5.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of setup Controller,FDD,TDD,SBTS attempts for initial E-RABs of QCI6.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of setup Controller,FDD,TDD,SBTS attempts for initial E-RABs of QCI7.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of setup Controller,FDD,TDD,SBTS attempts for initial E-RABs of QCI8.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of setup Controller,FDD,TDD,SBTS attempts for initial E-RABs of QCI9.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of setup Controller,FDD,TDD,SBTS attempts for additional E-RABs of QCI1.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of setup Controller,FDD,TDD,SBTS attempts for additional E-RABs of QCI2.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of setup Controller,FDD,TDD,SBTS attempts for additional E-RABs of QCI3.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of setup Controller,FDD,TDD,SBTS attempts for additional E-RABs of QCI4.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of setup Controller,FDD,TDD,SBTS attempts for additional E-RABs of QCI5.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of setup Controller,FDD,TDD,SBTS attempts for additional E-RABs of QCI6.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of setup Controller,FDD,TDD,SBTS attempts for additional E-RABs of QCI7.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of setup Controller,FDD,TDD,SBTS attempts for additional E-RABs of QCI8.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of setup Controller,FDD,TDD,SBTS attempts for additional E-RABs of QCI9.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successfully established initial E-RABs of QCI1.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successfully established initial E-RABs of QCI2.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successfully established initial E-RABs of QCI3.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successfully established initial E-RABs of QCI4.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successfully established initial E-RABs of QCI5.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successfully established initial E-RABs of QCI6.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successfully established initial E-RABs of QCI7.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successfully established initial E-RABs of QCI8.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successfully established initial E-RABs of QCI9.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successfully established additional E-RABs of QCI1. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successfully established additional E-RABs of QCI2. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successfully established additional E-RABs of QCI3. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successfully established additional E-RABs of QCI4.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successfully established additional E-RABs of QCI5. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successfully established additional E-RABs of QCI6. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successfully established additional E-RABs of QCI7. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successfully established additional E-RABs of QCI8. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successfully established additional E-RABs of QCI9. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the maximum of Controller,FDD,TDD,SBTS sampled values for measuring the number of simultaneously established E-RABs with QCI1 characteristics. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the maximum of Controller,FDD,TDD,SBTS sampled values for measuring the number of simultaneously established E-RABs with QCI2 characteristics. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the maximum of Controller,FDD,TDD,SBTS sampled values for measuring the number of simultaneously established E-RABs with QCI3 characteristics. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the maximum of Controller,FDD,TDD,SBTS sampled values for measuring the number of simultaneously established E-RABs with QCI4 characteristics. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the maximum of Controller,FDD,TDD,SBTS sampled values for measuring the number of simultaneously established E-RABs with QCI5 characteristics. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the maximum of Controller,FDD,TDD,SBTS sampled values for measuring the number of simultaneously established E-RABs with QCI6 characteristics. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the maximum of Controller,FDD,TDD,SBTS sampled values for measuring the number of simultaneously established E-RABs with QCI7 characteristics.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the maximum of Controller,FDD,TDD,SBTS sampled values for measuring the number of simultaneously established E-RABs with QCI8 characteristics. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the maximum of Controller,FDD,TDD,SBTS sampled values for measuring the number of simultaneously established E-RABs with QCI9 characteristics. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the average number Controller,FDD,TDD,SBTS of non-GBR E-RABs with a configured nominal bit rate in DL. The reported value is 100 times higher than the value (for example 1.00 stored as 100). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone actual This measurement provides theisaverage number Controller,FDD,TDD,SBTS
of non-GBR E-RABs with a configured nominal bit rate in UL. The reported value is 100 times higher than the value (for example 1.00 stored as 100). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone actual This measurement provides theisaverage number Controller,FDD,TDD,SBTS of non-GBR E-RABs with a configured nominal bit rate in DL, but which do not reach this nominal bit rate due to PDSCH/PDCCH overload. value provides is 100 times than the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The This reported measurement the higher average number actual value (for example 1.00 is stored as 100). Controller,FDD,TDD,SBTS of non-GBR E-RABs with a configured nominal bit rate in UL, but which do not reach this nominal bit rate due to PUSCH/PDCCH overload. value provides is 100 times the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The This reported measurement the higher numberthan of failed actual value (for example 1.00 is stored as 100). Controller,FDD,TDD,SBTS E-RAB modifications due to "Radio Network Layer Cause - Radio resources not available" Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of failed Controller,FDD,TDD,SBTS E-RAB modifications due to "Transport Layer cause - Transport Resource Unavailable" Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS released active E-RABs (that is when there was user data in the queue at the time of release) with QCI5 characteristics. The release is initiated the eNB due to radio connectivity problems. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone by This measurement provides the number of Controller,FDD,TDD,SBTS
released active E-RABs (that is when there was user data in the queue at the time of release) with QCI6 characteristics. The release is initiated the eNB due to radio connectivity problems. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone by This measurement provides the number of Controller,FDD,TDD,SBTS released active E-RABs (that is when there was user data in the queue at the time of release) with QCI7 characteristics. The release is initiated the eNB due to radio connectivity problems. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone by This measurement provides the number of Controller,FDD,TDD,SBTS
released active E-RABs (that is when there was user data in the queue at the time of release) with QCI8 characteristics. The release is initiated by the eNB due to radio connectivity problems.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS released active E-RABs (that is when there was user data in the queue at the time of release) with QCI9 characteristics. The release is initiated the eNB due to radio connectivity problems. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone by This measurement provides the number of failed Controller,FDD,TDD,SBTS
setup attempts for initial E-RABs due to "Radio Network Layer Cause - Radio resources not available".
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of failed Controller,FDD,TDD,SBTS setup attempts for initial E-RABs due to "Transport Network Layer Cause - Transport Resources Unavailable". Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of failed Controller,FDD,TDD,SBTS setup attempts for initial E-RABs due to "Radio Network Layer Cause - Radio Connection with UE lost". Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of failed Controller,FDD,TDD,SBTS setup attempts for initial E-RABs due to "Radio Network Layer Cause - Failure in the Radio Interface Procedure". Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of failed Controller,FDD,TDD,SBTS setup attempts for additional E-RABs due to "Radio Network Layer Cause - Radio resources not available". Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of failed Controller,FDD,TDD,SBTS setup attempts for additional E-RABs due to "Transport Network Layer Cause - Transport Resources Unavailable". Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of failed Controller,FDD,TDD,SBTS setup attempts for additional E-RABs due to "Radio Network Layer Cause - Radio Connection with UE lost". Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of failed Controller,FDD,TDD,SBTS setup attempts for additional E-RABs due to "Radio Network Layer Cause - Failure in the Radio Interface Procedure". Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of failed Controller,FDD,TDD,SBTS setup attempts for additional E-RABs due to "Miscellaneous Cause - Not enough User Plane Processing Resources". Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of failed Controller,FDD,TDD,SBTS setup attempts for additional E-RABs due to mobility procedures like Handover, Redirect, or CS Fallback. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the total number of Controller,FDD,TDD,SBTS eNB initiated E-RAB releases regardless of the release cause and of the released bearers QCI.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of EController,FDD,TDD,SBTS RABs released due to user inactivity. The counter is maintained regardless of the released bearers QCI. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of EController,FDD,TDD,SBTS RABs released if the connection to the UE is lost. The counter is maintained regardless of the released bearers QCI. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of EController,FDD,TDD,SBTS RABs released if the associated transport resources are not available anymore. The counter is maintained regardless of the released QCI. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone bearers This measurement provides the number of EController,FDD,TDD,SBTS
RABs released if the UE gets redirected to another cell. The counter is maintained regardless of the released bearers QCI.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of EController,FDD,TDD,SBTS RABs released due to E-UTRAN-generated reasons. The counter is maintained regardless of the released bearers QCI. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of EController,FDD,TDD,SBTS RABs released due to pre-emption if available radio resources are insufficient. The counter is maintained regardless of the released bearers Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone QCI. This measurement provides the number of EController,FDD,TDD,SBTS
RABs released due to a partial HO. The partial HO means that the HO for the admitted E-RABs was successfully completed, although not all Ewere admitted by the HO during Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone RABs This measurement provides the target number of E-HO preparation. The counter is incremented with the Controller,FDD,TDD,SBTS RABs "attempted to release" due to "intra-LTE number of E-RABs not admitted by the HO HO", "inter-system HO to UTRAN", "SRVCC to target. Theorcounter is to maintained in counter the source UTRAN", "SRVCC GSM". The is cell regardless of the bearers QCI. maintained in the source cell regardless of the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Ebearers QCI. due to the successful "intra-LTE Controller,FDD,TDD,SBTS RABs released HO", "inter-system HO to UTRAN", "SRVCC to UTRAN", or "SRVCC to GSM". The counter is in the source cellthe regardless Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone maintained This measurement provides number of of the Ebearers QCI. Controller,FDD,TDD,SBTS RABs that are abnormally released due to the expiration of the HO Guard Timer for an "intraLTE HO", "inter-system HO to UTRAN", "SRVCC UTRAN", or "SRVCC to GSM". The counter is Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone to This measurement provides the number of EPCmaintained in the source cell regardless of the Controller,FDD,TDD,SBTS initiated E-RAB releases, which are rejected by bearers the eNB QCI. regardless of the reject cause. The ERAB release request may be rejected, for due to an provides ongoing mobility Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone example, This measurement the total procedure. number of Controller,FDD,TDD,SBTS eNB-initiated releases of QCI1 E-RABs regardless of the release cause.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of QCI1 Controller,FDD,TDD,SBTS E-RABs released due to user inactivity.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of QCI1 Controller,FDD,TDD,SBTS E-RABs released if the connection to the UE is lost. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of QCI1 Controller,FDD,TDD,SBTS E-RABs released if the associated transport resources are not available anymore. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of QCI1 Controller,FDD,TDD,SBTS E-RABs released if the UE gets redirected to another cell. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of QCI1 Controller,FDD,TDD,SBTS E-RABs released due to E-UTRAN-generated reasons. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of QCI1 Controller,FDD,TDD,SBTS E-RABs released due to pre-emption if the available radio resources are insufficient. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of QCI1 Controller,FDD,TDD,SBTS E-RABs released due to a partial HO. The partial HO means that the HO for the admitted E-RABs was successfully completed, although not all Ewere admitted by the HO during HO Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone RABs This measurement provides the target number of QCI1 preparation. The counter is incremented with the Controller,FDD,TDD,SBTS E-RABs "attempted to release" due to "intra-LTE number of QCI1 E-RABs not admitted by the HO HO", "inter-system HO to UTRAN", "SRVCC to target. Theorcounter is to maintained in counter the source UTRAN", "SRVCC GSM". The is cell. maintained in the source cell. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of QCI1 Controller,FDD,TDD,SBTS E-RABs released due to the successful "intraLTE HO", "inter-system HO to UTRAN", "SRVCC to UTRAN", or "SRVCC to GSM". The counter is in the source cell.the number of QCI1 Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone maintained This measurement provides Controller,FDD,TDD,SBTS
E-RABs that are abnormally released due to the expiration of the HO Guard Timer for an "intraLTE HO", "inter-system HO to UTRAN", "SRVCC UTRAN", to GSM". The attempted counter is to Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone to The number "SRVCC of Data Radio Bearers maintained in the source cell. Controller,FDD,TDD,SBTS set up per cell. It comprises also attempted Data Radio Bearer up during an incoming Handover Data at the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone setups The number of successfully established target cell. Controller,FDD,TDD,SBTS Radio Bearers per cell. It comprises also the successfully established Data Radio Bearers due to an incoming Handover at the target cell.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Data Radio Bearers failed to Controller,FDD,TDD,SBTS setup per cell. It comprises also the Data Radio Bearers failed setup during an incoming at the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone to The number of Radio BearerHandover Release requests target cell. Controller,FDD,TDD,SBTS due to Detach procedure
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Signaling Radio Bearer 1 setup Controller,FDD,TDD,SBTS attempts. SRB1 for most RRC messages using the DCCH. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Note: The number of Signaling Radio Bearer 1 setup This counter is not incremented in messages case of completions. SRB1 for most RRC connection re-establishment or in case of using the DCCH. incoming handover.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Note: The number of Signaling Radio Bearer 1 setup This counter is for notmost incremented in case of failures. SRB1 RRC messages using the connection re-establishment or in case of DCCH. incoming handover.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Signaling Radio Bearer 2 setup Controller,FDD,TDD,SBTS attempts. SRB2 is for NAS messages using the DCCH (if AS security has been activated). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Note: The number of Signaling Radio Bearer 2 setup This counter is not incremented in case ofusing completions. SRB2 is for NAS messages connection re-establishment or in of the DCCH (if AS security has beencase activated). incoming handover.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Note: The number of Signaling Radio Bearer 2 setup This counter is is not in case of the failures. SRB2 forincremented NAS messages using connection re-establishment or in case of DCCH (if AS security has been activated). incoming handover.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the mean E-RAB Controller,FDD,TDD,SBTS setup time (3GPP TS 32.425, 36.413, 23.203).
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the maximum EController,FDD,TDD,SBTS RAB setup time (3GPP TS 32.425, 36.413, 23.203). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of rejected RRC Connection reController,FDD,TDD,SBTS establishments.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of RRC paging requests (records). Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of discarded RRC paging requests Controller,FDD,TDD,SBTS (records).
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of transmitted RRC paging Controller,FDD,TDD,SBTS messages.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of attempted RRC Connection ReController,FDD,TDD,SBTS establishment procedures.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of successful RRC Connection ReController,FDD,TDD,SBTS establishment procedures.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of RRC Connection ReController,FDD,TDD,SBTS establishment attempts per cause (Handover Failure). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of successful RRC Connection ReController,FDD,TDD,SBTS establishment procedures per cause (Handover Failure). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of RRC Connection ReController,FDD,TDD,SBTS establishment attempts per cause (Other failure).
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of successful RRC Connection ReController,FDD,TDD,SBTS establishment procedures per cause (Other Failure). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the total number of Controller,FDD,TDD,SBTS attempts to retrieve the CGI of a neighbor cell from UE. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of CGI Controller,FDD,TDD,SBTS measurement reports received from UE.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the total number of Controller,FDD,TDD,SBTS attempts to retrieve the CGI of a UTRAN neighbor cell from UE. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of CGI Controller,FDD,TDD,SBTS measurement reports received from UE containing LAC and RAC.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of CGI Controller,FDD,TDD,SBTS measurement reports received from UE with missing LAC or RAC. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of UEs Controller,FDD,TDD,SBTS attempted to redirect to Home eNB via RRC Connection Release. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of RRC Pagings for ETWS or CMAS. Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the mean RRC Controller,FDD,TDD,SBTS connection setup time (3GPP TS 32.425, 36.331). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the maximum RRC Controller,FDD,TDD,SBTS connection setup time (3GPP TS 32.425, 36.331). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of not started Handover Controller,FDD,TDD,SBTS preparations. The RRM receives an RRC Measurement Report (UE -> eNB), but the RRM decides not to start a Handover preparation No target cell listHandover will be handed over In to Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone phase. The number of positive decisions. the mobility management (MM) unit. Controller,FDD,TDD,SBTS case of a positive Handover decision, the RRM transmits a target cell list to the mobility management (MM) unit. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Intra-eNB Handover preparations. Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of failed Intra-eNB Handover Controller,FDD,TDD,SBTS preparations due to Admission Control. Includes failures to set up data forwarding in the target cell. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of failed Intra-eNB Handover Controller,FDD,TDD,SBTS preparations due to other reasons.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Intra-eNB Handover attempts. Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of successful Intra-eNB Handover Controller,FDD,TDD,SBTS completions.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Intra-eNB Handover failures due Controller,FDD,TDD,SBTS to the guarding timer THOoverall.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone UE reported (wideband) Channel Quality Controller,FDD,TDD,SBTS Indicator CQI class 00
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone UE reported (wideband) Channel Quality Controller,FDD,TDD,SBTS Indicator CQI class 01
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone UE reported (wideband) Channel Quality Controller,FDD,TDD,SBTS Indicator CQI class 02
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone UE reported (wideband) Channel Quality Controller,FDD,TDD,SBTS Indicator CQI class 03
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone UE reported (wideband) Channel Quality Controller,FDD,TDD,SBTS Indicator CQI class 04
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone UE reported (wideband) Channel Quality Controller,FDD,TDD,SBTS Indicator CQI class 05
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone UE reported (wideband) Channel Quality Controller,FDD,TDD,SBTS Indicator CQI class 06
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone UE reported (wideband) Channel Quality Controller,FDD,TDD,SBTS Indicator CQI class 07
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone UE reported (wideband) Channel Quality Controller,FDD,TDD,SBTS Indicator CQI class 08
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone UE reported (wideband) Channel Quality Controller,FDD,TDD,SBTS Indicator CQI class 09
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone UE reported (wideband) Channel Quality Controller,FDD,TDD,SBTS Indicator CQI class 10
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone UE reported (wideband) Channel Quality Controller,FDD,TDD,SBTS Indicator CQI class 11
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone UE reported (wideband) Channel Quality Controller,FDD,TDD,SBTS Indicator CQI class 12
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone UE reported (wideband) Channel Quality Controller,FDD,TDD,SBTS Indicator CQI class 13
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone UE reported (wideband) Channel Quality Controller,FDD,TDD,SBTS Indicator CQI class 14
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone UE reported (wideband) Channel Quality Controller,FDD,TDD,SBTS Indicator CQI class 15
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Minimum CQI offset applied in link adaption Controller,FDD,TDD,SBTS process from outer loop link adaptation on the reported CQI values from UE Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Maximum CQI offset applied in link adaption Controller,FDD,TDD,SBTS process from outer loop link adaptation on the reported CQI values from UE Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Mean CQI offset applied in link adaption process Controller,FDD,TDD,SBTS from outer loop link adaptation on the reported CQI values from UE Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The sum of MIMO Open Loop Diversity mode Controller,FDD,TDD,SBTS usage.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The sum of MIMO Open Loop Spatial Controller,FDD,TDD,SBTS Multiplexing mode usage.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of times when MIMO Closed loop 1 Controller,FDD,TDD,SBTS Code Word mapping to 1-layer mode is used.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of times when MIMO Closed loop 2 Controller,FDD,TDD,SBTS Code Word mapping to 2-layer mode is used.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Open Loop MIMO mode switches Controller,FDD,TDD,SBTS in downlink.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of MIMO Closed loop Code Word Controller,FDD,TDD,SBTS mode switchings.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of dedicated Controller,FDD,TDD,SBTS PDCCH resource allocations (eNB -> UE) for PDSCH transmissions with HARQ reporting; that is this counter provides the number of dedicated resource allocations by which the eNB Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone PDCCH This counter provides the number of dedicated informs a dedicated UE on the PDCCH about Controller,FDD,TDD,SBTS PDCCH resource allocations (eNB -> UE) for the allocated PDSCH resources which are used for PDSCH transmissions with HARQ reporting in PDSCH transmissions with HARQ reporting. case that the eNB was not able to detect the This counterresponse is updated irrespectively of that whether (ACK/NACK) from the UE; that Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone HARQ This measurement provides final PDCCH power the eNB was able to detect the HARQ response is this counter provides the number of dedicated Controller,FDD,SBTS per RE per DCI in each TTIorwithout considering (ACK/NACK) from the UE not. PDCCH resource allocations by which eNB the cell/OFDM-symbol wide positive or the negative informs a dedicated UE on the PDCCH about the adjustments. allocated PDSCH resources which are used for The value provides [in dBm] the is 100 times transmit higher FSM-r3,FDD,TDD,SBTS This reported measurement average PDSCH transmissions with HARQ reporting in than the actual value (for example 1.00 is stored powerthat in milliwatts at the end of to thedetect collection case the eNB was not able the as 100). interval. HARQ response (ACK/NACK) from the UE. This counter is only updated when the eNB was not This measurement is supported only for the able to detect the HARQ response (ACK/NACK) FSM-r3,FDD,TDD,SBTS This measurement provides the maximum FRMr2.3 RF modules and the Fujitsu from the UE. Therefore, either a transmission transmit power in milliwatts at the endSingleof Technology (ST-RRH), Multi-Technology (MTerror for the downlink PDCCH resource allocation collection interval. RRH), Multi-Technology (eNB ->and UE)New-Design or a transmission error for the(NDMTuplink RRH) Remote Radio Heads (RRH). HARQ response (UE -> eNB) has occurred. only "UE for the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This This measurement counter is part is ofsupported the histogram FRMr2.3 RF modules and the Fujitsu Single- the Controller,FDD,TDD,SBTS Reported CQIs for Codeword 1" and provides Technology (ST-RRH), Multi-Technology number of events when the UE reports a (MTRRH), andCQI New-Design (NDMTwideband (ChannelMulti-Technology Quality Information) RRH) Remote Radio Heads (RRH). 0 for Codeword (3GPP TS 36.212, Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone level This counter is part of1the histogram "UE 36.213, 36.331). Controller,FDD,TDD,SBTS Reported CQIs for Codeword 1" and provides the Only wideband CQI reports number of events when the for UE Codeword reports a 1 are counted; wideband CQI reports Codeword 0 wideband CQI (Channel Quality for Information) are not counted. 1 for Codeword (3GPP TS 36.212, Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone level This counter is part of1the histogram "UE 36.213, 36.331). Controller,FDD,TDD,SBTS Reported CQIs for Codeword 1" and provides the Only wideband CQI reports number of events when the for UE Codeword reports a 1 are counted; wideband CQI reports Codeword 0 wideband CQI (Channel Quality for Information) are not counted. 2 for Codeword (3GPP TS 36.212, Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone level This counter is part of1the histogram "UE 36.213, 36.331). Controller,FDD,TDD,SBTS Reported CQIs for Codeword 1" and provides the Only wideband CQI reports number of events when the for UE Codeword reports a 1 are counted; wideband CQI reports Codeword 0 wideband CQI (Channel Quality for Information) are not counted. 3 for Codeword (3GPP TS 36.212, Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone level This counter is part of1the histogram "UE 36.213, 36.331). Controller,FDD,TDD,SBTS Reported CQIs for Codeword 1" and provides the Only wideband CQI reports number of events when the for UE Codeword reports a 1 are counted; wideband CQI reports Codeword 0 wideband CQI (Channel Quality for Information) are not counted. level 4 for Codeword 1 (3GPP TS 36.212, 36.213, 36.331). Only wideband CQI reports for Codeword 1 are counted; wideband CQI reports for Codeword 0 are not counted.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter is part of the histogram "UE Controller,FDD,TDD,SBTS Reported CQIs for Codeword 1" and provides the number of events when the UE reports a wideband CQI (Channel Quality Information) 5 for Codeword (3GPP TS 36.212, Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone level This counter is part of1the histogram "UE 36.213, 36.331). Controller,FDD,TDD,SBTS Reported CQIs for Codeword 1" and provides the Only wideband CQI reports number of events when the for UE Codeword reports a 1 are counted; wideband CQI reports Codeword 0 wideband CQI (Channel Quality for Information) are not counted. 6 for Codeword (3GPP TS 36.212, Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone level This counter is part of1the histogram "UE 36.213, 36.331). Controller,FDD,TDD,SBTS Reported CQIs for Codeword 1" and provides the Only wideband CQI reports number of events when the for UE Codeword reports a 1 are counted; wideband CQI reports Codeword 0 wideband CQI (Channel Quality for Information) are not counted. 7 for Codeword (3GPP TS 36.212, Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone level This counter is part of1the histogram "UE 36.213, 36.331). Controller,FDD,TDD,SBTS Reported CQIs for Codeword 1" and provides the Only wideband CQI reports number of events when the for UE Codeword reports a 1 are counted; wideband CQI reports Codeword 0 wideband CQI (Channel Quality for Information) are not counted. 8 for Codeword (3GPP TS 36.212, Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone level This counter is part of1the histogram "UE 36.213, 36.331). Controller,FDD,TDD,SBTS Reported CQIs for Codeword 1" and provides the Only wideband CQI reports number of events when the for UE Codeword reports a 1 are counted; wideband CQI reports Codeword 0 wideband CQI (Channel Quality for Information) are not counted. 9 for Codeword (3GPP TS 36.212, Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone level This counter is part of1the histogram "UE 36.213, 36.331). Controller,FDD,TDD,SBTS Reported CQIs for Codeword 1" and provides the Only wideband CQI reports number of events when the for UE Codeword reports a 1 are counted; wideband CQI reports Codeword 0 wideband CQI (Channel Quality for Information) are not counted. 10 for Codeword 1 (3GPP TS 36.212, Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone level This counter is part of the histogram "UE 36.213, 36.331). Controller,FDD,TDD,SBTS Reported CQIs for Codeword 1" and provides the Only wideband CQI reports number of events when the for UE Codeword reports a 1 are counted; wideband CQI reports Codeword 0 wideband CQI (Channel Quality for Information) are not counted. 11 for Codeword 1 (3GPP TS 36.212, Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone level This counter is part of the histogram "UE 36.213, 36.331). Controller,FDD,TDD,SBTS Reported CQIs for Codeword 1" and provides the Only wideband CQI reports number of events when the for UE Codeword reports a 1 are counted; wideband CQI reports Codeword 0 wideband CQI (Channel Quality for Information) are not counted. 12 for Codeword 1 (3GPP TS 36.212, Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone level This counter is part of the histogram "UE 36.213, 36.331). Controller,FDD,TDD,SBTS Reported CQIs for Codeword 1" and provides the Only wideband CQI reports number of events when the for UE Codeword reports a 1 are counted; wideband CQI reports Codeword 0 wideband CQI (Channel Quality for Information) are not counted. 13 for Codeword 1 (3GPP TS 36.212, Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone level This counter is part of the histogram "UE 36.213, 36.331). Controller,FDD,TDD,SBTS Reported CQIs for Codeword 1" and provides the Only wideband CQI reports number of events when the for UE Codeword reports a 1 are counted; wideband CQI reports Codeword 0 wideband CQI (Channel Quality for Information) are not counted. 14 for Codeword 1 (3GPP TS 36.212, Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone level This counter is part of the histogram "UE 36.213, 36.331). Controller,FDD,TDD,SBTS Reported CQIs for Codeword 1" and provides the Only wideband CQI reports number of events when the for UE Codeword reports a 1 are counted; wideband CQI reports Codeword 0 wideband CQI (Channel Quality for Information) are not counted. 15 for Codeword (3GPP TS 36.212, Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone level The Physical Resource1Block (PRB) utilization 36.213, 36.331). Controller,FDD,TDD,SBTS per TTI. The utilization is defined by the rate of Only CQIUtilization reports forinCodeword used wideband PRB per TTI. the range 1ofare <= counted; wideband CQI reports for Codeword 0 10% is updated to this counter. are not counted.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Physical Resource Block (PRB) utilization Controller,FDD,TDD,SBTS per TTI. The utilization is defined by the rate of used PRB per TTI. Utilization in the range of 10% < PRBUTIL < = 20% is updated to this counter. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Physical Resource Block (PRB) utilization Controller,FDD,TDD,SBTS per TTI. The utilization is defined by the rate of used PRB per TTI. Utilization in the range of 20% < PRBUTIL < = 30% is updated to this counter. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Physical Resource Block (PRB) utilization Controller,FDD,TDD,SBTS per TTI. The utilization is defined by the rate of used PRB per TTI. Utilization in the range of 30% < PRBUTIL < = 40% is updated to this counter. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Physical Resource Block (PRB) utilization Controller,FDD,TDD,SBTS per TTI. The utilization is defined by the rate of used PRB per TTI. Utilization in the range of 40% < PRBUTIL < = 50% is updated to this counter. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Physical Resource Block (PRB) utilization Controller,FDD,TDD,SBTS per TTI. The utilization is defined by the rate of used PRB per TTI. Utilization in the range of 50% < PRBUTIL < = 60% is updated to this counter. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Physical Resource Block (PRB) utilization Controller,FDD,TDD,SBTS per TTI. The utilization is defined by the rate of used PRB per TTI. Utilization in the range of 60% < PRBUTIL < = 70% is updated to this counter. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Physical Resource Block (PRB) utilization Controller,FDD,TDD,SBTS per TTI. The utilization is defined by the rate of used PRB per TTI. Utilization in the range of 70% < PRBUTIL < = 80% is updated to this counter. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Physical Resource Block (PRB) utilization Controller,FDD,TDD,SBTS per TTI. The utilization is defined by the rate of used PRB per TTI. Utilization in the range of 80% < PRBUTIL < = 90% is updated to this counter. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Physical Resource Block (PRB) utilization Controller,FDD,TDD,SBTS per TTI. The utilization is defined by the rate of used PRB per TTI. Utilization in the range of 90% < PRBUTIL < = 100% is updated to this counter. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The minimum value of the UL Physical Resource Controller,FDD,TDD,SBTS Block (PRB) utilization per TTI. The utilization is defined by the rate of used PRB per TTI. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The maximum value of the UL Physical Resource Controller,FDD,TDD,SBTS Block (PRB) utilization per TTI. The utilization is defined by the rate of used PRB per TTI. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The mean value of the UL Physical Resource Controller,FDD,TDD,SBTS Block (PRB) use per TTI. The use is defined by the rate of used PRB per TTI. The reported value is 10 times higher than the actual value (for example 5.4 is stored as 54).
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Physical Resource Block (PRB) utilization Controller,FDD,TDD,SBTS per TTI. The utilization is defined by the rate of used PRB per TTI. Utilization in the range of <= 10% is updated to this counter. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Physical Resource Block (PRB) utilization Controller,FDD,TDD,SBTS per TTI. The utilization is defined by the rate of used PRB per TTI. Utilization in the range of 10% < PRBUTIL < = 20% is updated to this counter. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Physical Resource Block (PRB) utilization Controller,FDD,TDD,SBTS per TTI. The utilization is defined by the rate of used PRB per TTI. Utilization in the range of 20% < PRBUTIL < = 30% is updated to this counter. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Physical Resource Block (PRB) utilization Controller,FDD,TDD,SBTS per TTI. The utilisation is defined by the rate of used PRB per TTI. Utilization in the range of 30% < PRBUTIL < = 40% is updated to this counter. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Physical Resource Block (PRB) utilization Controller,FDD,TDD,SBTS per TTI. The utilization is defined by the rate of used PRB per TTI. Utilization in the range of 40% < PRBUTIL < = 50% is updated to this counter. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Physical Resource Block (PRB) utilization Controller,FDD,TDD,SBTS per TTI. The utilization is defined by the rate of used PRB per TTI. Utilization in the range of 50% < PRBUTIL < = 60% is updated to this counter. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Physical Resource Block (PRB) utilization Controller,FDD,TDD,SBTS per TTI. The utilization is defined by the rate of used PRB per TTI. Utilization in the range of 60% < PRBUTIL < = 70% is updated to this counter. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Physical Resource Block (PRB) utilization Controller,FDD,TDD,SBTS per TTI. The utilization is defined by the rate of used PRB per TTI. Utilization in the range of 70% < PRBUTIL < = 80% is updated to this counter. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Physical Resource Block (PRB) utilization Controller,FDD,TDD,SBTS per TTI. The utilization is defined by the rate of used PRB per TTI. Utilization in the range of 80% < PRBUTIL < = 90% is updated to this counter. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The Physical Resource Block (PRB) utilization Controller,FDD,TDD,SBTS per TTI. The utilization is defined by the rate of used PRB per TTI. Utilization in the range of 90% < PRBUTIL < = 100% is updated to this counter. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The minimum value of the DL Physical Resource Controller,FDD,TDD,SBTS Block (PRB) utilization per TTI. The utilization is defined by the rate of used PRB per TTI. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The maximum value of the DL Physical Resource Controller,FDD,TDD,SBTS Block (PRB) utilization per TTI. The utilization is defined by the rate of used PRB per TTI.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The mean value of the DL Physical Resource Controller,FDD,TDD,SBTS Block (PRB) use per TTI. The use is defined by the rate of used PRB per TTI. The reported value is 10 times higher than the value (for example 5.4 is stored as 54). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone actual Total number of CCEs available for active TTIs Controller,FDD,TDD,SBTS
when at least one PDCCH is going to be scheduled.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total number of AGG1 used for PDCCH Controller,FDD,TDD,SBTS scheduling over the measurement period.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total number of AGG2 used for PDCCH Controller,FDD,TDD,SBTS scheduling over the measurement period.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total number of AGG4 used for PDCCH Controller,FDD,TDD,SBTS scheduling over the measurement period.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total number of AGG8 used for PDCCH Controller,FDD,TDD,SBTS scheduling over the measurement period.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total number of AGG1 blocked for PDCCH Controller,FDD,TDD,SBTS scheduling over the measurement period.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total number of AGG2 blocked for PDCCH Controller,FDD,TDD,SBTS scheduling over the measurement period.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total number of AGG4 blocked for PDCCH Controller,FDD,TDD,SBTS scheduling over the measurement period.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of AGG8 blocked for PDCCH Controller,FDD,TDD,SBTS scheduling over the measurement period.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total number of PRBs used for UL transmissions Controller,FDD,TDD,SBTS on PUSCH, PUCCH and PRACH over the measurement period is updated to this counter. A PRB covers the pair of resource blocks of two in a subframe. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone consecutive Total numberslots of PRBs used for PUCCH over the Controller,FDD,TDD,SBTS
measurement period is updated to this counter. A PRB covers the pair of resource blocks of two consecutive slots in a subframe.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total number of PRBs used for UL transmissions Controller,FDD,TDD,SBTS on PUSCH over the measurement period is updated to this counter. A PRB covers the pair of resource blocks of two consecutive slots in a Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone subframe. Total number of PRBs used for DL transmissions Controller,FDD,TDD,SBTS
over the measurement period is updated to this counter. A PRB covers the pair of resource blocks of two consecutive slots in a subframe.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Total number of PRBs used for PDSCH over the Controller,FDD,TDD,SBTS measurement period is updated to this counter. A PRB covers the pair of resource blocks of two consecutive slots in a subframe. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Average value of UEs served per TTI on uplink Controller,FDD,TDD,SBTS during a measurement period. Counter unit is 0.1 UE. For example, counter value 100 represents ten UEs. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Maximum value of UEs served per TTI on uplink Controller,FDD,TDD,SBTS during a measurement period.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Average value of UEs served per TTI on downlink Controller,FDD,TDD,SBTS during a measurement period. Counter unit is 0.1 UE. For example, counter value 100 represents ten UEs. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Maximum value of UEs served per TTI on Controller,FDD,TDD,SBTS downlink during a measurement period.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of subframes Controller,FDD,TDD,SBTS when only 1 OFDM symbol is allocated to the PDCCH (3GPP TS 36.211, 36.300). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of subframes Controller,FDD,TDD,SBTS when 2 OFDM symbols are allocated to the PDCCH (3GPP TS 36.211, 36.300). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of subframes Controller,FDD,TDD,SBTS when 3 OFDM symbols are allocated to the PDCCH (3GPP TS 36.211, 36.300). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The measurement provides the average number Controller,FDD,TDD,SBTS of UEs in TTI Bundling mode per sample. Each instance of a UE entering TTI Bundling Mode during the measurement interval is included in if, forfor example, a single UE is Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone the Totalaverage. numberThus of grants TTI Bundling. placed in TTI Bundling mode three times during Controller,FDD,TDD,SBTS the measurement interval, all of the three instances will be included in the average. The reported value is 100 times higher than the actual value (for example 1.00 is stored as 100).
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The measurement represents the number of UEs Controller,FDD,TDD,SBTS that are in TTI Bundling mode for only a short period of time, which is defined as less than t1 seconds, i.e. retention time in TTI Bundling mode t1 sec. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone < The measurement represents the number of UEs Controller,FDD,TDD,SBTS
that are in TTI Bundling mode for a medium period of time. This time period is defined by a lower bound of t1 seconds and an upper bound t2 measurement seconds, that represents is retention the timenumber in TTI of UEs Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone of The Bundling mode: t1 <= x <= t2 sec. Controller,FDD,TDD,SBTS that are in TTI Bundling mode for a long period of time, which is defined as longer than t2 seconds, i.e. retention time in TTI Bundling mode > t2 sec. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of SCell Controller,FDD,TDD,SBTS configuration attempts.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of successful Controller,FDD,TDD,SBTS SCell configuration attempts.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter indicates the occurrence that the Controller,FDD,TDD,SBTS cell is in the active Load Balancing state for interfrequency load balancing. When the cell is in the active Load Balancing the Load Balancing algorithm tries togroup Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone state, The number of TTIs in which cell resource reduce the serving cell load by shifting the cell Controller,FDD,TDD,SBTS 1 is scheduled in UL. traffic to neighbor cells (Load Balancing handover). The maximum value of this counter depends on Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number in which cell resource group the length of of theTTIs measurement period. If the Controller,FDD,TDD,SBTS 2 is scheduledperiod in UL. is 15 minutes (that is, 900 measurement sec), the maximum value of this counter is 900 sec/1 sec = 900 (every 1 second, the eNB checks whether the cell is in the Load Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of TTIs in which cellactive resource group Balancing state). Controller,FDD,TDD,SBTS 3 is scheduled in UL.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of TTIs in which cell resource group Controller,FDD,TDD,SBTS 4 is scheduled in UL.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of TTIs in which PUSCH could be Controller,FDD,TDD,SBTS scheduled.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of TTIs in which cell resource group Controller,FDD,TDD,SBTS 1 is scheduled in DL.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of TTIs in which cell resource group Controller,FDD,TDD,SBTS 2 is scheduled in DL.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of TTIs in which cell resource group Controller,FDD,TDD,SBTS 3 is scheduled in DL.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of TTIs in which cell resource group Controller,FDD,TDD,SBTS 4 is scheduled in DL.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of TTIs in which PDSCH could be Controller,FDD,TDD,SBTS scheduled.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter is a part of the histogram "Cell DL Controller,FDD,TDD,SBTS Composite Available Capacity (DL CAC)" and provides the number of events when the measured downlink CAC of the cell was zero (DL = 0). is a part of the histogram "Cell DL Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone CAC This counter Load balancing is activated to shift traffic from Controller,FDD,TDD,SBTS Composite Available Capacity (DL CAC)" and the high-loaded LTE serving cell to the lowerprovides the number of events when the loaded LTEdownlink neighborCAC cell by favoring handovers measured of the cell was in the from the serving cell to the neighbor cell (by range 0 < DL CAC <= 20. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter is a part of the histogram "Cell DL applying neighbor-cell-related handover Load balancing is activated to shift traffic from Controller,FDD,TDD,SBTS Composite Available Capacity (DL to CAC)" and thresholds which favor handovers thelowerneighbor the high-loaded LTE serving cell to the provides the number of events when the cell). loaded LTEdownlink neighborCAC cell by favoring handovers measured the cell was in the The DL CAC of the cell is of measured by the from the serving cell to the neighbor cell (byeNB range 20 < DL CAC <= 40. internally and is used by the eNB in the context Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone applying This counter is a part of the histogram "Cell DL neighbor-cell-related Load is activated to handover shift traffic from of cellbalancing load which measurements for load balancing Controller,FDD,TDD,SBTS Composite Available Capacity (DL to CAC)" and thresholds favor handovers the neighbor the high-loaded LTE serving cell to the lowerbetween cells (3GPP TS 36.423). A DL CAC provides the number of events when the cell). loaded LTE neighbor cell by the favoring handovers value "0" indicates no available capacity, measured downlink CAC cell was inand the The DL CAC of the cell is of measured by the from the serving cell to the neighbor cell (byeNB value "100" indicates maximum available range 40 < DL CAC <= 60. internally andisisaused bythe the histogram eNB in the"Cell context Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter part of DL applying neighbor-cell-related capacity in the cell (see 3GPP TS 36.423). Load balancing is activated to handover shift traffic from of cell load measurements for load balancing Controller,FDD,TDD,SBTS Composite Available Capacity (DL CAC)" and thresholds whichLTE favor handovers tothe thelowerneighbor the high-loaded cellwhen toA between cellsnumber (3GPPserving TSevents 36.423). DL provides the of theCAC cell). loaded LTE neighbor cell by the favoring handovers value "0" indicates no available capacity, measured downlink CAC cell was inand the The DL CAC of the cell is of measured by the from the serving cell to the neighbor cell (byeNB value "100" indicates maximum available range 60 < DL CAC <= 80. internally and is used by the eNB in the context Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone applying This counter is cell a part of 3GPP the histogram "Cell DL neighbor-cell-related capacity in the (see TS 36.423). Load is activated to handover shift traffic from of cellbalancing load measurements for load balancing Controller,FDD,TDD,SBTS Composite Available Capacity (DL to CAC)" and thresholds which favor handovers the neighbor the high-loaded LTE serving cell to the lowerbetween cells (3GPP TS 36.423). A DL CAC provides the number of events when the cell). loaded LTE neighbor cell by the favoring handovers value "0" indicates no available capacity, measured downlink CAC cell was inand the The DL CAC of the cell is of measured by the from the serving cell to the neighbor cell (byeNB value "100" indicates maximum available range 80 < DL CAC <= 100. andprovides is used by the eNB in the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone internally The counter the3GPP number TTIcontext where applying neighbor-cell-related handover capacity in the cell (see TS of 36.423). Load balancing is activated to shift traffic from of cell load measurements for load balancing Controller,FDD,TDD,SBTS the DL interference shaping is applied. thresholds which favor handovers to the neighbor the high-loaded LTE serving cell toAthe lowerbetween cells (3GPP TS 36.423). DL CAC cell). loaded"0" LTE neighbor by favoring handovers value indicates nocell available capacity, and The CAC of the is measured by the fromDL the serving cellcell tomaximum the neighbor cell (byeNB value "100" indicates available andprovides is used by the eNB in the context Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone internally The counter the3GPP number PRBs used applying neighbor-cell-related handover capacity in the cell (see TS of 36.423). of cell load measurements for load balancing Controller,FDD,TDD,SBTS as preferred resource the DLtointerference thresholds which favorwhen handovers the neighbor between (3GPP TS 36.423). A DL CAC shaping iscells applied. cell). value "0" indicates capacity, and The DL CAC of theno cellavailable is measured by the eNB value "100" indicates maximum available internally and is used by the eNB in the context capacity in the cell (see 3GPP TS 36.423). of cell load measurements for load balancing between cells (3GPP TS 36.423). A DL CAC value "0" indicates no available capacity, and value "100" indicates maximum available capacity in the cell (see 3GPP TS 36.423).
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The counter provides the number of times when Controller,FDD,TDD,SBTS the preferred resources are changed.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter is a part of the histogram "Cell DL Controller,FDD,TDD,SBTS Available Capacity for PDCCH" and provides the number of events when the measured PDCCH AC of the cell was zero (PDCCH AC = 0). balancing activated shift traffic from Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Load This counter is aispart of the to histogram "Cell DL the high-loaded LTE serving cell to the lowerController,FDD,TDD,SBTS Available Capacity (DL AC) for PDCCH" and loaded cellevents by favoring handovers providesLTE theneighbor number of when the from the serving cell to the neighbor cell (by measured PDCCH AC of the cell was in the applying neighbor-cell-related handover 0 < PDCCH ACof <=the 20.histogram "Cell DL Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone range This counter is afavor part thresholds that handovers to the neighbor Load balancing is activated to shift traffic from Controller,FDD,TDD,SBTS Available Capacity (DL AC) for PDCCH" and cell). the high-loaded LTE serving cell to the lowerprovides the number ofcell events when theby the The PDCCH AC of the isfavoring measured loaded LTEPDCCH neighbor cell handovers measured ACused of by the cell was ininthe eNB internally and is by the eNB the from the serving cell to the neighbor cell (by range 20 < PDCCH AC <= 40. context of cell load measurements for load Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter is a part of the histogram "Cell DL applying neighbor-cell-related Load balancing is activated to handover shift traffic from balancing between cells (3GPP TS 36.423). A Controller,FDD,TDD,SBTS Available Capacity (DL AC) for PDCCH" and thresholds that favor handovers to the neighbor the high-loaded LTE serving cell to the lowerPDCCH AC value of "0" indicates no available provides the number of events when the cell). loaded LTE neighbor cell by favoring capacity, and a value ofof "100" indicates measured PDCCH AC the washandovers in maximum thethe The PDCCH AC of the cell is cell measured by from the serving cell to the neighbor cell (by available capacity in the cell (see 3GPP TS range 40 < PDCCH AC <= 60. eNB internally and is used by the eNB in theDL Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone applying This counter is a part of the histogram "Cell neighbor-cell-related handover 36.423). Load balancing is activated to shift traffic from context of cell load measurements for load Controller,FDD,TDD,SBTS Available Capacity (DL AC)" andto provides the thresholds that favor handovers the neighbor the high-loaded LTE serving cell to the lowerbalancing between cells (3GPP TS 36.423). A number of events when the measured PDCCH cell). loaded LTE neighbor cellindicates by favoring handovers PDCCH AC value of "0" no available AC of the cell was in the range 60 < PDCCH AC The PDCCH AC of is measured by from the serving cellthe toofcell the neighbor cellmaximum (bythe capacity, and a value "100" indicates <= 80. eNB internally is used by the eNB "Cell in theDL Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter isand a part of the histogram applying neighbor-cell-related handover available capacity inmeasurements the cellto (see 3GPP TS Load balancing is activated shift traffic from context of cell load for load Controller,FDD,TDD,SBTS Available Capacity (DL AC)" and provides the thresholds that favor handovers to the neighbor 36.423). the high-loaded LTE serving cell to the lowerbalancing between cells (3GPP TS 36.423). A number of events when the measured PDCCH cell). loaded LTE neighbor cell by favoring handovers PDCCH AC value of "0" indicates no available AC ofPDCCH the cellAC was in thecell range 80 < PDCCH AC The of is measured by from the serving cellthe toofthe neighbor cellmaximum (bythe capacity, and aand value "100" indicates <= 100. eNB internally is used by the eNB in the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter is a part of the histogram "Cell DL applying neighbor-cell-related handover available inmeasurements the cellto (see 3GPP TS Load balancing is activated shift traffic fromand context ofcapacity cell load for load Controller,FDD,TDD,SBTS Available Capacity (DL AC) for GBR bearers" thresholds that favor handovers to the neighbor 36.423). the high-loaded LTEcells serving cellwhen to the lower-A balancing between (3GPP TS 36.423). provides the number of events the cell). loaded LTE neighbor cell by favoring handovers PDCCH ACDL value ofAC "0"cell no available measured GBR ofindicates the cell was zero (DL The PDCCH AC of is measured by from the serving cellthe toofthe neighbor cellmaximum (bythe capacity, and a value "100" indicates GBR AC = 0). eNB internally is used by the eNB "Cell in theDL Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter isand a part of the histogram applying neighbor-cell-related handover available capacity inmeasurements the cellto (see 3GPP TS Load balancing is activated shift traffic fromand context of cell load for load Controller,FDD,TDD,SBTS Available Capacity (DL AC) for GBR bearers" thresholds that favor handovers to the neighbor 36.423). the high-loaded LTE serving cell to the lowerbalancing between cells (3GPP TS 36.423). A provides the number of events when the cell). loaded LTE neighbor cell by favoring handovers PDCCH AC value of "0" indicates no available measured GBR of the cell was in theby range 0 The PDCCH ACAC of the is measured from the serving cell toofcell the neighbor cellmaximum (bythe capacity, and a<= value "100" indicates < DL GBR AC 20. eNB internally and is used by the eNB in theDL Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter is a part of the histogram "Cell applying neighbor-cell-related handover available capacity inmeasurements the cellto (see 3GPP TS Load balancing is activated shift traffic fromand context of cell load for load Controller,FDD,TDD,SBTS Available Capacity (DL AC) for GBR bearers" thresholds that favor handovers to the neighbor 36.423). the high-loaded LTE serving cell to the lowerbalancing between cells (3GPP TS 36.423). A provides the number of events when the cell). loaded LTE neighbor cell by favoring handovers PDCCH AC value of "0" indicates no available measured DL GBR AC of the cell was in the The DL GBR AC cell of the cell neighbor is measured by from the serving toofthe cellmaximum (bythe capacity, and aand value "100" indicates range 20 < DL GBR AC <= 40. eNB internally is used by the eNB in theDL Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone applying This counter is a part of the histogram "Cell neighbor-cell-related handover available capacity inmeasurements the cellto (see 3GPP TS Load balancing is activated shift traffic fromand context of cell load for load Controller,FDD,TDD,SBTS Available Capacity (DL AC) for GBR bearers" thresholds that favor handovers to the neighbor 36.423). the high-loaded LTE serving cell to the lowerbalancing between cells (3GPP TS 36.423). A DL provides the number of events when the cell). loaded LTE neighbor cell by favoring handovers GBR AC value of "0" indicates no available measured downlink AC cell for GBR bearers by of the The DL AC cell of the is measured from theGBR serving to neighbor cell<= (by capacity, and aand value ofthe "100" indicates maximum cell was in the range 40 < DL GBR AC 60. eNB internally is used by the eNB in the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone applying This counter is a part of the histogram "Cell DL neighbor-cell-related handover available capacity inmeasurements the cellto (see 3GPP TS Load balancing is activated shift traffic from context of cell load for load Controller,FDD,TDD,SBTS Available Capacity (DL AC) for GBR bearers" and thresholds that favor handovers to the neighbor 36.423). the high-loaded LTEcells serving cellwhen to the lower-A DL balancing between (3GPP TS 36.423). provides the number of events the cell). loaded neighbor cellforbyGBR favoring handovers GBR ACLTE value of of "0"the indicates nobearers available measured downlink AC of the The DL GBR AC cell neighbor is measured by from the serving cell to the cell (by capacity, value of "100" indicates maximum cell was inand theaand range 60 < DL GBR AC in <= 80. eNB internally is used by the eNB the applying neighbor-cell-related handover available capacity in the cell (see 3GPP TS Load balancing is activated to shift traffic from context of cell measurements for load thresholds thatload favor handovers to neighbor 36.423). the high-loaded LTEcells serving cellTS to the the lower-A DL balancing between (3GPP 36.423). cell). loaded LTE neighbor cell by favoring handovers GBR AC value of "0" indicates no available The DL AC cell of the cell neighbor is measured by from theGBR serving toofthe cellmaximum (bythe capacity, and aand value "100" indicates eNB internally is used by the eNB in the applying neighbor-cell-related handover available capacity inmeasurements the cell (see 3GPP TS context of cell load for load thresholds that favor handovers to the neighbor 36.423). balancing between cells (3GPP TS 36.423). A DL cell). GBR ACGBR valueAC of of "0"the indicates no available The DL cell is measured by the capacity, and a value of "100" indicates eNB internally and is used by the eNB inmaximum the available capacity in the cell (see 3GPP TS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter is a part of the histogram "Cell DL Controller,FDD,TDD,SBTS Available Capacity (DL AC) for GBR bearers" and provides the number of events when the measured downlink AC for GBR bearers of the in theis range < DLhistogram GBR AC "Cell <= 100. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone cell Thiswas counter a part 80 of the DL Load balancing is activated to shift traffic from Controller,FDD,TDD,SBTS Available Capacity (DL AC) for non-GBR bearers" the serving cell to the lowerandhigh-loaded provides theLTE number of events when the loaded LTE neighbor cell by favoring handovers measured DL non-GBR AC of the cell was zero fromnon-GBR the serving cell to the neighbor cell (by = 0). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone (DL This counter isAC a part of the histogram "Cell DL applying neighbor-cell-related Load balancing is activated to handover shift traffic bearers" from Controller,FDD,TDD,SBTS Available Capacity (DL AC) for non-GBR thresholds that favor handovers to the neighbor the high-loaded LTE serving cell to the lowerand provides the number of events when the cell). loaded LTEDL neighbor cellAC byof favoring measured non-GBR the cellhandovers was inthe the The DL GBR AC of the cell neighbor is measured from the serving cell to the cell by (by range 0 < DL non-GBR AC <= 20. eNB internally and is used by the eNB in the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter is a part of the histogram "Cell DL applying neighbor-cell-related Load balancing is activated to handover shift traffic from context ofCapacity cell load measurements for load Controller,FDD,TDD,SBTS Available (DL AC) for non-GBR bearers" thresholds that favor handovers to the neighbor the high-loaded LTE serving cell to the lowerbalancing between cells (3GPP TS 36.423). and provides the number of events when theA DL cell). loaded LTE neighbor cellAC byof favoring handovers GBR AC value of "0" indicates no available measured DL non-GBR the cell was in by the The DL non-GBR ACtoofthe theneighbor cell is measured from the serving cell cell (by capacity, and a value of "100" indicates maximum range 20 < DL non-GBR AC <= 40. the eNB internally andofisthe used by the eNB inDL the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter is a part histogram "Cell applying neighbor-cell-related handover available capacity inmeasurements the cellto (see 3GPP TS Load balancing is activated shift traffic from context of cell load for load Controller,FDD,TDD,SBTS Available Capacity (DL AC) for non-GBR bearers" thresholds that favor handovers to neighbor 36.423). the high-loaded serving cellTS to the the lowerbalancing between cells (3GPP 36.423). and provides theLTE number of events when theA DL cell). loaded LTE neighbor cell by favoring handovers non-GBR AC value of "0" indicates no available measured downlink for bearers by of The DL non-GBR ACAC thenon-GBR cell is measured from thewas serving cell toof neighbor cellmaximum (byAC capacity, andinathe value ofisthe "100" indicates the cell range 40 < DL non-GBR eNB internally and used by the eNB in the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter is a part of the "Cell applying handover available capacity inmeasurements the cell histogram (see 3GPP TS DL <= 60. ofneighbor-cell-related context cell load for load Controller,FDD,TDD,SBTS Available Capacity (DL AC) for non-GBR bearers" thresholds that favor handovers to the neighbor 36.423). Load balancing activated shift balancing between cells (3GPP TS traffic 36.423). and provides theisnumber of to events when from theA DL cell). the high-loaded LTEof serving cell to the lower- of non-GBR AC value "0" indicates no available measured downlink AC for non-GBR bearers The DLLTE non-GBR AC cell of the is measured by loaded by cell handovers capacity, andneighbor value ofis"100" indicates maximum cell was inisathe range 60
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the accumulated time of Controller,FDD,TDD,SBTS muting pattern 6 activation in the macro cell of an eICIC scenario. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of ABS subController,FDD,TDD,SBTS frames without user plane traffic of CRE UEs. The PRB utilization is defined as the ratio of used PRB per ABS sub-frame compared to the total of PRBs for dynamic scheduling user Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone number This counter provides the number of ABSofsubplane traffic in the same TTI. Controller,FDD,TDD,SBTS frames of CRE UEs with a PRB utilization range Note: UEs" areThe UEs located in theisrange of 0 %"CRE < x <= 10 %. PRB utilization expansion area of the small cell. defined as the ratio of used PRB per ABS subFlexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
frame compared to thethe total number PRBs This counter provides number of of ABS sub-for dynamic scheduling of user plane traffic in the frames of CRE UEs with a PRB utilization range same TTI. of 10 % < x <= 20 %. The PRB utilization is Note: "CRE UEs" are in the defined as the ratio ofUEs usedlocated PRB per ABSrange subexpansion area of the small cell. frame compared to the total number of PRBs This counter provides the number of ABS sub-for dynamic of user plane traffic in range the frames ofscheduling CRE UEs with a PRB utilization same TTI. of 20 % < x <= 30 %. The PRB utilization is Note: "CRE UEs" are in the defined as the ratio ofUEs usedlocated PRB per ABSrange subexpansion area of the small cell. frame compared to the total number of PRBs This counter provides the number of ABS sub-for dynamic of user plane traffic in range the frames ofscheduling CRE UEs with a PRB utilization same TTI. of 30 % < x <= 40 %. The PRB utilization is Note: "CRE UEs" are in the defined as the ratio ofUEs usedlocated PRB per ABSrange subexpansion area of the small cell. frame compared to the total number of PRBs This counter provides the number of ABS sub-for dynamic of user plane traffic in range the frames ofscheduling CRE UEs with a PRB utilization same TTI. of 40 % < x <= 50 %. The PRB utilization is Note: "CRE UEs" are in the defined as the ratio ofUEs usedlocated PRB per ABSrange subexpansion area of the small cell. frame compared to the total number of PRBs This counter provides the number of ABS sub-for dynamic of user plane traffic in range the frames ofscheduling CRE UEs with a PRB utilization same TTI. of 50 % < x <= 60 %. The PRB utilization is Note: "CRE UEs" are in the defined as the ratio ofUEs usedlocated PRB per ABSrange subexpansion area of the small cell. frame compared to the total number of PRBs This counter provides the number of ABS sub-for dynamic of user plane traffic in range the frames ofscheduling CRE UEs with a PRB utilization same TTI. of 60 % < x <= 70 %. The PRB utilization is Note: "CRE UEs" are in the defined as the ratio ofUEs usedlocated PRB per ABSrange subexpansion area of the small cell. frame compared to the total number of PRBs This counter provides the number of ABS sub-for dynamic of user plane traffic in range the frames ofscheduling CRE UEs with a PRB utilization same TTI. of 70 % < x <= 80 %. The PRB utilization is Note: "CRE UEs" are in the defined as the ratio ofUEs usedlocated PRB per ABSrange subexpansion area of the small cell. frame compared to the total number of PRBs This counter provides the number of ABS sub-for dynamic of user plane traffic in range the frames ofscheduling CRE UEs with a PRB utilization same TTI. of 80 % < x <= 90 %. The PRB utilization is Note: "CRE UEs" are in the defined as the ratio ofUEs usedlocated PRB per ABSrange subexpansion area of the small cell. frame compared to the total number of PRBs This counter provides the number of ABS sub-for dynamic user planeutilization traffic in the frames ofscheduling CRE UEs of with a PRB range same TTI. of 90 % < x <=100 %. The PRB utilization is Note: "CRE UEs" are in the defined as the ratio ofUEs usedlocated PRB per ABSrange subexpansion area of the small cell. frame compared to the total number of PRBs for dynamic scheduling of user plane traffic in the same TTI. Note: "CRE UEs" are UEs located in the range expansion area of the small cell.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of ABS subController,FDD,TDD,SBTS frames without user plane traffic of CRE UEs. The PRB utilization is defined as the ratio of used PRB per ABS sub-frame compared to the total of PRBs for dynamic scheduling user Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone number This counter provides the number of ABSofsubplane traffic in the same TTI. Controller,FDD,TDD,SBTS frames of CRE UEs with a PRB utilization range Note: UEs"%. areThe UEs located in theisrange of 0 %"CRE < x <=10 PRB utilization expansion area of the small cell. defined as the ratio of used PRB per ABS subFlexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
frame compared to thethe total number PRBs This counter provides number of of ABS sub-for dynamic scheduling of user plane traffic in the frames of CRE UEs with a PRB utilization range same TTI. of 10 % < x <=20 %. The PRB utilization is Note: "CRE UEs" are in the defined as the ratio ofUEs usedlocated PRB per ABSrange subexpansion area of the small cell. frame compared to the total number of PRBs This counter provides the number of ABS sub-for dynamic of user plane traffic in range the frames ofscheduling CRE UEs with a PRB utilization same TTI. of 20 % < x <= 30 %. The PRB utilization is Note: "CRE UEs" are in the defined as the ratio ofUEs usedlocated PRB per ABSrange subexpansion area of the small cell. frame compared to the total number of PRBs This counter provides the number of ABS sub-for dynamic of user plane traffic in range the frames ofscheduling CRE UEs with a PRB utilization same TTI. of 30 % < x <= 40 %. The PRB utilization is Note: "CRE UEs" are in the defined as the ratio ofUEs usedlocated PRB per ABSrange subexpansion area of the small cell. frame compared to the total number of PRBs This counter provides the number of ABS sub-for dynamic of user plane traffic in range the frames ofscheduling CRE UEs with a PRB utilization same TTI. of 40 % < x <= 50 %. The PRB utilization is Note: "CRE UEs" are in the defined as the ratio ofUEs usedlocated PRB per ABSrange subexpansion area of the small cell. frame compared to the total number of PRBs This counter provides the number of ABS sub-for dynamic of user plane traffic in range the frames ofscheduling CRE UEs with a PRB utilization same TTI. of 50 % < x <= 60 %. The PRB utilization is Note: "CRE UEs" are in the defined as the ratio ofUEs usedlocated PRB per ABSrange subexpansion area of the small cell. frame compared to the total number of PRBs This counter provides the number of ABS sub-for dynamic of user plane traffic in range the frames ofscheduling CRE UEs with a PRB utilization same TTI. of 60 % < x <= 70 %. The PRB utilization is Note: "CRE UEs" are in the defined as the ratio ofUEs usedlocated PRB per ABSrange subexpansion area of the small cell. frame compared to the total number of PRBs This counter provides the number of ABS sub-for dynamic of user plane traffic in range the frames ofscheduling CRE UEs with a PRB utilization same TTI. of 70 % < x <= 80 %. The PRB utilization is Note: "CRE UEs" are in the defined as the ratio ofUEs usedlocated PRB per ABSrange subexpansion area of the small cell. frame compared to the total number of PRBs This counter provides the number of ABS sub-for dynamic of user plane traffic in range the frames ofscheduling CRE UEs with a PRB utilization same TTI. of 80 % < x <= 90 %. The PRB utilization is Note: "CRE UEs" are in the defined as the ratio ofUEs usedlocated PRB per ABSrange subexpansion area of the small cell. frame compared to the total number of PRBs This counter provides the number of ABS sub-for dynamic of user plane traffic in range the frames ofscheduling CRE UEs with a PRB utilization same TTI. of 90 % < x <=100 %. The PRB utilization is Note: "CRE UEs" are in the defined as the ratio ofUEs usedlocated PRB per ABSrange subexpansion area of the small cell. frame compared to the total number of PRBs This measurement provides the percentage for dynamic of user plane traffic in (PRB) the usage of scheduling uplink Physical Resource Blocks same TTI. (partially/fully) for DTCH traffic for SAEB QoS Note: are UEs located in 1000 the range level 1."CRE The UEs" maximum counter value expansion area of the small cell. represents 100% and the minimum counter value 1 represents 0.1%.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement provides the percentage usage of uplink Physical Resource Blocks (PRB) (partially/fully) for DTCH traffic for SAEB QoS level 2. The maximum counter value 1000 represents 100% and the minimum counter value This measurement provides the percentage 1 represents 0.1%. usage of uplink Physical Resource Blocks (PRB)
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(partially/fully) for DTCH traffic for SAEB QoS level 3. The maximum counter value 1000 represents 100% and the minimum counter value This measurement provides the percentage 1 represents 0.1%. usage of uplink Physical Resource Blocks (PRB)
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(partially/fully) for DTCH traffic for SAEB QoS level 4. The maximum counter value 1000 represents 100% and the minimum counter value This measurement provides the percentage 1 represents 0.1%. usage of uplink Physical Resource Blocks (PRB)
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(partially/fully) for DTCH traffic for SAEB QoS level 5. The maximum counter value 1000 represents 100% and the minimum counter value This measurement provides the percentage 1 represents 0.1%. usage of uplink Physical Resource Blocks (PRB)
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(partially/fully) for DTCH traffic for SAEB QoS level 6. The maximum counter value 1000 represents 100% and the minimum counter value This measurement provides the percentage 1 represents 0.1%. usage of uplink Physical Resource Blocks (PRB)
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(partially/fully) for DTCH traffic for SAEB QoS level 7. The maximum counter value 1000 represents 100% and the minimum counter value This measurement provides the percentage 1 represents 0.1%. usage of uplink Physical Resource Blocks (PRB)
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(partially/fully) for DTCH traffic for SAEB QoS level 8. The maximum counter value 1000 represents 100% and the minimum counter value This measurement provides the percentage 1 represents 0.1%. usage of uplink Physical Resource Blocks (PRB)
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(partially/fully) for DTCH traffic for SAEB QoS level 9. The maximum counter value 1000 represents 100% and the minimum counter value This measurement provides the percentage 1 represents 0.1%. usage of uplink Physical Resource Blocks (PRB)
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(partially/fully) for DTCH traffic for currently supported SAEB QoS levels within the range of 10-255. The maximum counter 1000 This measurement provides thevalue percentage represents 100% and the minimum counter value usage of uplink Physical Resource Blocks (PRB) 1 represents 0.1%. (partially/fully) for DCCH and CCCH data. The
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
maximum counter value 10000 represents 100% and minimum counter value represents This the measurement provides the 1 percentage 0.01%. usage of downlink Physical Resource Blocks
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(PRB) (partially/fully) for DTCH traffic for SAEB QoS level 1. The maximum counter value 1000 represents 100% and the minimum counter value This measurement provides the percentage 1 represents 0.1%. usage of downlink Physical Resource Blocks (PRB) (partially/fully) for DTCH traffic for SAEB QoS level 2. The maximum counter value 1000 represents 100% and the minimum counter value 1 represents 0.1%.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement provides the percentage usage of downlink Physical Resource Blocks (PRB) (partially/fully) for DTCH traffic for SAEB QoS level 3. The maximum counter value 1000 represents 100% and the minimum counter value This measurement provides the percentage 1 represents 0.1%. usage of downlink Physical Resource Blocks
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(PRB) (partially/fully) for DTCH traffic for SAEB QoS level 4. The maximum counter value 1000 represents 100% and the minimum counter value This measurement provides the percentage 1 represents 0.1%. usage of downlink Physical Resource Blocks
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(PRB) (partially/fully) for DTCH traffic for SAEB QoS level 5. The maximum counter value 1000 represents 100% and the minimum counter value This measurement provides the percentage 1 represents 0.1%. usage of downlink Physical Resource Blocks
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(PRB) (partially/fully) for DTCH traffic for SAEB QoS level 6. The maximum counter value 1000 represents 100% and the minimum counter value This measurement provides the percentage 1 represents 0.1%. usage of downlink Physical Resource Blocks
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(PRB) (partially/fully) for DTCH traffic for SAEB QoS level 7. The maximum counter value 1000 represents 100% and the minimum counter value This measurement provides the percentage 1 represents 0.1%. usage of downlink Physical Resource Blocks
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(PRB) (partially/fully) for DTCH traffic for SAEB QoS level 8. The maximum counter value 1000 represents 100% and the minimum counter value This measurement provides the percentage 1 represents 0.1%. usage of downlink Physical Resource Blocks
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(PRB) (partially/fully) for DTCH traffic for SAEB QoS level 9. The maximum counter value 1000 represents 100% and the minimum counter value This measurement provides the percentage 1 represents 0.1%. usage of downlink Physical Resource Blocks
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(PRB) (partially/fully) for DTCH traffic for currently supported SAEB QoS levels within the range of 10-255. The maximum counter 1000 This measurement provides thevalue percentage represents 100% and the minimum counter usage of downlink Physical Resource Blocksvalue 1 represents 0.1%. for DCCH and CCCH data. (PRB) (partially/fully)
The maximum counter value 10000 represents and theindicates minimum counter value that 1 the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone 100% This counter the occurrence represents 0.01%. Controller,FDD,SBTS cell is in the active load balancing state for load balancing to UTRAN. When the cell is in the active load balancing the load balancing tries time to reduce Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone state, This counter provides thealgorithm accumulated of the LTE serving cell load by shifting the cell Controller,FDD,TDD,SBTS muting pattern 0 activation in the macro cell traffic of an to UTRAN neighbor cellspattern (load balancing eICIC scenario. "Muting 0" means a handover). muting pattern with no muted TTIs. The maximum value of this counter depends on Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter the number of successful the length of provides the measurement period. If the Controller,FDD,TDD,SBTS SCell configurations is swapped by measurement periodifisan 15SCell minutes (that is 900 another one due to an Event measurement s), the maximum value of thisA6 counter is 900 s/1 result received from thethe UE. s+F3 =that 900is(every 1 second, eNB checks whether the cell is in the active load balancing state for load balancing to UTRAN).
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the blocking rate for SCell Controller,FDD,TDD,SBTS scheduling with PUCCH format 1b with channel selection (1bwcs). The blocking rate is defined as the ratio of the of blocked PUCCH format rate 1bwcs Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone number This counter provides the blocking for SCell attempts to the total number of PUCCH format Controller,FDD,TDD,SBTS scheduling with PUCCH format 3. 1bwcs attempts. The blocking rate is defined as the ratio of the number of blocked PUCCH format 3 attempts to Thetotal reported value is 100 times higher than the number of PUCCH format 3transport attempts. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone the The volume transmitted actual value of (fororiginally example, 1.00 is stored as 100). Controller,FDD,TDD,SBTS blocks on DL-SCH. The reported value is 100 times higher than the actual value (for example, 1.00 is stored as 100). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The volume of re-received transport blocks on Controller,FDD,TDD,SBTS UL-SCH.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The volume of re-transmitted transport blocks on Controller,FDD,TDD,SBTS DL-SCH.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The volume of original receptions of transport Controller,FDD,TDD,SBTS blocks on UL-SCH.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The measurement gives indication of the eUu Controller,FDD,TDD,SBTS interface traffic load by reporting the sum of transmitted RLC related traffic volumes on DL DCCH. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The measurement gives indication of the eUu Controller,FDD,TDD,SBTS interface traffic load by reporting the sum of transmitted RLC related traffic volumes on UL DCCH. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The volume of UL RLC PDUs received Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The volume of DL RLC PDUs transmitted Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The measurement gives an indication of the eUu Controller,FDD,TDD,SBTS interface traffic load by reporting the total received PDCP SDU-related traffic volume. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The measurement gives an indication of the eUu Controller,FDD,TDD,SBTS interface traffic load by reporting the total transmitted PDCP SDU-related traffic volume.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The measurement gives indication of the eUu Controller,FDD,TDD,SBTS interface traffic load by reporting Max UL PDCP traffic throughput. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The measurement gives indication of the eUu Controller,FDD,TDD,SBTS interface traffic load by reporting Mean UL PDCP traffic throughput. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The measurement gives indication of the eUu Controller,FDD,TDD,SBTS interface traffic load by reporting Max DL PDCP traffic throughput. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The measurement gives indication of the eUu Controller,FDD,TDD,SBTS interface traffic load by reporting Mean DL PDCP traffic throughput. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS0 Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS1 Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS2 Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS3 Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS4 Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS5 Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS6 Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS7 Modulation and Coding Scheme. The volume of MAC PDUs is considered.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS8 Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS9 Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS10 Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS11 Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS12 Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS13 Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS14 Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS15 Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS16 Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS17 Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS18 Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS19 Modulation and Coding Scheme. The volume of MAC PDUs is considered.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS20 Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone MAC SDU volume on UL-CCCH. (Note: MAC Controller,FDD,TDD,SBTS SDU and RLC SDU volume are the same in TM used for this channel.) Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone MAC SDU volume on UL-DCCH Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone MAC SDU volume on UL-DTCH Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone MAC SDU volume on DL-CCCH. (Note: MAC Controller,FDD,TDD,SBTS SDU and RLC SDU volume are the same in TM used for this channel.) Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone MAC SDU volume on DL-DCCH Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone MAC SDU volume on DL-DTCH Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone RRC Signaling data volume on eUu Interface Controller,FDD,TDD,SBTS uplink.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone RRC Signaling data volume on eUu Interface Controller,FDD,TDD,SBTS downlink
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Received RLC SDU traffic volume on UL-DTCH Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Transmitted RLC SDU traffic volume on DLController,FDD,TDD,SBTS DTCH
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS21 Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS22 Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS23 Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS24 Modulation and Coding Scheme. The volume of MAC PDUs is considered.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS25 Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS26 Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS27 Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PDSCH using MCS28 Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of active TTIs Controller,FDD,TDD,SBTS in UL, that is those TTIs with at least one UE scheduled to transmit user plane data. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of active TTIs Controller,FDD,TDD,SBTS in DL, that is those TTIs with at least one UE scheduled to receive user plane data. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput Controller,FDD,TDD,SBTS volume on QCI 1 bearers in uplink as experienced by the UE. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput time Controller,FDD,TDD,SBTS on QCI 1 bearers in uplink.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput Controller,FDD,TDD,SBTS volume on QCI 2 bearers in uplink as experienced by the UE. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput time Controller,FDD,TDD,SBTS on QCI 2 bearers in uplink.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput Controller,FDD,TDD,SBTS volume on QCI 3 bearers in uplink as experienced by the UE. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput time Controller,FDD,TDD,SBTS on QCI 3 bearers in uplink.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput Controller,FDD,TDD,SBTS volume on QCI 4 bearers in uplink as experienced by the UE. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput time Controller,FDD,TDD,SBTS on QCI 4 bearers in uplink.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput Controller,FDD,TDD,SBTS volume on QCI 5 bearers in uplink as experienced by the UE. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput time Controller,FDD,TDD,SBTS on QCI 5 bearers in uplink.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput Controller,FDD,TDD,SBTS volume on QCI 6 bearers in uplink as experienced by the UE. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput time Controller,FDD,TDD,SBTS on QCI 6 bearers in uplink.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput Controller,FDD,TDD,SBTS volume on QCI 7 bearers in uplink as experienced by the UE. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput time Controller,FDD,TDD,SBTS on QCI 7 bearers in uplink.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput Controller,FDD,TDD,SBTS volume on QCI 8 bearers in uplink as experienced by the UE. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput time Controller,FDD,TDD,SBTS on QCI 8 bearers in uplink.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput Controller,FDD,TDD,SBTS volume on QCI 9 bearers in uplink as experienced by the UE. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput time Controller,FDD,TDD,SBTS on QCI 9 bearers in uplink.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Mean PDCP Data Throughput on eUu Interface Controller,FDD,TDD,SBTS uplink for QCI 1
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput Controller,FDD,TDD,SBTS volume on QCI 1 bearers in downlink as experienced by the UE. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput time Controller,FDD,TDD,SBTS on QCI 1 bearers in downlink.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput Controller,FDD,TDD,SBTS volume on QCI 2 bearers in downlink as experienced by the UE. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput time Controller,FDD,TDD,SBTS on QCI 2 bearers in downlink.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput Controller,FDD,TDD,SBTS volume on QCI 3 bearers in downlink as experienced by the UE. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput time Controller,FDD,TDD,SBTS on QCI 3 bearers in downlink.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput Controller,FDD,TDD,SBTS volume on QCI 4 bearers in downlink as experienced by the UE. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput time Controller,FDD,TDD,SBTS on QCI 4 bearers in downlink.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput Controller,FDD,TDD,SBTS volume on QCI 5 bearers in downlink as experienced by the UE. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput time Controller,FDD,TDD,SBTS on QCI 5 bearers in downlink.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput Controller,FDD,TDD,SBTS volume on QCI 6 bearers in downlink as experienced by the UE.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput time Controller,FDD,TDD,SBTS on QCI 6 bearers in downlink.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput Controller,FDD,TDD,SBTS volume on QCI 7 bearers in downlink as experienced by the UE. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput time Controller,FDD,TDD,SBTS on QCI 7 bearers in downlink.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput Controller,FDD,TDD,SBTS volume on QCI 8 bearers in downlink as experienced by the UE. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput time Controller,FDD,TDD,SBTS on QCI 8 bearers in downlink.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput Controller,FDD,TDD,SBTS volume on QCI 9 bearers in downlink as experienced by the UE. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides IP throughput time Controller,FDD,TDD,SBTS on QCI 9 bearers in downlink.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Mean PDCP Data Throughput on eUu Interface Controller,FDD,TDD,SBTS downlink for QCI 1
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The size of transport blocks scheduled on Controller,FDD,TDD,SBTS PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the DL volume (in this cell Controller,FDD,TDD,SBTS with PCell role) that is transmitted via SCell's PHY. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the IP throughput Controller,FDD,TDD,SBTS time on QCI 1 bearers in uplink. It excludes TTIs in that there was data in the buffer but the UE was not scheduled. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the IP throughput Controller,FDD,TDD,SBTS time on QCI 2 bearers in uplink. It excludes TTIs in that there was data in the buffer but the UE was not scheduled. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the IP throughput Controller,FDD,TDD,SBTS time on QCI 3 bearers in uplink. It excludes TTIs in that there was data in the buffer but the UE was not scheduled. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the IP throughput Controller,FDD,TDD,SBTS time on QCI 4 bearers in uplink. It excludes TTIs in that there was data in the buffer but the UE was not scheduled. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the IP throughput Controller,FDD,TDD,SBTS time on QCI 5 bearers in uplink. It excludes TTIs in that there was data in the buffer but the UE was not scheduled. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the IP throughput Controller,FDD,TDD,SBTS time on QCI 6 bearers in uplink. It excludes TTIs in that there was data in the buffer but the UE was not scheduled. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the IP throughput Controller,FDD,TDD,SBTS time on QCI 7 bearers in uplink. It excludes TTIs in that there was data in the buffer but the UE was not scheduled. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the IP throughput Controller,FDD,TDD,SBTS time on QCI 8 bearers in uplink. It excludes TTIs in that there was data in the buffer but the UE was not scheduled. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the IP throughput Controller,FDD,TDD,SBTS time on QCI 9 bearers in uplink. It excludes TTIs in that there was data in the buffer but the UE was not scheduled. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the IP throughput Controller,FDD,TDD,SBTS time on QCI 1 bearers in downlink. It excludes TTIs in that there was data in the buffer but the UE was not scheduled. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the IP throughput Controller,FDD,TDD,SBTS time on QCI 2 bearers in downlink. It excludes TTIs in that there was data in the buffer but the UE was not scheduled.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the IP throughput Controller,FDD,TDD,SBTS time on QCI 3 bearers in downlink. It excludes TTIs in that there was data in the buffer but the UE was not scheduled. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the IP throughput Controller,FDD,TDD,SBTS time on QCI 4 bearers in downlink. It excludes TTIs in that there was data in the buffer but the UE was not scheduled. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the IP throughput Controller,FDD,TDD,SBTS time on QCI 5 bearers in downlink. It excludes TTIs in that there was data in the buffer but the UE was not scheduled. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the IP throughput Controller,FDD,TDD,SBTS time on QCI 6 bearers in downlink. It excludes TTIs in that there was data in the buffer but the UE was not scheduled. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the IP throughput Controller,FDD,TDD,SBTS time on QCI 7 bearers in downlink. It excludes TTIs in that there was data in the buffer but the UE was not scheduled. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the IP throughput Controller,FDD,TDD,SBTS time on QCI 8 bearers in downlink. It excludes TTIs in that there was data in the buffer but the UE was not scheduled. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the IP throughput Controller,FDD,TDD,SBTS time on QCI 9 bearers in downlink. It excludes TTIs in that there was data in the buffer but the UE was not scheduled. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successful RRC Connection Setups.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Signaling Connection Controller,FDD,TDD,SBTS Establishment failures due to a missing RRC CONNECTION SETUP COMPLETE message. The UE has not reached the ECM-CONNECTED Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone state. The number of Signaling Connection Controller,FDD,TDD,SBTS
Establishment failures due to the Erroneous or incomplete RRC CONNECTION SETUP COMPLETE message. The UE has not reached state.transitions to the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone the TheECM-CONNECTED number of EPC-initiated Controller,FDD,TDD,SBTS ECM-IDLE state due to a Normal release by the UE . Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of EPC-initiated transitions to the Controller,FDD,TDD,SBTS ECM-IDLE state due to the Detach procedure by the UE or the MME .
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of EPC initiated transitions to ECMController,FDD,TDD,SBTS IDLE state due to Radio Network Layer cause. The UE-associated logical S1-connection is released. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of EPC-initiated transitions to the Controller,FDD,TDD,SBTS ECM-IDLE state due to Other causes.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of eNB-initiated transitions from the Controller,FDD,TDD,SBTS ECM-CONNECTED to ECM-IDLE state due to "User Inactivity" or "Redirect". The UE-associated logical S1-connection is released. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of eNB-initiated transitions from the Controller,FDD,TDD,SBTS ECM-CONNECTED to ECM-IDLE state for all RNL causes indicating an abnormal release. The UE-associated logical S1-connection is released. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of eNB-initiated transitions from the Controller,FDD,TDD,SBTS ECM-CONNECTED to ECM-IDLE state for all TNL causes indicating an abnormal release. The UE-associated logical S1-connection is released. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Signaling Connection Controller,FDD,TDD,SBTS Establishment attempts for mobile originated signaling. From UE's point of view, the transition from ECM-IDLE to ECM-CONNECTED has Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone started. The number of Signaling Connection Controller,FDD,TDD,SBTS
Establishment attempts for mobile terminated connections. From UE's point of view, the transition from ECM-IDLE to ECM-CONNECTED started. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone is The number of Signaling Connection Controller,FDD,TDD,SBTS Establishment attempts for mobile originated data connections. From UE's point of view, the transition from ECM-IDLE to ECM-CONNECTED started.of Signaling Connection Establishment Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone is Number Controller,FDD,TDD,SBTS
attempts for emergency calls.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of subframes, when UE is DRX Controller,FDD,TDD,SBTS Active.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of subframes, when UE is DRX Controller,FDD,TDD,SBTS Sleep (that is not DRX Active).
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Signaling Connection Controller,FDD,TDD,SBTS Establishment completions for emergency calls
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Signaling Connection Controller,FDD,TDD,SBTS Establishment failures for emergency calls due to missing RB (Radio Bearer) resources Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of UE Controller,FDD,TDD,SBTS contexts being released due to lack of radio resources. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the total number of Controller,FDD,TDD,SBTS rejected RRC Connection Establishment Requests for any establishment cause except for "emergency" irrespective of the rejection reason, might be for example, lacktotal of radio Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone which This measurement provides the number of resources, overload or any other reason. Controller,FDD,TDD,SBTS rejected RRC Connection Establishment Requests for establishment cause "emergency" irrespective of the rejection reason, which might example, lack of radio resources, overload Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone be Thefor number of Signaling Connection or any other reason. Controller,FDD,TDD,SBTS Establishment attempts for highPriorityAccess connections. From UE's point of view, the transition from ECM-IDLE to ECM-CONNECTED started. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone is The number of Signaling Connection Controller,FDD,TDD,SBTS Establishment completions for highPriorityAccess calls. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the total number of Controller,FDD,TDD,SBTS rejected Signaling Connection Establishment Requests for establishment cause "highPriorityAccess" irrespective of the rejection whichofmight be for example, lack of radio Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone reason, The number Signaling Connection resources, overload or any reason. Controller,FDD,TDD,SBTS Establishment attempts for other delayTolerantAccess connections. From UE's point of view, the transition from ECMto ECM-CONNECTED is started. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone IDLE The number of Signaling Connection Controller,FDD,TDD,SBTS Establishment completions for mobile originating signaling. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Signaling Connection Controller,FDD,TDD,SBTS Establishment completions for mobile originating calls. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Signaling Connection Controller,FDD,TDD,SBTS Establishment completions for mobile terminating access. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Signaling Connection Controller,FDD,TDD,SBTS Establishment completions for delay tolerant access.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the total number of Controller,FDD,TDD,SBTS rejected Signaling Connection Establishment Requests for establishment cause "moSignalling" irrespective of the rejection reason, might be for example, lacktotal of radio Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone which This measurement provides the number of resources, overload, or any other reason. Controller,FDD,TDD,SBTS rejected Signaling Connection Establishment Requests for establishment cause "mo-Data" irrespective of the rejection reason, which might formeasurement example, lackprovides of radio the resources, overload, Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone be This total number of or any other reason. Controller,FDD,TDD,SBTS rejected Signaling Connection Establishment Requests for establishment cause "mt-Access" irrespective of the rejection reason, which might formeasurement example, lackprovides of radio the resources, overload, Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone be This total number of or any other reason. Controller,FDD,TDD,SBTS rejected Signaling Connection Establishment Requests for establishment cause "delayTolerantAccess" irrespective of the reason, which mightthe benumber for example, Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone rejection This measurement provides of UElack of radio resources, overload, or any other Controller,FDD,TDD,SBTS specific logical S1 Signaling Connection reason. Establishment attempts being used for subsequent UE-specific S1 signaling. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of UEController,FDD,TDD,SBTS specific logical S1 Signaling Connection Establishment completions being used for subsequent UE-specific S1 signaling. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of UE Controller,FDD,TDD,SBTS Context Setup attempts. It includes also the UE Contexts that are subject to CS Fallback. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of UE Controller,FDD,TDD,SBTS Context Setup attempts. Only the UE Contexts that are subject to CS Fallback are counted. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successfully established UE Contexts. It includes also the UE Contexts that are subject to CS Fallback. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successfully established UE Contexts. Only those UE Contexts that are subject to CS Fallback are counted. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of failed Controller,FDD,TDD,SBTS UE Context Setups caused by a failed radio interface procedure, which is, for example the timeout of the UE Capability Enquiry or of the Connection Reconfiguration procedure Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone RRC This measurement provides the number of and also in case that the start of the AS security at Controller,FDD,TDD,SBTS attempted UE Context Modifications. It includes the UE has not been successful. also the UE Contexts that are subject to CS Fallback.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS attempted UE Context Modifications. Only those UE Contexts that are subject to CS Fallback are counted. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successful UE Context Modifications. It includes also the UE Contexts that are subject to CS Fallback. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successful UE Context Modifications. Only those UE Contexts that are subject to CS Fallback are counted. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of released Controller,FDD,TDD,SBTS UE contexts initiated by the eNB irrespective of the release cause. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of released Controller,FDD,TDD,SBTS UE contexts initiated by the eNB due to User Inactivity (normal release). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of released UE Controller,FDD,TDD,SBTS contexts initiated by the eNB in case that the radio connection between the eNB and the UE is lost. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of released UE Controller,FDD,TDD,SBTS contexts initiated by the eNB due to a failure in the radio interface procedure. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of released Controller,FDD,TDD,SBTS UE contexts initiated by the eNB due to EUTRAN generated reasons. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of released Controller,FDD,TDD,SBTS UE contexts initiated by the eNB due to missing radio resources. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of released Controller,FDD,TDD,SBTS UE contexts initiated by the eNB with the release cause "RNL Unspecified". It is used e.g. in case of AS Security problems or in case of abnormal conditions. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone handover This counter provides the number of released Controller,FDD,TDD,SBTS
UE contexts initiated by the eNB due to a failed handover execution/completion phase.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successfully established UE Contexts. It includes also the UE Contexts that are subject to CS Fallback. This counter is only updated for 3GPP Release 11 (or higher) UEs. This counter is used by the LTE-UTRAN-MRO (Mobility Robustness Optimization) algorithm (LTE1749). The LTE1749: MRO Inter-RAT UTRAN feature works with UEs, which are compliant to 3GPP Release 11 or higher and with UEs that support the Radio Link Failure Report for MRO Inter-RAT functionality (3GPP TS 36.331).
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the total number of Controller,FDD,TDD,SBTS Signaling Connection Establishment Requests rejected due to Control Plane overload. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the total number of Controller,FDD,TDD,SBTS Signaling Connection Establishment Requests rejected due to User Plane overload. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the total number of Controller,FDD,TDD,SBTS Signaling Connection Establishment Requests rejected due to lack of PUCCH resources. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the total number of Controller,FDD,TDD,SBTS Signaling Connection Establishment Requests rejected in case that the maximum number of RRC Connected UEs is reached. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the total number of Controller,FDD,TDD,SBTS Signaling Connection Establishment Requests rejected due to overload indicated by the MME. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Inter-eNB X2-based Handover Controller,FDD,TDD,SBTS preparations. The Mobility management (MM) receives a list with target cells from the RRM and decides to start an Inter-eNB X2-based Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Handover. The number of failed Inter-eNB X2-based Controller,FDD,TDD,SBTS
Handover preparations due to timer TX2RELOCprep.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of failed Inter-eNB X2-based Controller,FDD,TDD,SBTS Handover preparations due to the target eNB's admission control reasons. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of failed Inter-eNB X2-based Controller,FDD,TDD,SBTS Handover preparations due to the target eNB's other reasons. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Inter-eNB X2-based Handover Controller,FDD,TDD,SBTS attempts.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of successful Inter-eNB X2-based Controller,FDD,TDD,SBTS Handover completions.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of Inter eNB Handover failures due to Controller,FDD,TDD,SBTS expiration of guarding timer TX2RELOCoverall
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Inter eNB S1-based Handover Controller,FDD,TDD,SBTS preparations
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of failed Inter eNB S1-based Controller,FDD,TDD,SBTS Handover preparations due to the expiry of the guarding timer TS1RELOCprep. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of failed Inter eNB S1-based Controller,FDD,TDD,SBTS Handover preparations with cause "No Radio Resources Available in Target Cell". Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of failed Inter eNB S1-based Controller,FDD,TDD,SBTS Handover preparations due to the reception of an S1AP: HANDOVER PREPARATION FAILURE message with a cause other than "No Radio in Target Cell." Handover Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Resources The numberAvailable of Inter eNB S1-based Controller,FDD,TDD,SBTS
attempts
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of successful Inter eNB S1-based Controller,FDD,TDD,SBTS Handover completions
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Inter eNB S1-based Handover Controller,FDD,TDD,SBTS failures
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement indicates how often dynamic Controller,FDD,TDD,SBTS handover blacklisting was applied in the source cell. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of failed Intra-eNB Handover Controller,FDD,TDD,SBTS preparations per neighbor cell relationship.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Intra-eNB Handover attempts per Controller,FDD,TDD,SBTS neighbor cell relationship.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of successful Intra-eNB Handover Controller,FDD,TDD,SBTS completions per neighbor cell relationship.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of failed Inter eNB Handover Controller,FDD,TDD,SBTS preparations per cause per neighbor cell relationship. Note: Parts of the Handover preparation will be executed in the target eNB.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of failed Inter eNB Handover Controller,FDD,TDD,SBTS preparations per neighbor cell relationship due to the expiration of the respective guarding timer. Note: Parts of the Handover preparation will be in the targetInter eNB.eNB Handover Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone executed The number of failed Controller,FDD,TDD,SBTS
preparations per neighbor cell relationship due to failures in the HO preparation on the target side, for example caused by "No Radio Resource in Target cell". Note: Parts attempts of the per Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Available The number of Inter-eNB Handover Handover preparation will be executed in the Controller,FDD,TDD,SBTS neighbor cell relationship. target eNB. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of successful Inter-eNB Handover Controller,FDD,TDD,SBTS completions per neighbor cell relationship.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Inter-eNB Handover failures per Controller,FDD,TDD,SBTS cause per neighbor cell relationship.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Intra-eNB Handover failures due Controller,FDD,TDD,SBTS to the expiration of the guarding timer THOoverall. The counter is updated in the source cell per cell provides relationship. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone neighbor This counter the number of Late Controller,FDD,TDD,SBTS
Handovers per neighbor cell relationship. A Late Handover is a sequence of a missed HO attempt (instead of HO: RLF on UE side and recoverable RLFnumber on eNBofside) Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone optionally This counter provides the Earlyin one cell followed by RRC connection reController,FDD,TDD,SBTS Handover Type 1 per neighbor cell relationship. establishment request in 1 another cell. An Early Handover Type is a sequence of a failed HO attempt followed by RRC connection in thethe HOnumber sourceof cell. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone re-establishment This counter provides Early Controller,FDD,TDD,SBTS Handovers Type 2 per neighbor cell relationship. An Early Handover Type 2 is recognized in the following cases: 1: Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Case This measurement provides the number of Ping An Early Handover 2 is acell sequence of a Controller,FDD,TDD,SBTS Pong handovers perType neighbor relationship. successful connection establishment in HO target cell (attempted HO completed) followed A Ping Pong handover is a sequence of by RRC connection re-establishment in another cell a an wherebyprovides a UE is handed over Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone handovers This measurement the number offrom intershort time after "HO completion". LTE cell A to anbalancing LTE neighbor cell Battempts and finally Controller,FDD,TDD,SBTS frequency load handover per Case 2:to the returns same cell A within a short time neighbor cell relationship. An Early Handover Type 2 is a sequence of a period (defined the parameter tPingPong). It comprises theby intraand inter-eNB handover successful random access in HO target followed by failed Msg3 reception (attempted HO cell not Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone scenarios. provides theneighbor number of This measurement consists of Load balancing handovers are used to shift the completed) followed by re-establishment request Controller,FDD,TDD,SBTS successful inter-frequency load balancing related handover counters; that is, for each cell traffic from a high loaded serving cell to in another cell. handover completions neighbor between cell neighbor cellper relationship cell neighbor cells. relationship. A and its neighbor cells (for example, cell B), a It comprises the intraand inter-eNB handover separate Ping Pong handover This measurement consists of counter neighboriscellscenarios. provided. related handoverhandovers counters; are thatused is, fortoeach Load balancing shift the neighbor cell relationship between thecell handover cell traffic from a high loaded serving to Remark: source cell and its handover target cells, a neighbor cells. If the first handover event between cell A and a separate counter is provided. neighbor cell B leads to a Ping Pong handover This of neighbor cellthen measurement this counter willconsists not be incremented for this related handover counters; that is, this for each first Ping Pong handover because first neighbor relationship between the handovercell event triggers the creation ofhandover the source andcan its handover target a countercell which then be used forcells, successive
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of CS Fallback attempts with or Controller,FDD,TDD,SBTS without redirection via the RRC Connection Release. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of CS Fallback attempts (UE in Controller,FDD,TDD,SBTS Connected Mode) with or without redirection via the RRC Connection Release. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of CS Fallback attempts for Controller,FDD,TDD,SBTS emergency call reason with or without redirection via the RRC Connection Release. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of Inter System Handover preparations. Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of failed Inter System Handover Controller,FDD,TDD,SBTS preparations due to expiration of guarding timer.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of failed Inter System Handover Controller,FDD,TDD,SBTS preparations due to admission control of target cell. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of failed Inter System Handover Controller,FDD,TDD,SBTS preparations due to other reasons of target cell.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of PS-HO attempts to UTRAN. Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of successful PS-HO completions to Controller,FDD,TDD,SBTS UTRAN.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of failed PS-HO attempts to UTRAN. Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of NACC Controller,FDD,TDD,SBTS from LTE to GSM attempts
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Inter Controller,FDD,TDD,SBTS System Handover attempts to UTRAN with SRVCC (Single Radio Voice Call Continuity, 3GPP TS 23.216).
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successful Inter System Handover completions to UTRAN with SRVCC (Single Radio Voice Call Continuity, 3GPP TS 23.216). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of failed Controller,FDD,TDD,SBTS Inter System Handover attempts to UTRAN with SRVCC (Single Radio Voice Call Continuity, 3GPP TS 23.216). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of CS Controller,FDD,TDD,SBTS Fallback attempts to UTRAN with PS Handover (Circuit Switched Fallback in Evolved Packet System, 3GPP TS 23.272). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Inter Controller,FDD,TDD,SBTS System Handover attempts to GERAN with SRVCC (Single Radio Voice Call Continuity, 3GPP TS 23.216). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successful Inter System Handover completions to GERAN with SRVCC (Single Radio Voice Call Continuity, 3GPP TS 23.216). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of failed Controller,FDD,TDD,SBTS Inter System Handover attempts to GERAN with SRVCC (Single Radio Voice Call Continuity, 3GPP TS 23.216). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of interController,FDD,TDD,SBTS system handover preparations to 1xRTT/CDMA2000 with Single Radio Voice Call Continuity (SRVCC, 3GPP TS 23.216). is updated in thethe source cellof(LTE Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The This counter measurement provides number failed cell) of the inter-system handover. Controller,FDD,TDD,SBTS inter-system handover preparations to
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
1xRTT/CDMA2000 with Single Radio Voice Call Continuity (SRVCC, 3GPP TS 23.216) due to the expiration of the guarding timer This measurement provides the number of failed TUlHoPrepTransfer1xSrvcc. inter-system handover preparations to 1xRTT The is updated theContinuity source cell (LTE with counter Single Radio Voice in Call (SRVCC, cell) of the inter-system handover. 3GPP TS 23.216) due to the expiration of the The timertimer is started when the eNB sends an guarding TC2KRelocPrep1xSrvcc. This measurement provides the number of failed RRC:HandoverFromEUTRAPreparationRequest The counter is updatedpreparations in the sourcetocell (LTE inter-system handover message (3GPP TS 36.331) to the UE 1xRTT if this cell) of the inter-system handover. with Singleis Radio Callan Continuity (SRVCC, message toVoice prepare inter-system The timer is sent started when thereception eNB sends 3GPP TS to 23.216) due toSRVCC. the of an an handover 1xRTT with S1AP:UPLINK S1 CDMA2000 TUNNELING S1AP:DOWNLINK S1 CDMA2000 TUNNELING The expiresTS when the eNB has not of received This timer measurement provides the number message 36.413) to MME if thisthe (3GPP TS(3GPP 36.413) message by the thepreparations eNB from the corresponding response successful inter-system handover to message is sent to prepare an inter-system MME, which indicates a failed HO preparation to RRC:ULHandoverPreparationTransfer message 1xRTT with Single Radio Voice Call Continuity handover toSRVCC. 1xRTT with SRVCC (CDMA2000 HO 1xRTT with (3GPP TSIndication 36.331) the UE on time. (SRVCC, 3GPP TSfrom 23.216). Required is set to TRUE). The counter is updated in the source cell (LTE The is updated in source cellof (LTE timer expires when thethe eNB has not received This counter measurement provides the number intercell) of the inter-system handover. cell) of the inter-system handover. the corresponding response S1AP:DOWNLINK system handover attempts to 1xRTT with Single S1 CDMA2000 message3GPP (3GPP Radio Voice CallTUNNELING Continuity (SRVCC, TSTS 36.413) from the MME on time. 23.216). The counter is updated in the source cell (LTE cell) of the inter-system handover.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of eNB Controller,FDD,TDD,SBTS initiated UE context releases due to inter-system handover to 1xRTT with Single Radio Voice Call Continuity (SRVCC, 3GPP TS 23.216). initiates the UE context releaseof after Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The This eNB measurement provides the number load the expiration of the handover execution timer Controller,FDD,SBTS balancing handover attempts to UTRAN. TC2KRelocExec1xSrvcc. Load balancing handovers from LTE to UTRAN The counter is updated the source are used to shift the cellintraffic from a cell high(LTE loaded cell) of the inter-system handover. LTE serving cell to UTRAN neighbor cells. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number The timer is started when eNB sendsofan The counter is updated in the the LTE cell. Controller,FDD,SBTS successful load balancing handover RRC:MobilityFromEUTRACommandcompletions message to to theUTRAN. UE (3GPP TS 36.331) if this message is sent Load handovers from LTE to with UTRAN for anbalancing inter-system handover to 1xRTT are used to shift the cell traffic from a high SRVCC. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of loaded RRC: LTE serving cell to UTRAN neighbor cells. After the expiration of the timer, the eNB sends Controller,FDD,TDD,SBTS CSFBParametersRequestCDMA2000 (3GPP TS The counter updated inRELEASE the received LTE cell. an S1AP: UEisCONTEXT REQUEST 36.331) messages which are by the message TS 36.413) to the MME. eNB from (3GPP the UEs. The counter is updated in thethe LTE cell. of RRC: Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides number An UE initiates the CSFB to 1x Parameter Controller,FDD,TDD,SBTS CSFBParametersResponseCDMA2000 (3GPP transfer procedure by sending thesent RRC: TS 36.331) messages which are by the eNB CSFBParametersRequestCDMA2000 message to the UEs. to the eNB. The eNB responds by sending counter is updated in thethe LTE cell. of the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The This measurement provides number CS RRC: CSFBParametersResponseCDMA2000 An UE initiates the CSFB to 1x Parameter Controller,FDD,TDD,SBTS Fallback preparations to 1xRTT/CDMA2000. message to the UE (3GPP TS 36.331). The transfer procedure by sending the RRC: The counter is updated in the cell. the purpose of this procedure is toLTE transfer CSFBParametersRequestCDMA2000 message CDMA2000 1xRTT parameters to the UE so that to the eNB. The eNB responds by sending the the UE can register with the CDMA2000 1xRTT Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of RRC: RRC: CSFBParametersResponseCDMA2000 network Fallback to(3GPP CDMA2000 Controller,FDD,TDD,SBTS ULHandoverPreparationTransfer TS messagetotosupport the UECS (3GPP TS 36.331). The 1xRTT. 36.331) which are purpose messages of this procedure is toreceived transferby thethe eNB from the1xRTT UEs for CS Fallback preparations CDMA2000 parameters to the UE so that to 1xRTT/CDMA2000. the UE can register with the CDMA2000 1xRTT Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Failed The counter is updated in the LTE cell. network to support CS Fallback to CDMA2000 Controller,FDD,TDD,SBTS CS Fallback preparations to 1xRTT/CDMA2000 1xRTT. due to the reception of an S1AP:DOWNLINK S1 CDMA2000 TUNNELING (3GPP TS 36.413) the eNB the MME which Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone message Number ofbyfailed Interfrom System Handover indicates a "HO Failure" for the CS Fallback Controller,FDD,TDD,SBTS preparations to UTRAN due to expiration of the preparation to 1xRTT. guarding timer per neighbor cell relationship. The counter is updated in the LTE cell. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of failed Inter System Handover Controller,FDD,TDD,SBTS preparations to UTRAN due to admission control of target cell per neighbor cell relationship. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of failed Inter System Handover Controller,FDD,TDD,SBTS preparations to UTRAN due to other reasons of target cell per neighbor cell relationship. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of PS-HO attempts to UTRAN per Controller,FDD,TDD,SBTS neighbor cell relationship.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of successful PS-HO completions to Controller,FDD,TDD,SBTS UTRAN per neighbor cell relationship.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of failed Controller,FDD,TDD,SBTS PS-HO attempts to UTRAN per neighbor cell relationship. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of Inter System Handover preparations Controller,FDD,TDD,SBTS to UTRAN per neighbor cell relationship.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Inter Controller,FDD,TDD,SBTS System Handover attempts to UTRAN with SRVCC (Single Radio Voice Call Continuity, 3GPP TS 23.216) per neighbor cell relationship. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successful Inter System Handover completions to UTRAN with SRVCC (Single Radio Voice Call Continuity, 3GPP TS 23.216) per neighbor cell Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone relationship. This measurement provides the number of failed Controller,FDD,TDD,SBTS
Inter System Handover attempts to UTRAN with SRVCC (Single Radio Voice Call Continuity, 3GPP TS 23.216) per neighbor cell relationship.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The average number of active UEs per eNB. A Controller,FDD,TDD,SBTS UE is defined as "active" if at least a single nonGBR DRB has been successfully configured for it. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The maximum number of active UEs per eNB. A Controller,FDD,TDD,SBTS UE is defined as "active" if at least a single nonGBR DRB has been successfully configured for it. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of UE contexts being released due Controller,FDD,TDD,SBTS to S1 Reset procedure initiated by eNB (all released UE contexts are counted RRC Connected with or without DRB). Number is onceofby the number of affected Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone updated The number active UE contexts being UEs. released Controller,FDD,TDD,SBTS
due to S1 Reset procedure initiated by eNB (all released active UE contexts are counted RRC Connected with at least one DRB). Number is onceofby the numberbeing of affected UEs. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone updated The number UE contexts released due Controller,FDD,TDD,SBTS to S1 Reset procedure initiated by MME (All released UE contexts are counted RRC Connected with or without DRB.). Number is onceofby the number of affected Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone updated The number active UE contexts being UEs. released Controller,FDD,TDD,SBTS
due to S1 Reset procedure initiated by MME (all released active UE contexts are counted RRC Connected with at least one DRB). Number is updated once by the number of affected UEs.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the sum of sampled Controller,FDD,TDD,SBTS values for measuring the number of simultaneously Active UEs. This counter, divided by the denominator DENOM_ACTIVE_UE_ENB, the of average number UEs per Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone provides The number samples takenof forActive counter eNB. Controller,FDD,TDD,SBTS SUM_ACTIVE_UE_ENB used as a denominator A is active if at least a single non-GBR DRB forUE average calculation. has been successfully configured for it. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of NACC Controller,FDD,TDD,SBTS from LTE to GSM attempts per neighbor cell relationship. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Inter Controller,FDD,TDD,SBTS System Handover attempts to GERAN with SRVCC (Single Radio Voice Call Continuity, 3GPP TS 23.216) per neighbor cell relationship. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successful Inter System Handover completions to GERAN with SRVCC (Single Radio Voice Call Continuity, 3GPP TS 23.216) per neighbor cell Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone relationship. This measurement provides the number of failed Controller,FDD,TDD,SBTS
Inter System Handover attempts to GERAN with SRVCC (Single Radio Voice Call Continuity, 3GPP TS 23.216) per neighbor cell relationship.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of cell state changes to "cell is available" Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter indicates the number of cell state Controller,FDD,TDD,SBTS changes to "planned unavailable".
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter indicates the number of cell state Controller,FDD,TDD,SBTS changes to "unplanned unavailable".
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of samples when the cell is Controller,FDD,TDD,SBTS available.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter indicates the number of samples Controller,FDD,TDD,SBTS when the cell is in the "planned unavailable" state. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter indicates the number of samples Controller,FDD,TDD,SBTS when the cell is in the "unplanned unavailable" state.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of samples when cell availability is Controller,FDD,TDD,SBTS checked. This counter is used as a denominator for the cell availability calculation Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter indicates the number of samples Controller,FDD,TDD,SBTS when the cell is in the "power saving mode" state.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter indicates the number of cell state Controller,FDD,TDD,SBTS changes to "power saving mode".
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of intra LTE inter-frequency Controller,FDD,TDD,SBTS Handover attempts. It comprises the intra- and inter-eNB. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of intra LTE inter-frequency Controller,FDD,TDD,SBTS Handover attempts when measurement gaps are configured for the UE. It comprises the intra- and inter-eNB Handover scenario. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of successful intra LTE interController,FDD,TDD,SBTS frequency Handover completions. It comprises the intra- and inter-eNB Handover scenario. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of successful intra LTE interController,FDD,TDD,SBTS frequency Handover completions when measurement gaps are configured for the UE. It comprises the intra- and inter-eNB Handover Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone scenario. The number of inter-frequency Handover failures Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of inter-frequency Handover failures Controller,FDD,TDD,SBTS if measurement gaps were configured for the UE.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Handover preparations for IMS Controller,FDD,TDD,SBTS Emergency Sessions. It comprises the intra and inter eNB Handover scenario. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS service-based handover attempts. It comprises the intra- and inter-eNB handover scenario. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Service-based handovers handover are used to hand over Controller,FDD,TDD,SBTS successful service-based completions. the UEs with ongoing VoLTE services (QCI1) It comprises the intra- and inter-eNB handoverto specific scenario.cells. Only service-based handover events with cause "resource optimization handover" (3GPP TSover Service-based handovers are used to hand 36.413, 36.423) (or with equivalent eNB-internal the UEs with ongoing VoLTE services (QCI1) to cause resource optimization handovers) are specificfor cells. counted. Handover withevents radio-related Only service-based events handover with cause causes ("handover desirable for reasons", "resource optimization handover"radio (3GPP TS "time critical handover") are not counted. Load36.413, 36.423) (or with equivalent eNB-internal based handover events are not counted. cause for resource optimization handovers) are counted. Handover events with radio-related causes ("handover desirable for radio reasons",
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of failed Handover preparations for Controller,FDD,TDD,SBTS IMS Emergency Sessions. It comprises the intra and inter eNB Handover scenario. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Handover attempts for IMS Controller,FDD,TDD,SBTS Emergency Sessions. It comprises the intra- and inter-eNB Handover scenario. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of successful Handover completions Controller,FDD,TDD,SBTS for IMS Emergency Sessions. It comprises the intra and inter eNB Handover scenario. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS Handover attempts for UEs running in DRX mode. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successful Handover completions for UEs running in DRX mode. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of Late Controller,FDD,TDD,SBTS Handovers. A Late Handover is a sequence of a missed HO attempt (instead of HO: RLF on and optionally recoverable on eNB Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone UE Thisside counter provides the number ofRLF Early side) in one cell followed by RRC connection reController,FDD,TDD,SBTS Handover Type 1. establishment request in another cell. An Early Handover Type 1 is a sequence of a failed HO attempt followed by RRC connection in thethe HOnumber sourceof cell. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone re-establishment This counter provides Early Controller,FDD,TDD,SBTS Handover Type 2. An Early Handover Type 2 is recognized in the following cases: 1: Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Case This measurement provides the number of load An Early 2 is a Itsequence of the a Controller,FDD,TDD,SBTS balancingHandover HandoverType attempts. comprises successful connection establishment in HO target intra- and inter-eNB Handover scenario. cell completed) followed by RRC Load(attempted balancing HO handovers are used to shift cell connection re-establishment in another cell a traffic from a high loaded serving cell to neighbor Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement the number of short time after 'HOprovides completion'. cells. Controller,FDD,TDD,SBTS successful load balancing Handover completions. Case 2: It the intraand2 inter-eNB Handover Ancomprises Early Handover Type is a sequence of a scenario. successful random access in HO target followed balancing handovers are to shift by failed Msg3 reception (attempted HO not Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Load This measurement provides theused number of cell traffic from a high loaded serving cell to neighbor completed) followedpreparation by re-establishment Controller,FDD,TDD,SBTS incoming handover attempts request cells. in another cell. irrespective of the handover cause. The counter is updated in the handover target which the incoming preparation Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone cell Thisfor measurement provideshandover the number of request was received. Controller,FDD,TDD,SBTS incoming handover preparation attempts caused The counter is not updated case ofHandover. an intra-cell by the handover cause TimeinCritical handover. The counter is updated in the handover target The counter notincoming updated handover in case ofpreparation a RLF cell for whichisthe (Radio Link Failure) triggered incoming handover. request was received. The counter is not updated in case of an intra-cell Remark: handover. The of not incoming handover The number counter is updated in case preparation of a RLF attempts might be greater than the sumhandover. of (Radio Link Failure) triggered incoming successful and failed handover preparations because failure counters are only provided for a subset of failure causes.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS incoming handover preparation attempts caused by the handover cause Handover desirable for Radio Reasons. is updated in thethe handover Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The This counter measurement provides numbertarget of cell for which the incoming handover preparation Controller,FDD,TDD,SBTS incoming handover preparation attempts caused request was received. by the handover cause Reduce Load in Serving The Cell.counter is not updated in case of an intra-cell handover. counter is updated in thethe handover target Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The This measurement provides number of The counter isthe notincoming updated in case ofpreparation a RLF cell for which handover Controller,FDD,TDD,SBTS incoming handover preparation attempts caused (Radio Link triggered incoming handover. request wasFailure) received. by the handover cause Resource Optimization The counter is not updated in case of an intra-cell Handover. handover. is updated in thethe handover target Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The This counter measurement provides number of The counter isthe notincoming updated in case ofpreparation a RLF cell for which handover Controller,FDD,TDD,SBTS successful incoming handoverincoming preparations (Radio Link Failure) triggered handover. request wasof received. irrespective the handover cause. The counter is updated in case of antarget intra-cell The counter is not updated in the handover handover. for which the incoming preparation Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone cell This measurement provideshandover number of The counter is not updated inthe case of a RLF request was received. Controller,FDD,TDD,SBTS successful incoming handover preparations (Radio Link Failure) triggered The counter is handover not updated in incoming case anhandover. intra-cell caused by the cause TimeofCritical handover. Handover. The counter is updated in case of a RLF is not updated in the handover target Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The This counter measurement provides the numberhandover. of (Radio Link Failure) triggered incoming cell for which the incoming handover preparation Controller,FDD,TDD,SBTS successful incoming handover preparations request was received. caused by the handover cause Handover The counter is not updated in case of an intra-cell desirable for Radio Reasons. handover. counter is updated in thethe handover target Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The This measurement provides number of The counter isthe notincoming updated in case ofpreparation a RLF cell for which handover Controller,FDD,TDD,SBTS successful incoming handover preparations (Radio Link Failure) triggered incoming handover. request was received. caused by the handover cause Reduce Load in The counter Serving Cell.is not updated in case of an intra-cell handover. is updated in thethe handover target Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The This counter measurement provides number of The counter isthe notincoming updated in case ofpreparation a RLF cell for which handover Controller,FDD,TDD,SBTS successful incoming handoverincoming preparations (Radio Link Failure) triggered handover. request was received. caused by the handover cause Resource The counter is not updated in case of an intra-cell Optimization Handover. handover. counter is updated in thethe handover target Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The This measurement provides number of The counter isthe notincoming updated in case ofpreparation a RLF cell for which handover Controller,FDD,TDD,SBTS incoming handover preparation failures caused (Radio Link triggered incoming handover. request wasFailure) received. by the missing Radio Resources. The updated in case of antarget intra-cell The counter counter is is not updated in the handover handover. which the incoming preparation Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone cell Thisfor measurement provideshandover number of The counter is not updated inthe case of a RLF request was received. Controller,FDD,TDD,SBTS incoming handover preparation failures handover. caused (Radio Link Failure) triggered incoming The counter is not updated in case of(Transport an intra-cell by the missing Transport Resources handover. Admission Control TAC). The counter is updated in case of a RLF counter is not updated in the handover target Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The This measurement provides the numberhandover. of inter(Radio Link Failure) triggered incoming cell for which the incoming handover preparation Controller,FDD,TDD,SBTS frequency handover attempts for UEs with QCI1. request wasA3/A5 received. Only event radio related handovers are The counter is in casehandovers of an intra-cell counted. Eventnot A4 updated service-based and handover. event A4 load-based handovers are not counted Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The This counter measurement providesinthe number of is not updated case of a RLF (3GPP TS 36.331, TS 36.413, TS 36.423). Controller,FDD,TDD,SBTS successful inter-frequency handover completions (Radio Link Failure) triggered incoming handover. It the intra- and inter-eNB handover forcomprises UEs with QCI1. scenarios. The counter updated in the source Only event A3/A5 radio is related handovers are cell of the handover. counted. Event A4 service-based handovers and event A4 load-based handovers are not counted (3GPP TS 36.331, TS 36.413, TS 36.423). It comprises the intra- and inter-eNB handover scenarios. The counter is updated in the source cell of the handover.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of X2 Setup Controller,FDD,TDD,SBTS procedures triggered by eNB.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the number of X2 Setup Controller,FDD,TDD,SBTS procedures which were triggered by eNB and then failed. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The measurement gives an indication of the eUu Controller,FDD,TDD,SBTS interface traffic load by reporting the total received PDCP SDU-related traffic volume for all UEs assigned to QCI Counter Group 1. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The measurement gives an indication of the eUu Note: QCItraffic Counter as such is total applicable Controller,FDD,TDD,SBTS interface loadGroup by reporting the for Operator Specific QCIs introduced in for all received PDCP SDU-related traffic volume RL30/RL25TD by LTE518: Operator-specific QCI UEs assigned to QCI Counter Group 2. and later on, in RL60/RL45TD, extended by Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The measurement gives an indication ofThese the eUu LTE1231: Operator-specific QCIs. Note: QCItraffic Counter Group asGBR such is total applicable Controller,FDD,TDD,SBTS interface load by reporting the counters are Specific not related to generic QCI1-QCI9. for Operator QCIs introduced in for all received PDCP SDU-related traffic volume RL30/RL25TD by LTE518: Operator-specific QCI UEs assigned to QCI Counter Group 3. and later on, in RL60/RL45TD, extended by Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The measurement gives an indication ofThese the eUu LTE1231: Operator-specific QCIs. Note: QCItraffic Counter Group asGBR such is total applicable Controller,FDD,TDD,SBTS interface load by reporting the counters are not related to generic QCI1-QCI9. for Operator Specific QCIs introduced in for all received PDCP SDU related traffic volume RL30/RL25TD by LTE518: Operator-specific QCI UEs assigned to QCI Counter Group 4. and later on, in RL60/RL45TD, extended by Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The measurement gives an indication ofThese the eUu LTE1231: Operator-specific QCIs. Note: QCItraffic Counter Group asGBR such is total applicable Controller,FDD,TDD,SBTS interface load by reporting the counters are Specific not related to generic QCI1-QCI9. for Operator QCIs introduced in for all received PDCP SDU-related traffic volume RL30/RL25TD by LTE518: Operator-specific QCI UEs assigned to QCI Counter Group 5. and later on, in RL60/RL45TD, extended by Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The measurement gives an indication ofThese the eUu LTE1231: Operator-specific QCIs. Note: QCItraffic Counter Group asGBR such is total applicable Controller,FDD,TDD,SBTS interface load by reporting the counters are not related to generic QCI1-QCI9. for Operator Specific QCIs introduced in for all received PDCP SDU-related traffic volume RL30/RL25TD by LTE518: Operator-specific QCI UEs assigned to QCI Counter Group 6. and later on, in RL60/RL45TD, extended by Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The measurement gives an indication ofThese the eUu LTE1231: Operator-specific QCIs. Note: QCItraffic Counter Group asGBR such is total applicable Controller,FDD,TDD,SBTS interface load by reporting the counters are Specific not related to generic QCI1-QCI9. for Operator QCIs introduced in transmitted PDCP SDU-related traffic volume for RL30/RL25TD by LTE518: Operator-specific all UEs assigned to QCI Counter Group 1. QCI and later on, in RL60/RL45TD, extended by Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The measurement gives an indication ofThese the eUu LTE1231: Operator-specific QCIs. Note: QCItraffic Counter Group asGBR such is total applicable Controller,FDD,TDD,SBTS interface load by reporting the counters are not related to generic QCI1-QCI9. for OperatorPDCP Specific QCIs introduced in transmitted SDU-related traffic volume for RL30/RL25TD by LTE518: Operator-specific all UEs assigned to QCI Counter Group 2. QCI and later on, in RL60/RL45TD, extended by Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The measurement gives an indication ofThese the eUu LTE1231: Operator-specific QCIs. Note: QCItraffic Counter Group asGBR such is total applicable Controller,FDD,TDD,SBTS interface load by reporting the counters are not related to generic QCI1-QCI9. for OperatorPDCP Specific QCIs introduced in transmitted SDU-related traffic volume for RL30/RL25TD by LTE518: Operator-specific all UEs assigned to QCI Counter Group 3. QCI and later on, in RL60/RL45TD, extended by Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The measurement gives an indication ofThese the eUu LTE1231: Operator-specific QCIs. Note: QCItraffic Counter Group asGBR such is total applicable Controller,FDD,TDD,SBTS interface load by reporting the counters are not related to generic QCI1-QCI9. for OperatorPDCP Specific QCIs introduced in transmitted SDU-related traffic volume for RL30/RL25TD by LTE518: Operator-specific all UEs assigned to QCI Counter Group 4. QCI and later on, in RL60/RL45TD, extended by LTE1231: These Note: QCI Operator-specific Counter Group asGBR suchQCIs. is applicable counters are not related to generic QCI1-QCI9. for Operator Specific QCIs introduced in RL30/RL25TD by LTE518: Operator-specific QCI and later on, in RL60/RL45TD, extended by LTE1231: Operator-specific GBR QCIs. These counters are not related to generic QCI1-QCI9.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The measurement gives an indication of the eUu Controller,FDD,TDD,SBTS interface traffic load by reporting the total transmitted PDCP SDU-related traffic volume for all UEs assigned to QCI Counter Group 5. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The measurement gives an indication of the eUu Note: QCItraffic Counter as such is total applicable Controller,FDD,TDD,SBTS interface loadGroup by reporting the for Operator Specific QCIs introduced in transmitted PDCP SDU-related traffic volume for RL30/RL25TD by LTE518: Operator-specific all UEs assigned to QCI Counter Group 6. QCI and later on, in RL60/RL45TD, extended by Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the average number of LTE1231: Operator-specific QCIs. These Note: QCI Counter Group asGBR such is applicable Controller,FDD,TDD,SBTS active UEs per cell assigned to Mobility Profile counters are Specific not related to generic QCI1-QCI9.1. for Operator QCIs introduced A UE is defined as "active" if SRB and in at least RL30/RL25TD LTE518: Operator-specific one DRB have by been established. An ongoingQCI and later on, in extended bythis transfer is RL60/RL45TD, not mandatory to belong to Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone data This counter provides the average number of LTE1231: Operator-specific GBR QCIs. These group UEs. Controller,FDD,TDD,SBTS active of UEs per assigned to Mobility Profile 2. counters are notcell related to generic QCI1-QCI9. A UE is defined as "active" if SRB and at least one DRB have been established. An ongoing transfer provides is not mandatory to belong to of this Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone data This counter the average number group of UEs. Controller,FDD,TDD,SBTS active UEs per cell assigned to Mobility Profile 3. A UE is defined as "active" if SRB and at least one DRB have been established. An ongoing transfer provides is not mandatory to belong to of this Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone data This counter the average number group of UEs. Controller,FDD,TDD,SBTS active UEs per cell assigned to Mobility Profile 4. A UE is defined as "active" if SRB and at least one DRB have been established. An ongoing transfer provides is not mandatory to belong to of this Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone data This counter the average number group of UEs. Controller,FDD,TDD,SBTS active UEs per cell assigned to Mobility Profile 5. A UE is defined as "active" if SRB and at least one DRB have been established. An ongoing transfer provides is not mandatory to belong to of this Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone data This counter the average number group of UEs. Controller,FDD,TDD,SBTS active UEs per cell assigned to Mobility Profile 6. A UE is defined as "active" if SRB and at least one DRB have been established. An ongoing transfer provides is not mandatory to belong to of this Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone data This counter the average number group of UEs. Controller,FDD,TDD,SBTS active UEs per cell assigned to Mobility Profile 7. A UE is defined as "active" if SRB and at least one DRB have been established. An ongoing transfer provides is not mandatory to belong to of this Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone data This counter the average number group of UEs. Controller,FDD,TDD,SBTS active UEs per cell assigned to Mobility Profile 8. A UE is defined as "active" if SRB and at least one DRB have been established. An ongoing transfer provides is not mandatory to belong to of this Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone data This counter the average number group of UEs. Controller,FDD,TDD,SBTS active UEs per cell assigned to the Default Mobility Profile. A UE is defined as "active" if SRB and at least have been established. ongoing Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone one This DRB counter provides the averageAn number of data transfer is not mandatory to belong to this Controller,FDD,TDD,SBTS active UEs per cell for operator-specific QCIs group of UEs. assigned to Counter Group 1. A UE is defined as "active" if SRB and at least one DRB have been established. An ongoing data transfer is not mandatory to belong to this group of UEs. The reported value is 100 times higher than the actual value (for example, 1.00 is stored as 100).
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the average number of Controller,FDD,TDD,SBTS active UEs per cell for operator-specific QCIs assigned to Counter Group 2. A UE is defined as "active" if SRB and at least have been established. ongoing Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone one This DRB counter provides the averageAn number of data transfer is not mandatory to belong to this Controller,FDD,TDD,SBTS active UEs per cell for operator-specific QCIs group of UEs. assigned to Counter Group 3. A UE is defined as "active" if SRB and at least The DRB reported value 100 times higher than the have beenisestablished. An ongoing Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone one This counter provides the average number actual value (for example, 1.00 is stored asof 100). data is cell not for mandatory to belongQCIs to this Controller,FDD,TDD,SBTS activetransfer UEs per operator-specific group of UEs. assigned to Counter Group 4. A UE is defined as "active" if SRB and at least The DRB reported value 100 times higher than the have beenisestablished. An ongoing Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone one This counter provides the average number actual value (for example, 1.00 is stored asof 100). data is cell not for mandatory to belongQCIs to this Controller,FDD,TDD,SBTS activetransfer UEs per operator-specific group of UEs. assigned to Counter Group 5. A UE is defined as "active" if SRB and at least The DRB reported value 100 times higher than the have beenisestablished. An ongoing Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone one This counter provides the average number actual value (for example, 1.00 is stored asof 100). data is cell not for mandatory to belongQCIs to this Controller,FDD,TDD,SBTS activetransfer UEs per operator-specific group of UEs. assigned to Counter Group 6. A UE is defined as "active" if SRB and at least The DRB reported value 100 times higher than the have beenisestablished. An ongoing Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone one This counter provides the number of inconsistent actual value (for example, 1.00 is stored asthis 100). data transfer Group is not mandatory to belong to Controller,FDD,TDD,SBTS QCI Counter assignments. group of UEs. The reported value is 100 times higher than the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the average number actual value (for example, 1.00 is stored asof 100). Controller,FDD,TDD,SBTS active UEs per cell assigned to Mobility Profile 9. A UE is defined "active" if SRB and at least one DRB have been established. An ongoing data is notprovides mandatory belongnumber to this group Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone transfer This counter the to average of of UEs. Controller,FDD,TDD,SBTS active UEs per cell assigned to Mobility Profile 10. A UE is defined "active" if SRB and at least one have been established. An ongoing data Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone DRB This counter provides the average number of transfer is not mandatory to belong to this group Controller,FDD,TDD,SBTS active UEs per cell assigned to Mobility Profile of 11.UEs. A UE is defined "active" if SRB and at least one have been established. An ongoing data Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone DRB This counter provides the average number of transfer is not mandatory to belong to this group Controller,FDD,TDD,SBTS active UEs per cell assigned to Mobility Profile of 12.UEs. A UE is defined "active" if SRB and at least one have been established. An ongoing data Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone DRB This counter provides the average number of transfer is not mandatory to belong to this group Controller,FDD,TDD,SBTS active UEs per cell assigned to Mobility Profile of 13.UEs. A UE is defined "active" if SRB and at least one have been established. An ongoing data Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone DRB This counter provides the average number of transfer is not mandatory to belong to this group Controller,FDD,TDD,SBTS active UEs per cell assigned to Mobility Profile of 14.UEs. A UE is defined "active" if SRB and at least one DRB have been established. An ongoing data transfer is not mandatory to belong to this group of UEs.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the average number of Controller,FDD,TDD,SBTS active UEs per cell assigned to Mobility Profile 15. A UE is defined "active" if SRB and at least one have been established. An ongoing data Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone DRB This counter provides the average number of transfer is not mandatory to belong to this group Controller,FDD,TDD,SBTS active UEs per cell assigned to Mobility Profile of 16.UEs. A UE is defined "active" if SRB and at least one have been established. An number ongoingof data Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone DRB This measurement provides the Inter transfer is not mandatory to belong to this Controller,FDD,TDD,SBTS System Handover preparations to eHRPD group per of UEs. bandclass. eHRPD For each handover relationship between the LTE of the inter system Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone cell This(source measurement provides thehandover) number ofand Failed the eHRPD bandclass (target of the inter system Controller,FDD,TDD,SBTS Inter System Handover preparations to eHRPD handover) separateofcounter is provided. caused by aexpiration guarding timer Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
TUlHoPrepTransferHrpd per eHRPD bandclass. For handover provides relationship theFailed LTE Thiseach measurement the between number of cell (source of the inter system handover) and Inter System Handover preparations to eHRPD the eHRPD bandclassof(target of the inter system caused by expiration guarding timer handover) a separate counter is provided. TC2KRelocPrepHrpd per eHRPD bandclass. The timerhandover is started relationship when the eNB sends the an LTE For each This measurement provides the between number of Failed RRC:HandoverFromEUTRAPreparationRequest cell (source ofHandover the inter system handover) and Inter System preparations to in eHRPD message (3GPP TS 36.331) to the UE case the eHRPD bandclass (target ofbythe systemof per eHRPD bandclass caused theinter that this message is sent to prepare areception Inter handover) a separate counter is provided. an S1AP:DOWNLINK S1 CDMA2000 System Handover towhen eHRPD. The timer is started the eNB sends an TUNNELING (3GPP TS 36.413) message by the The timer expires when the eNB has not of received This measurement provides theTUNNELING number S1AP:UPLINK S1 CDMA2000 eNB from the MME which indicates a failed HO the corresponding response message Successful Inter System Handover preparations message (3GPP TS 36.413) to the MME in case preparation to eHRPD. RRC:ULHandoverPreparationTransfer (3GPP TS to eHRPD per eHRPD bandclass. that this message isrelationship sent to prepare a Inter For each handover between the LTE 36.331) from the UE in time. For eachHandover handovertorelationship between the System eHRPD (CDMA2000 HOLTE cell (source of the inter system handover) and cell (source of the inter system handover) and Required Indication is set to TRUE). ThiseHRPD measurement provides the Inter the bandclass (target of number the interof system the eHRPD bandclass (target the system The timer expires when the eNB hasinter not System Handover attempts to of eHRPD perreceived handover) a separate counter is provided. handover) a separate countermessage is provided. the corresponding response eHRPD bandclass. S1AP:DOWNLINK CDMA2000 TUNNELING For each handover S1 relationship between the LTE (3GPP TS 36.413) fromsystem the MME in time. and cell (source of the inter handover) This measurement provides the number of Failed the of the inter system IntereHRPD Systembandclass Handover(target attempts to eHRPD handover) a separate counter is provided. caused by expiration of guarding timer
TC2KRelocOverallHRPD per eHRPD bandclass. handover provides relationship the LTE Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone For Thiseach measurement the between number of cell (source of the inter system handover) and Controller,FDD,TDD,SBTS Successful Inter System Handover completions the eHRPD bandclass (target of the inter system to eHRPD per eHRPD bandclass. handover) a separate counter isbetween provided.the LTE For each handover relationship The timer is started when the eNB sends an (source of the inter systempackets handover) Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone cell Number of missing UL PDCP of a and datato RRC:MobilityFromEUTRACommand message the eHRPD bandclass (target of the inter system Controller,FDD,TDD,SBTS bearer with QCITS =5 that are not delivered to the UE (3GPP 36.331) in case that this handover) a separate counter isare provided. higher layers. Missing packets identified message is sent for a Inter System Handoverbyto the missing PDCP sequence number. eHRPD. user-plane traffic is has considered. The timer when the eNB not Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Only Number ofexpires missing UL (DTCH) PDCP packets of areceived data the corresponding handover related S1AP:UE Controller,FDD,TDD,SBTS bearer with QCI = 6 that are not delivered to CONTEXT RELEASE COMMAND message by higher layers. Missing packets are identified (3GPP TS 36.413) from the MME in time. the missing PDCP sequence number. Only user-plane traffic (DTCH) is considered.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of missing UL PDCP packets of a data Controller,FDD,TDD,SBTS bearer with QCI = 7 that are not delivered to higher layers. Missing packets are identified by the missing PDCP sequence number. user-plane traffic is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Only Number of missing UL (DTCH) PDCP packets of a data Controller,FDD,TDD,SBTS
bearer with QCI = 8 that are not delivered to higher layers. Missing packets are identified by the missing PDCP sequence number. user-plane traffic is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Only Number of missing UL (DTCH) PDCP packets of a data Controller,FDD,TDD,SBTS bearer with QCI = 9 that are not delivered to higher layers. Missing packets are identified by the missing PDCP sequence number. user-plane trafficSDUs (DTCH) considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Only Number of DL PDCP of aisdata radio Controller,FDD,TDD,SBTS
bearer with QCI = 5 that could not be successfully transmitted. Only user-plane traffic (DTCH) is considered.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of DL PDCP SDUs of a data radio Controller,FDD,TDD,SBTS bearer with QCI = 6 that could not be successfully transmitted. Only user-plane traffic (DTCH) is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of DL PDCP SDUs of a data radio Controller,FDD,TDD,SBTS bearer with QCI = 7 that could not be successfully transmitted. Only user-plane traffic (DTCH) is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of DL PDCP SDUs of a data radio Controller,FDD,TDD,SBTS bearer with QCI = 8 that could not be successfully transmitted. Only user-plane traffic (DTCH) is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of DL PDCP SDUs of a data radio Controller,FDD,TDD,SBTS bearer with QCI = 9 that could not be successfully transmitted. Only user-plane traffic (DTCH) is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS transmitted PDCP SDUs in downlink for QCI 5 bearers. Only user-plane traffic (DTCH) is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS transmitted PDCP SDUs in downlink for QCI 6 bearers. Only user-plane traffic (DTCH) is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS transmitted PDCP SDUs in downlink for QCI 7 bearers. Only user-plane traffic (DTCH) is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS transmitted PDCP SDUs in downlink for QCI 8 bearers. Only user-plane traffic (DTCH) is considered.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS transmitted PDCP SDUs in downlink for QCI 9 bearers. Only user-plane traffic (DTCH) is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS received PDCP SDUs for QCI 5 bearers. Only user-plane traffic (DTCH) is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS received PDCP SDUs for QCI 6 bearers. Only user-plane traffic (DTCH) is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS received PDCP SDUs for QCI 7 bearers. Only user-plane traffic (DTCH) is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS received PDCP SDUs for QCI 8 bearers. Only user-plane traffic (DTCH) is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS received PDCP SDUs for QCI 9 bearers. Only user-plane traffic (DTCH) is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The counter provides the average time for HARQ Controller,FDD,TDD,SBTS transmissions of QCI 1 data during one measurement period. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The counter provides the average time for HARQ Controller,FDD,TDD,SBTS transmissions of QCI 2 data during one measurement period. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The counter provides the average time for HARQ Controller,FDD,TDD,SBTS transmissions of QCI 3 data during one measurement period. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The counter provides the average time for HARQ Controller,FDD,TDD,SBTS transmissions of QCI 4 data during one measurement period. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The counter provides the average time for HARQ Controller,FDD,TDD,SBTS transmissions of QCI 5 data during one measurement period. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The counter provides the average time for HARQ Controller,FDD,TDD,SBTS transmissions of QCI 6 data during one measurement period.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The counter provides the average time for HARQ Controller,FDD,TDD,SBTS transmissions of QCI 7 data during one measurement period. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The counter provides the average time for HARQ Controller,FDD,TDD,SBTS transmissions of QCI 8 data during one measurement period. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The counter provides the average time for HARQ Controller,FDD,TDD,SBTS transmissions of QCI 9 data during one measurement period. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of missing UL PDCP packets of a data Controller,FDD,TDD,SBTS bearer that are not delivered to higher layers. Missing packets are identified by the missing PDCP sequence number. user-plane traffic is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Only Number of missing UL (DTCH) PDCP packets of a data Controller,FDD,TDD,SBTS
bearer with QCI = 1 that are not delivered to higher layers. Missing packets are identified by the missing PDCP sequence number. user-plane traffic is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Only Number of missing UL (DTCH) PDCP packets of a data Controller,FDD,TDD,SBTS bearer with QCI = 2 that are not delivered to higher layers. Missing packets are identified by the missing PDCP sequence number. user-plane traffic is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Only Number of missing UL (DTCH) PDCP packets of a data Controller,FDD,TDD,SBTS
bearer with QCI = 3 that are not delivered to higher layers. Missing packets are identified by the missing PDCP sequence number. user-plane traffic is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Only Number of missing UL (DTCH) PDCP packets of a data Controller,FDD,TDD,SBTS bearer with QCI = 4 that are not delivered to higher layers. Missing packets are identified by the missing PDCP sequence number. user-plane trafficSDUs (DTCH) considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Only Number of DL PDCP thatiscould not be Controller,FDD,TDD,SBTS
successfully transmitted. Only user-plane traffic (DTCH) is considered.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of DL PDCP SDUs of a data radio Controller,FDD,TDD,SBTS bearer with QCI = 1 that could not be successfully transmitted. Only user-plane traffic (DTCH) is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of DL PDCP SDUs of a data radio Controller,FDD,TDD,SBTS bearer with QCI = 2 that could not be successfully transmitted. Only user-plane traffic (DTCH) is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of DL PDCP SDUs of a data radio Controller,FDD,TDD,SBTS bearer with QCI = 3 that could not be successfully transmitted. Only user-plane traffic (DTCH) is considered.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of DL PDCP SDUs of a data radio Controller,FDD,TDD,SBTS bearer with QCI = 4 that could not be successfully transmitted. Only user-plane traffic (DTCH) is considered. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS attempted Handover Preparations, which is caused by the reception of a RLF Indication message. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successful Handover Preparations, which is caused by the reception of a RLF Indication message. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successful Handovers, which is caused by the reception of a RLF Indication message. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS attempted UE Context Retrievals during RRC Connection Reestablishment procedure. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of Controller,FDD,TDD,SBTS successful UE Context Retrievals during RRC Connection Reestablishment procedure. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the number of failed Controller,FDD,TDD,SBTS UE Context Retrievals during RRC Connection Reestablishment procedure. The UE Context Retrieval failure is caused by the expiration of the guard timer. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone corresponding This counter provides the index of the Timing Controller,FDD,TDD,SBTS
Advance set that has been configured as expected maximum cell size. Its value determines the set for the TA values collection.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the total time of UEs (in Controller,FDD,TDD,SBTS seconds) that are in the range d (in m) from the antenna depending on the value i of the counter TIMING_ADV_SET_INDEX: = 1:counter 0 <=provides d< 78 total time of UEs (in Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone iThis the i = 2: 0 <= d < 468 Controller,FDD,TDD,SBTS seconds) that are in the range d (in m) from the iantenna = 3: 0 <= d < 1,006 depending on the value i of the counter iTIMING_ADV_SET_INDEX: = 4: 0 <= d < 1,505 i= 0 <=78 d < <= 3,003 = 5: 1:counter dthe < total 156time of UEs (in Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone iThis provides ii = 6: 0 <= d < 6,006 = 2: 468 <= d < 1,014 Controller,FDD,TDD,SBTS seconds) in the range d (in m) from the ii = 0that <= are d < <= 10,000 = 7: 3: 1,006 d< antenna depending on the2,012 value i of the counter iTIMING_ADV_SET_INDEX: = 4: 1,505 <= d < 3,011 i= 3,003 <= d d< < 6,006 = 5: 1:counter 156 <= 234time of UEs (in Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone iiThis provides the total = 6: 6,006 <= d < 12,012 i = 2: 1,014 <= d < 1,248 Controller,FDD,TDD,SBTS that are <= in the range d (in m) from the iseconds) = 10,000 19,999 iantenna = 7: 3: 2,012 <=on dd<< depending the2,516 value i of the counter iTIMING_ADV_SET_INDEX: = 4: 3,011 <= d < 3,764 ii = 5: 6,006 <=dd<< 7,508 = 1: 234 <= 312 ii = 6: 12,012 <= d d< < 15,015 = 2: 1,248 <= 1,482 ii = 19,999 <=dd<< 24,999 = 7: 3: 2,516 <= 3,019 i = 4: i = 5: i = 6: i = 7:
3,764 <= d < 4,516 7,508 <= d < 9,009 15,015 <= d < 18,018 24,999 <= d < 29,999
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the total time of UEs (in Controller,FDD,TDD,SBTS seconds) that are in the range d (in m) from the antenna depending on the value i of the counter TIMING_ADV_SET_INDEX: = 1:counter 312 <= d < 390time of UEs (in Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone iThis provides the total i = 2: 1,482 <= d < 1,716 Controller,FDD,TDD,SBTS seconds) that are in the range d (in m) from the iantenna = 3: 3,019 <= d 3,522 depending on
13,248 <= d < 13,398 26,426 <= d < 26,727 52,853 <= d < 53,453 87,996 <= d < 88,996
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the total time of UEs (in Controller,FDD,TDD,SBTS seconds) that are in the range d (in m) from the antenna depending on the value i of the counter TIMING_ADV_SET_INDEX: = 1:counter 1,248 <= d
15,054 <= d < 15,807 30,030 <= d < 31,532 60,060 <= d < 63,063 99,996 <= d < 104,996
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the total time of UEs (in Controller,FDD,TDD,SBTS seconds) that are in the range d (in m) from the antenna depending on the value i of the counter TIMING_ADV_SET_INDEX: = 1:counter2,184 <= the d < total 2,262 Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone iThis provides time of UEs (in i = 2: 5,226 <= d < 5,616 Controller,FDD,TDD,SBTS seconds) that are in the range d (in m) from the iantenna = 3: 10,565 <= < value 11,068 depending ondthe i of the counter iTIMING_ADV_SET_INDEX: = 4: 15,807 <= d < 16,559 i= 31,532 <= d d< < infinite 33,033 = 5: 1:measurement 2,262 <= Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone iThis provides the number of ii = 6: 63,063 <= d < 66,066 = 2: 5,616 are <=sent d < infinite Controller,FDD,TDD,SBTS messages, which by the UE as a part of ii = 104,996 <= <= dd < < infinite 109,996 = 7: 3: the RACH 11,068 procedure (so-called "msg3") in case ithe = 4: 16,559 <= data d < infinite UE wants to send but its UL i = 5: 33,033status <= dis<"non-synchronized" infinite Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone synchronization measurement provides the number of (cf. iThis = 6: 66,066 <= d < infinite 3GPP TS 36.300, 10.1.5). Controller,FDD,TDD,SBTS which are by the UE as part of imessages, = 7: 109,996 <=sent d < infinite the RACH procedure (so-called "msg3") in any kind of contention-based RACH procedure 3GPP TS 36.300, 10.1.5). Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone (consult This counter provides the total number of CRAN Controller,FDD,SBTS
receptions with 2Rx IRC algorithm selection.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the total number of CRAN Controller,FDD,SBTS receptions with 4Rx IRC algorithm selection.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter provides the total number of CRAN Controller,FDD,SBTS receptions with 8Rx IRC algorithm selection.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the average number Controller,FDD,TDD,SBTS of activated MBMS sessions in the cell (Multimedia Broadcast/Multicast Service, 3GPP TS 36.300, TS 23.246, TS 36.331). bearer is user Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone An ThisMBMS-session-related measurement providesMBMS the aggregated established when an MBMS session is started Controller,FDD,TDD,SBTS data volume (eUu interface) of all MBMS (activated). An MBMS-session-related MBMS sessions in the cell (Multimedia bearer is released when an MBMS session is Broadcast/Multicast Service, 3GPP TS 36.300, stopped (de-activated). TS 36.331); that the is, this measurement Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone TS This23.246, measurement provides aggregated user provides the sum of all MBMS user data,sessions which Controller,FDD,TDD,SBTS data volume (M1 interface) of all MBMS were on the eUu interface. in thetransmitted cell (Multimedia Broadcast/Multicast Service, 3GPP TS 36.300, TS 23.246, TS that is, thisprovides measurement provides Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone 36.445); This measurement the MBMS userthe data sum of all MBMS user data, which were received Controller,FDD,TDD,SBTS volume which was lost on the M1-interface by the eNB on the M1-interface. Service, 3GPP (Multimedia Broadcast/Multicast TS 36.300, TS 23.246, TS 36.445). Lost MBMS data are defined as MBMS user data which Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone user This measurement provides the MBMS user data were not properly received by the eNB via the Controller,FDD,TDD,SBTS volume which was dropped on the M1-interface M1-interface due to missing packet sequence (Multimedia Broadcast/Multicast Service, 3GPP numbers. TS 36.300, TS 23.246, TS 36.445). Dropped MBMS user data are defined as MBMS user data which were not properly received by the eNB via the M1-interface due to missing receive buffer resources or due to reception of invalid packets. Note: Dropped packets, which are already dropped at the transport layer level, are not included in this measurement.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement provides the MBMS user data Controller,FDD,TDD,SBTS volume which was dropped (Multimedia Broadcast/Multicast Service, 3GPP TS 36.300, TS 23.246, TS 36.445). Dropped MBMS user data are defined asisMBMS userfor data which were Flexi Zone Micro BTS,FSM-r3,Flexi Zone This measurement provided Subband 1 dropped due to RLC protocol packet drops or Controller,FDD,TDD,SBTS downlink Signal to Interference and Noise Ratio due to MBMS SYNC protocol (3GPP 25.446) (SINR) post-compensation values thatTS are packet drops. greater than or equal to -10 dB and less than or Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
equal to -8 dB. PRBisrange of subband 1 This measurement provided for Subband 1 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0that to PRB#3 (SINR) post-compensation are 10 MHz refers to PRB#0 to PRB#5 greater than -8 dB and less than or equal to -6 15 MHz and 20 of MHz refers 1 toaccording PRB#0 to to PRB#7 dB. range subband ThisPRB measurement is provided for Subband 1 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0that to PRB#3 (SINR) post-compensation are 10 MHz refers to PRB#0 to PRB#5 greater than -6 dB and less than or equal to -4 15 MHz and 20 of MHz refers 1 toaccording PRB#0 to to PRB#7 dB. range subband ThisPRB measurement is provided for Subband 1 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0that to PRB#3 (SINR) post-compensation are 10 MHz refers to PRB#0 to PRB#5 greater than -4 dB and less than or equal to -2 15 MHz and 20 of MHz refers 1 toaccording PRB#0 to to PRB#7 dB. range subband ThisPRB measurement is provided for Subband 1 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0that to PRB#3 (SINR) post-compensation are 10 MHz refers to PRB#0 to PRB#5 greater than -2 dB and less than or equal to 0 dB. 15 MHz andof20subband MHz refers to PRB#0 PRB#7 PRB range 1 according to to frequency: This measurement is provided for Subband 1 3 MHz and 5 MHz to PRB#0 PRB#3 downlink Signal to refers Interference and to Noise Ratio 10 MHzpost-compensation refers to PRB#0 to values PRB#5that are (SINR) 15 MHz and 20 MHz refers to PRB#0 to PRB#7 greater than 0 dB and less than or equal to 2 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
PRB range of subband 1 according to frequency: This measurement is provided for Subband 1 3 MHz and 5 MHz refers to PRB#0 to PRB#3 downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#0 to values PRB#5that are (SINR) 15 MHz and 20 MHz refers to PRB#0 to PRB#7 greater than 2 dB and less than or equal to 4 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
PRB range of subband 1 according to frequency: This measurement is provided for Subband 1 3 MHz and 5 MHz refers to PRB#0 to PRB#3 downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#0 to values PRB#5that are (SINR) 15 MHz and 20 MHz refers to PRB#0 to PRB#7 greater than 4 dB and less than or equal to 6 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
PRB range of subband 1 according to frequency: This measurement is provided for Subband 1 3 MHz and 5 MHz refers to PRB#0 to PRB#3 downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#0 to values PRB#5that are (SINR) 15 MHz and 20 MHz refers to PRB#0 to PRB#7 greater than 6 dB and less than or equal to 8 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
PRB range of subband 1 according to frequency: This measurement is provided for Subband 1 3 MHz and 5 MHz refers to PRB#0 to PRB#3 downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#0 to values PRB#5that are (SINR) 15 MHz and 20 MHz refers to PRB#0 to PRB#7 greater than 8 dB and less than or equal to 10
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
dB. range of subband 1 according to 1 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0that to PRB#3 (SINR) post-compensation are 10 MHz refers to PRB#0 to PRB#5 greater than 10 dB and less than or equal to 12 15 20 of MHz refers 1 toaccording PRB#0 to to PRB#7 dB.MHz PRBand range subband frequency: 3 MHz and 5 MHz refers to PRB#0 to PRB#3 10 MHz refers to PRB#0 to PRB#5 15 MHz and 20 MHz refers to PRB#0 to PRB#7
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 1 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 12 dB and less than or equal to 14 db. range of subband 1 according to 1 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0that to PRB#3 (SINR) post-compensation are 10 MHz refers to PRB#0 to PRB#5 greater than 14 dB and less than or equal to 16 15 MHz and 20 of MHz refers 1 toaccording PRB#0 to to PRB#7 dB. range subband ThisPRB measurement is provided for Subband 1 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0that to PRB#3 (SINR) post-compensation are 10 MHz refers to PRB#0 to PRB#5 greater than 16 dB and less than or equal to 18 15 MHz and 20 of MHz refers 1 toaccording PRB#0 to to PRB#7 dB. range subband ThisPRB measurement is provided for Subband 1 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0that to PRB#3 (SINR) post-compensation are 10 MHz refers to PRB#0 to PRB#5 greater than 18 dB and less than or equal to 20 15 MHz and 20 of MHz refers 1 toaccording PRB#0 to to PRB#7 dB. range subband ThisPRB measurement is provided for Subband 1 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0that to PRB#3 (SINR) post-compensation are 10 MHz refers to PRB#0 to PRB#5 greater than 20 dB and less than or equal to 22 15 MHz and 20 of MHz refers 1 toaccording PRB#0 to to PRB#7 dB. range subband ThisPRB measurement is provided for Subband 1 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0that to PRB#3 (SINR) post-compensation are 10 MHz refers to PRB#0 to PRB#5 greater than 22 dB and less than or equal to 24 15 MHz and 20 of MHz refers 1 toaccording PRB#0 to to PRB#7 dB. range subband ThisPRB measurement is provided for Subband 1 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0that to PRB#3 (SINR) post-compensation are 10 MHz refers to PRB#0 to PRB#5 greater than 24 dB and less than or equal to 26 15 MHz and 20 of MHz refers 1 toaccording PRB#0 to to PRB#7 dB. range subband ThisPRB measurement is provided for Subband 1 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0that to PRB#3 (SINR) post-compensation are 10 MHz refers to PRB#0 to PRB#5 greater than 26 dB and less than or equal to 28 15 MHz and 20 of MHz refers 1 toaccording PRB#0 to to PRB#7 dB. range subband ThisPRB measurement is provided for Subband 1 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0that to PRB#3 (SINR) post-compensation are 10 MHz refers to PRB#0 to PRB#5 greater than 28 dB and less than or equal to 30 15 MHz and 20 of MHz refers 1 toaccording PRB#0 to to PRB#7 dB. range subband ThisPRB measurement is provided for Subband 2 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0that to PRB#3 (SINR) post-compensation are 10 MHz refers to PRB#0 to PRB#5 greater than or equal to -10 dB and less than or 15 MHz 20PRB MHzrange refersof tosubband PRB#0 to2 PRB#7 equal to and -8 dB. This measurement is provided for Subband 2 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4that to PRB#7 (SINR) post-compensation are 10 MHz refers to PRB#6 to PRB#11 greater than -8 dB and less than or equal to -6 15 MHz and 20 of MHz refers 2 toaccording PRB#8 to to PRB#15 dB. range subband ThisPRB measurement is provided for Subband 2 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4that to PRB#7 (SINR) post-compensation are 10 MHz refers to PRB#6 to PRB#11 greater than -6 dB and less than or equal to -4 15 20 of MHz refers 2 toaccording PRB#8 to to PRB#15 dB.MHz PRBand range subband frequency: 3 MHz and 5 MHz refers to PRB#4 to PRB#7 10 MHz refers to PRB#6 to PRB#11 15 MHz and 20 MHz refers to PRB#8 to PRB#15
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 2 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than -4 dB and less than or equal to -2 dB. range of subband 2 according to 2 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4that to PRB#7 (SINR) post-compensation are 10 MHz refers to PRB#6 to PRB#11 greater than -2 dB and less than or equal to 0 dB. 15 MHz andof20subband MHz refers to PRB#8 PRB#15 PRB range 2 according to to frequency: This measurement is provided for Subband 2 3 MHz and 5 MHz to PRB#4 PRB#7 downlink Signal to refers Interference and to Noise Ratio 10 MHzpost-compensation refers to PRB#6 to values PRB#11 (SINR) that are 15 MHz and 20 MHz refers to PRB#8 to PRB#15 greater than 0 dB and less than or equal to 2 dB. PRB range of subband 2 according to frequency: This measurement is provided for Subband 2 3 MHz and 5 MHz to PRB#4 PRB#7 downlink Signal to refers Interference and to Noise Ratio 10 MHz refers to PRB#6 to PRB#11 (SINR) post-compensation values that are 15 MHzthan and 20 MHz to PRB#8 to PRB#15 greater 2 dB andrefers less than or equal to 4 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
PRB range of subband 2 according to frequency: This measurement is provided for Subband 2 3 MHz and 5 MHz refers to PRB#4 to PRB#7 downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#6 to values PRB#11 (SINR) that are 15 MHz and 20 MHz refers to PRB#8 to PRB#15 greater than 4 dB and less than or equal to 6 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
PRB range of subband 2 according to frequency: This measurement is provided for Subband 2 3 MHz and 5 MHz refers to PRB#4 to PRB#7 downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#6 to values PRB#11 (SINR) that are 15 MHz and 20 MHz refers to PRB#8 to PRB#15 greater than 6 dB and less than or equal to 8 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
PRB range of subband 2 according to frequency: This measurement is provided for Subband 2 3 MHz and 5 MHz refers to PRB#4 to PRB#7 downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#6 to values PRB#11 (SINR) that are 15 MHz and 20 MHz refers to PRB#8 to PRB#15 greater than 8 dB and less than or equal to 10
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
dB. range of subband 2 according to 2 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4that to PRB#7 (SINR) post-compensation are 10 MHz refers to PRB#6 to PRB#11 greater than 10 dB and less than or equal to 12 15 MHz and 20 of MHz refers 2 toaccording PRB#8 to to PRB#15 dB. range subband ThisPRB measurement is provided for Subband 2 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4that to PRB#7 (SINR) post-compensation are 10 MHz refers to PRB#6 to PRB#11 greater than 12 dB and less than or equal to 14 15 MHz and 20 of MHz refers 2toaccording PRB#8 totoPRB#15 db. range subband ThisPRB measurement is provided for Subband 2 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4that to PRB#7 (SINR) post-compensation are 10 MHz refers to PRB#6 to PRB#11 greater than 14 dB and less than or equal to 16 15 MHz and 20 of MHz refers 2 toaccording PRB#8 to to PRB#15 dB. range subband ThisPRB measurement is provided for Subband 2 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4that to PRB#7 (SINR) post-compensation are 10 MHz refers to PRB#6 to PRB#11 greater than 16 dB and less than or equal to 18 15 MHz and 20 of MHz refers 2 toaccording PRB#8 to to PRB#15 dB. range subband ThisPRB measurement is provided for Subband 2 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4that to PRB#7 (SINR) post-compensation are 10 MHz refers to PRB#6 to PRB#11 greater than 18 dB and less than or equal to 20 15 20 of MHz refers 2 toaccording PRB#8 to to PRB#15 dB.MHz PRBand range subband
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
frequency: 3 MHz and 5 MHz refers to PRB#4 to PRB#7 10 MHz refers to PRB#6 to PRB#11 15 MHz and 20 MHz refers to PRB#8 to PRB#15
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 2 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 20 dB and less than or equal to 22 dB. range of subband 2 according to 2 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4that to PRB#7 (SINR) post-compensation are 10 MHz refers to PRB#6 to PRB#11 greater than 22 dB and less than or equal to 24 15 MHz and 20 of MHz refers 2 toaccording PRB#8 to to PRB#15 dB. range subband ThisPRB measurement is provided for Subband 2 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4that to PRB#7 (SINR) post-compensation are 10 MHz refers to PRB#6 to PRB#11 greater than 24 dB and less than or equal to 26 15 MHz and 20 of MHz refers 2 toaccording PRB#8 to to PRB#15 dB. range subband ThisPRB measurement is provided for Subband 2 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4that to PRB#7 (SINR) post-compensation are 10 MHz refers to PRB#6 to PRB#11 greater than 26 dB and less than or equal to 28 15 MHz and 20 of MHz refers 2 toaccording PRB#8 to to PRB#15 dB. range subband ThisPRB measurement is provided for Subband 2 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4that to PRB#7 (SINR) post-compensation are 10 MHz refers to PRB#6 to PRB#11 greater than 28 dB and less than or equal to 30 15 MHz and 20 of MHz refers 2 toaccording PRB#8 to to PRB#15 dB. range subband ThisPRB measurement is provided for Subband 3 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4that to PRB#7 (SINR) post-compensation are 10 MHz refers to PRB#6 to PRB#11 greater than or equal to -10 dB and less than or 15 MHz 20PRB MHzrange refersof tosubband PRB#8 to3 PRB#15 equal to and -8 dB. This measurement is provided for Subband 3 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8that to PRB#11 (SINR) post-compensation are 10 MHz refers to PRB#12 to PRB#17 greater than -8 dB and less than or equal to -6 15 MHz and 20 of MHz refers 3 toaccording PRB#16 to dB. range subband to 3 ThisPRB measurement is provided for Subband PRB#23 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8that to PRB#11 (SINR) post-compensation are 10 MHz refers to PRB#12 to PRB#17 greater than -6 dB and less than or equal to -4 15 MHz and 20 of MHz refers 3 toaccording PRB#16 to dB. PRB range subband to 3 This measurement is provided for Subband PRB#23 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8that to PRB#11 (SINR) post-compensation are 10 MHz refers to PRB#12 to PRB#17 greater than -4 dB and less than or equal to -2 15 MHz and 20 of MHz refers 3 toaccording PRB#16 to dB. range subband to 3 ThisPRB measurement is provided for Subband PRB#23 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8that to PRB#11 (SINR) post-compensation are 10 MHz refers to PRB#12 to PRB#17 greater than -2 dB and less than or equal to 0 dB. 15 MHz andof20subband MHz refers to PRB#16 to PRB range 3 according to frequency: This measurement is provided for Subband 3 PRB#23 3 MHz and 5 MHz to PRB#8 PRB#11 downlink Signal to refers Interference and to Noise Ratio 10 MHzpost-compensation refers to PRB#12 tovalues PRB#17 (SINR) that are 15 MHz and 20 MHz refers to PRB#16 toto 2 dB. greater than 0 dB and less than or equal PRB#23 PRB range of subband 3 according to frequency: This measurement is provided for Subband 3 3 MHz and 5 MHz refers to PRB#8 to PRB#11 downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#12 tovalues PRB#17 (SINR) that are 15 MHz and 20 MHz refers to PRB#16 toto 4 dB. greater than 2 dB and less than or equal PRB#23 PRB range of subband 3 according to frequency: 3 MHz and 5 MHz refers to PRB#8 to PRB#11 10 MHz refers to PRB#12 to PRB#17 15 MHz and 20 MHz refers to PRB#16 to PRB#23
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 3 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 4 dB and less than or equal to 6 dB. PRB range of subband 3 according to frequency: This measurement is provided for Subband 3 3 MHz and 5 MHz refers to PRB#8 to PRB#11 downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#12 tovalues PRB#17 (SINR) that are 15 MHz and 20 MHz refers to PRB#16 toto 8 dB. greater than 6 dB and less than or equal PRB#23 PRB range of subband 3 according to frequency: This measurement is provided for Subband 3 3 MHz and 5 MHz refers to PRB#8 to PRB#11 downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#12 tovalues PRB#17 (SINR) that are 15 MHz and 20 MHz refers to PRB#16 toto 10 greater than 8 dB and less than or equal PRB#23 dB. range of subband 3 according to 3 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8that to PRB#11 (SINR) post-compensation are 10 MHz refers to PRB#12 to PRB#17 greater than 10 dB and less than or equal to 12 15 MHz and 20 of MHz refers 3 toaccording PRB#16 to dB. PRB range subband to 3 This measurement is provided for Subband PRB#23 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8that to PRB#11 (SINR) post-compensation are 10 MHz refers to PRB#12 to PRB#17 greater than 12 dB and less than or equal to 14 15 MHz and 20 of MHz refers 3toaccording PRB#16 to db. range subband to 3 ThisPRB measurement is provided for Subband PRB#23 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8that to PRB#11 (SINR) post-compensation are 10 MHz refers to PRB#12 to PRB#17 greater than 14 dB and less than or equal to 16 15 MHz and 20 of MHz refers 3 toaccording PRB#16 to dB. PRB range subband to 3 This measurement is provided for Subband PRB#23 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8that to PRB#11 (SINR) post-compensation are 10 MHz refers to PRB#12 to PRB#17 greater than 16 dB and less than or equal to 18 15 MHz and 20 of MHz refers 3 toaccording PRB#16 to dB. range subband to 3 ThisPRB measurement is provided for Subband PRB#23 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8that to PRB#11 (SINR) post-compensation are 10 MHz refers to PRB#12 to PRB#17 greater than 18 dB and less than or equal to 20 15 MHz and 20 of MHz refers 3 toaccording PRB#16 to dB. PRB range subband to 3 This measurement is provided for Subband PRB#23 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8that to PRB#11 (SINR) post-compensation are 10 MHz refers to PRB#12 to PRB#17 greater than 20 dB and less than or equal to 22 15 MHz and 20 of MHz refers 3 toaccording PRB#16 to dB. range subband to 3 ThisPRB measurement is provided for Subband PRB#23 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8that to PRB#11 (SINR) post-compensation are 10 MHz refers to PRB#12 to PRB#17 greater than 22 dB and less than or equal to 24 15 MHz and 20 of MHz refers 3 toaccording PRB#16 to dB. PRB range subband to 3 This measurement is provided for Subband PRB#23 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8that to PRB#11 (SINR) post-compensation are 10 MHz refers to PRB#12 to PRB#17 greater than 24 dB and less than or equal to 26 15 MHz and 20 of MHz refers 3 toaccording PRB#16 to dB. range subband to 3 ThisPRB measurement is provided for Subband PRB#23 frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8that to PRB#11 (SINR) post-compensation are 10 MHz refers to PRB#12 to PRB#17 greater than 26 dB and less than or equal to 28 15 20 of MHz refers 3 toaccording PRB#16 to dB.MHz PRBand range subband to PRB#23 frequency: 3 MHz and 5 MHz refers to PRB#8 to PRB#11 10 MHz refers to PRB#12 to PRB#17 15 MHz and 20 MHz refers to PRB#16 to PRB#23
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 3 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 28 dB and less than or equal to 30 dB. range of subband 3 according to 4 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8that to PRB#11 (SINR) post-compensation are 10 MHz refers to PRB#12 to PRB#17 greater than or equal to -10 dB and less than or 15 MHz 20PRB MHzrange refersof tosubband PRB#16 4to equal to and -8 dB. This measurement is provided for Subband 4 PRB#23 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation that are 5 MHz refers to PRB#12 to greater than -8 dB and less PRB#15 than or equal to -6 10 MHz refers to4 PRB#23 dB. PRB rangetoofPRB#18 subband according to This measurement is refers provided for Subband 15 MHz and 20 MHz to PRB#24 to 4 frequency: downlink Signal to Interference and Noise Ratio PRB#31 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation that are 5 MHz refers to PRB#12 to greater than -6 dB and less PRB#15 than or equal to -4 10 MHz refers to4 PRB#23 dB. PRB rangetoofPRB#18 subband according to This measurement is refers provided for Subband 15 MHz and 20 MHz to PRB#24 to 4 frequency: downlink Signal to Interference and Noise Ratio PRB#31 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation that are 5 MHz refers to PRB#12 to greater than -4 dB and less PRB#15 than or equal to -2 10 MHz refers to4 PRB#23 dB. PRB rangetoofPRB#18 subband according to This measurement is refers provided for Subband 15 MHz and 20 MHz to PRB#24 to 4 frequency: downlink Signal to Interference and Noise Ratio PRB#31 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation that are 5 MHz refers to PRB#12 to greater than -2 dB and less PRB#15 than or equal to 0 dB. 10 MHz refers to PRB#18 to PRB#23 PRB range of subband 4 according to frequency: This measurement is refers provided for Subband 15 MHz and 20 MHz to PRB#24 to 4 3 MHz refers to PRB#12 to PRB#14 downlink Signal to Interference and Noise Ratio PRB#31 5 MHz refers to PRB#12 to values PRB#15 (SINR) post-compensation that are 10 MHzthan refers to PRB#18 PRB#23 greater 0 dB and lesstothan or equal to 2 dB. 15 MHz and 20 MHz refers to PRB#24 to PRB range of subband 4 according to frequency: This measurement is provided for Subband 4 PRB#31 3 MHz refers to PRB#12 to PRB#14 downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#12 to values PRB#15 (SINR) post-compensation that are 10 MHz refers to PRB#18 to PRB#23 greater than 2 dB and less than or equal to 4 dB. 15 MHz andof20subband MHz refers to PRB#24 to PRB range 4 according to frequency: This measurement is provided for Subband 4 PRB#31 3 MHz refers to PRB#12 to PRB#14 downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#12 to values PRB#15 (SINR) post-compensation that are 10 MHz refers to PRB#18 to PRB#23 greater than 4 dB and less than or equal to 6 dB. 15 MHz andof20subband MHz refers to PRB#24 to PRB range 4 according to frequency: This measurement is provided for Subband 4 PRB#31 3 MHz refers to PRB#12 to PRB#14 downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#12 to values PRB#15 (SINR) post-compensation that are 10 MHz refers to PRB#18 to PRB#23 greater than 6 dB and less than or equal to 8 dB. 15 MHz andof20subband MHz refers to PRB#24 to PRB range 4 according to frequency: This measurement is provided for Subband 4 PRB#31 3 MHz refers to PRB#12 to PRB#14 downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#12 to values PRB#15 (SINR) post-compensation that are 10 MHz refers to PRB#18 to PRB#23 greater than 8 dB and less than or equal to 10 15 MHz and 20 of MHz refers 4 toaccording PRB#24 to dB. range subband to 4 ThisPRB measurement is provided for Subband PRB#31 frequency: downlink Signal to Interference and Noise Ratio 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation that are 5 MHz refers to PRB#12 to greater than 10 dB and lessPRB#15 than or equal to 12 10 dB.MHz PRBrefers rangetoofPRB#18 subbandto4 PRB#23 according to 15 MHz and 20 MHz refers to PRB#24 to frequency: PRB#31 3 MHz refers to PRB#12 to PRB#14 5 MHz refers to PRB#12 to PRB#15 10 MHz refers to PRB#18 to PRB#23 15 MHz and 20 MHz refers to PRB#24 to PRB#31
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 4 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 12 dB and less than or equal to 14 db. range of subband 4 according to 4 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation that are 5 MHz refers to PRB#12 to greater than 14 dB and lessPRB#15 than or equal to 16 10 MHz refers to4 PRB#23 dB. PRB rangetoofPRB#18 subband according to This measurement is refers provided for Subband 15 MHz and 20 MHz to PRB#24 to 4 frequency: downlink Signal to Interference and Noise Ratio PRB#31 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation that are 5 MHz refers to PRB#12 to greater than 16 dB and lessPRB#15 than or equal to 18 10 MHz refers to4 PRB#23 dB. PRB rangetoofPRB#18 subband according to This measurement is refers provided for Subband 15 MHz and 20 MHz to PRB#24 to 4 frequency: downlink Signal to Interference and Noise Ratio PRB#31 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation that are 5 MHz refers to PRB#12 to greater than 18 dB and lessPRB#15 than or equal to 20 10 MHz refers to4 PRB#23 dB. PRB rangetoofPRB#18 subband according to This measurement is refers provided for Subband 15 MHz and 20 MHz to PRB#24 to 4 frequency: downlink Signal to Interference and Noise Ratio PRB#31 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation that are 5 MHz refers to PRB#12 to greater than 20 dB and lessPRB#15 than or equal to 22 10 MHz refers to4 PRB#23 dB. PRB rangetoofPRB#18 subband according to This measurement is refers provided for Subband 15 MHz and 20 MHz to PRB#24 to 4 frequency: downlink Signal to Interference and Noise Ratio PRB#31 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation that are 5 MHz refers to PRB#12 to greater than 22 dB and lessPRB#15 than or equal to 24 10 MHz refers to4 PRB#23 dB. PRB rangetoofPRB#18 subband according to This measurement is refers provided for Subband 15 MHz and 20 MHz to PRB#24 to 4 frequency: downlink Signal to Interference and Noise Ratio PRB#31 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation that are 5 MHz refers to PRB#12 to greater than 24 dB and lessPRB#15 than or equal to 26 10 MHz refers to4 PRB#23 dB. PRB rangetoofPRB#18 subband according to This measurement is refers provided for Subband 15 MHz and 20 MHz to PRB#24 to 4 frequency: downlink Signal to Interference and Noise Ratio PRB#31 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation that are 5 MHz refers to PRB#12 to greater than 26 dB and lessPRB#15 than or equal to 28 10 MHz refers to4 PRB#23 dB. PRB rangetoofPRB#18 subband according to This measurement is refers provided for Subband 15 MHz and 20 MHz to PRB#24 to 4 frequency: downlink Signal to Interference and Noise Ratio PRB#31 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation that are 5 MHz refers to PRB#12 to greater than 28 dB and lessPRB#15 than or equal to 30 10 MHz refers to4 PRB#23 dB. PRB rangetoofPRB#18 subband according to This measurement is refers provided for Subband 15 MHz and 20 MHz to PRB#24 to 5 frequency: downlink Signal to Interference and Noise Ratio PRB#31 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation that are 5 MHz refers to PRB#12 to greater than or equal to -10 PRB#15 dB and less than or 10 MHz PRB#18 to equal to refers -8 dB. to PRB ofPRB#23 subband 5 This measurement isrange provided for Subband 15 MHz and 20 MHz refers to PRB#24 to 5 according to frequency: downlink Signal to Interference and Noise Ratio PRB#31 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation that are 10 MHz refers to PRB#24 to PRB#29 greater than -8 dB and less than or equal to -6 15 MHz and 20 of MHz refers 5 toaccording PRB#32 to dB. range subband to 5 ThisPRB measurement is provided for Subband PRB#39 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation that are 10 MHz refers to PRB#24 to PRB#29 greater than -6 dB and less than or equal to -4 15 20 of MHz refers 5 toaccording PRB#32 to dB.MHz PRBand range subband to PRB#39 frequency: 5 MHz refers to PRB#16 to PRB#19 10 MHz refers to PRB#24 to PRB#29 15 MHz and 20 MHz refers to PRB#32 to PRB#39
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 5 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than -4 dB and less than or equal to -2 dB. range of subband 5 according to 5 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation that are 10 MHz refers to PRB#24 to PRB#29 greater than -2 dB and less than or equal to 0 dB. 15 MHz andof20subband MHz refers to PRB#32 to PRB range 5 according to frequency: This measurement is provided for Subband 5 PRB#39 5 MHz refers to PRB#16 to PRB#19 downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#24 tovalues PRB#29 (SINR) that are 15 MHz and 20 MHz refers to PRB#32 toto 2 dB. greater than 0 dB and less than or equal PRB#39 PRB range of subband 5 according to frequency: This measurement is provided for Subband 5 5 MHz refers to PRB#16 to PRB#19 downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#24 tovalues PRB#29 (SINR) that are 15 MHz and 20 MHz refers to PRB#32 toto 4 dB. greater than 2 dB and less than or equal PRB#39 PRB range of subband 5 according to frequency: This measurement is provided for Subband 5 5 MHz refers to PRB#16 to PRB#19 downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#24 tovalues PRB#29 (SINR) that are 15 MHz and 20 MHz refers to PRB#32 toto 6 dB. greater than 4 dB and less than or equal PRB#39 PRB range of subband 5 according to frequency: This measurement is provided for Subband 5 5 MHz refers to PRB#16 to PRB#19 downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#24 tovalues PRB#29 (SINR) that are 15 MHz and 20 MHz refers to PRB#32 toto 8 dB. greater than 6 dB and less than or equal PRB#39 PRB range of subband 5 according to frequency: This measurement is provided for Subband 5 5 MHz refers to PRB#16 to PRB#19 downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#24 tovalues PRB#29 (SINR) that are 15 MHz and 20 MHz refers to PRB#32 toto 10 greater than 8 dB and less than or equal PRB#39 dB. range of subband 5 according to 5 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation that are 10 MHz refers to PRB#24 to PRB#29 greater than 10 dB and less than or equal to 12 15 MHz and 20 of MHz refers 5 toaccording PRB#32 to dB. PRB range subband to 5 This measurement is provided for Subband PRB#39 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation that are 10 MHz refers to PRB#24 to PRB#29 greater than 12 dB and less than or equal to 14 15 MHz and 20 of MHz refers 5 toaccording PRB#32 to dB. range subband to 5 ThisPRB measurement is provided for Subband PRB#39 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation that are 10 MHz refers to PRB#24 to PRB#29 greater than 14 dB and less than or equal to 16 15 MHz and 20 of MHz refers 5 toaccording PRB#32 to dB. PRB range subband to 5 This measurement is provided for Subband PRB#39 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation that are 10 MHz refers to PRB#24 to PRB#29 greater than 16 dB and less than or equal to 18 15 MHz and 20 of MHz refers 5 toaccording PRB#32 to dB. range subband to 5 ThisPRB measurement is provided for Subband PRB#39 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation that are 10 MHz refers to PRB#24 to PRB#29 greater than 18 dB and less than or equal to 20 15 20 of MHz refers 5 toaccording PRB#32 to dB.MHz PRBand range subband to PRB#39 frequency: 5 MHz refers to PRB#16 to PRB#19 10 MHz refers to PRB#24 to PRB#29 15 MHz and 20 MHz refers to PRB#32 to PRB#39
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 5 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 20 dB and less than or equal to 22 dB. range of subband 5 according to 5 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation that are 10 MHz refers to PRB#24 to PRB#29 greater than 22 dB and less than or equal to 24 15 MHz and 20 of MHz refers 5 toaccording PRB#32 to dB. PRB range subband to 5 This measurement is provided for Subband PRB#39 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation that are 10 MHz refers to PRB#24 to PRB#29 greater than 24 dB and less than or equal to 26 15 MHz and 20 of MHz refers 5 toaccording PRB#32 to dB. range subband to 5 ThisPRB measurement is provided for Subband PRB#39 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation that are 10 MHz refers to PRB#24 to PRB#29 greater than 26 dB and less than or equal to 28 15 MHz and 20 of MHz refers 5 toaccording PRB#32 to dB. PRB range subband to 5 This measurement is provided for Subband PRB#39 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation that are 10 MHz refers to PRB#24 to PRB#29 greater than 28 dB and less than or equal to 30 15 MHz and 20 of MHz refers 5 toaccording PRB#32 to dB. range subband to 6 ThisPRB measurement is provided for Subband PRB#39 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation that are 10 MHz refers to PRB#24 to PRB#29 greater than or equal to -10 dB and less than or 15 MHz 20PRB MHzrange refersof tosubband PRB#32 6to equal to and -8 dB. This measurement is provided for Subband 6 PRB#39 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation that are 10 MHz refers to PRB#30 to PRB#35 greater than -8 dB and less than or equal to -6 15 MHz and 20 of MHz refers 6 toaccording PRB#40 to dB. range subband to 6 ThisPRB measurement is provided for Subband PRB#47 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation that are 10 MHz refers to PRB#30 to PRB#35 greater than -6 dB and less than or equal to -4 15 MHz and 20 of MHz refers 6 toaccording PRB#40 to dB. PRB range subband to 6 This measurement is provided for Subband PRB#47 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation that are 10 MHz refers to PRB#30 to PRB#35 greater than -4 dB and less than or equal to -2 15 MHz and 20 of MHz refers 6 toaccording PRB#40 to dB. range subband to 6 ThisPRB measurement is provided for Subband PRB#47 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation that are 10 MHz refers to PRB#30 to PRB#35 greater than -2 dB and less than or equal to 0 dB. 15 MHz andof20subband MHz refers to PRB#40 to PRB range 6 according to frequency: This measurement is provided for Subband 6 PRB#47 5 MHz refers to PRB#20 to PRB#23 downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#30 tovalues PRB#35 (SINR) that are 15 MHz and 20 MHz refers to PRB#40 toto 2 dB. greater than 0 dB and less than or equal PRB#47 PRB range of subband 6 according to frequency: This measurement is provided for Subband 6 5 MHz refers to PRB#20 to PRB#23 downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#30 tovalues PRB#35 (SINR) that are 15 MHz and 20 MHz refers to PRB#40 toto 4 dB. greater than 2 dB and less than or equal PRB#47 PRB range of subband 6 according to frequency: 5 MHz refers to PRB#20 to PRB#23 10 MHz refers to PRB#30 to PRB#35 15 MHz and 20 MHz refers to PRB#40 to PRB#47
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 6 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 4 dB and less than or equal to 6 dB. PRB range of subband 6 according to frequency: This measurement is provided for Subband 6 5 MHz refers to PRB#20 to PRB#23 downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#30 tovalues PRB#35 (SINR) that are 15 MHz and 20 MHz refers to PRB#40 toto 8 dB. greater than 6 dB and less than or equal PRB#47 PRB range of subband 6 according to frequency: This measurement is provided for Subband 6 5 MHz refers to PRB#20 to PRB#23 downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#30 tovalues PRB#35 (SINR) that are 15 MHz and 20 MHz refers to PRB#40 toto 10 greater than 8 dB and less than or equal PRB#47 dB. range of subband 6 according to 6 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation that are 10 MHz refers to PRB#30 to PRB#35 greater than 10 dB and less than or equal to 12 15 MHz and 20 of MHz refers 6 toaccording PRB#40 to dB. PRB range subband to 6 This measurement is provided for Subband PRB#47 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation that are 10 MHz refers to PRB#30 to PRB#35 greater than 12 dB and less than or equal to 14 15 MHz and 20 of MHz refers 6 toaccording PRB#40 to dB. range subband to 6 ThisPRB measurement is provided for Subband PRB#47 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation that are 10 MHz refers to PRB#30 to PRB#35 greater than 14 dB and less than or equal to 16 15 MHz and 20 of MHz refers 6 toaccording PRB#40 to dB. PRB range subband to 6 This measurement is provided for Subband PRB#47 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation that are 10 MHz refers to PRB#30 to PRB#35 greater than 16 dB and less than or equal to 18 15 MHz and 20 of MHz refers 6 toaccording PRB#40 to dB. range subband to 6 ThisPRB measurement is provided for Subband PRB#47 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation that are 10 MHz refers to PRB#30 to PRB#35 greater than 18 dB and less than or equal to 20 15 MHz and 20 of MHz refers 6 toaccording PRB#40 to dB. PRB range subband to 6 This measurement is provided for Subband PRB#47 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation that are 10 MHz refers to PRB#30 to PRB#35 greater than 20 dB and less than or equal to 22 15 MHz and 20 of MHz refers 6 toaccording PRB#40 to dB. range subband to 6 ThisPRB measurement is provided for Subband PRB#47 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation that are 10 MHz refers to PRB#30 to PRB#35 greater than 22 dB and less than or equal to 24 15 MHz and 20 of MHz refers 6 toaccording PRB#40 to dB. PRB range subband to 6 This measurement is provided for Subband PRB#47 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation that are 10 MHz refers to PRB#30 to PRB#35 greater than 24 dB and less than or equal to 26 15 MHz and 20 of MHz refers 6 toaccording PRB#40 to dB. range subband to 6 ThisPRB measurement is provided for Subband PRB#47 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation that are 10 MHz refers to PRB#30 to PRB#35 greater than 26 dB and less than or equal to 28 15 20 of MHz refers 6 toaccording PRB#40 to dB.MHz PRBand range subband to PRB#47 frequency: 5 MHz refers to PRB#20 to PRB#23 10 MHz refers to PRB#30 to PRB#35 15 MHz and 20 MHz refers to PRB#40 to PRB#47
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 6 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 28 dB and less than or equal to 30 dB. range of subband 6 according to 7 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation that are 10 MHz refers to PRB#30 to PRB#35 greater than or equal to -10 dB and less than or 15 MHz 20PRB MHzrange refersof tosubband PRB#40 7to equal to and -8 dB. This measurement is provided for Subband 7 PRB#47 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values that are (SINR) post-compensation 10 MHz refers PRB#41 greater than -8to dBPRB#36 and lesstothan or equal to -6 15 MHz and 20 MHz refers to PRB#48 to dB. PRB range of subband 7 according to 7 This measurement is provided for Subband PRB#55 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values that are (SINR) post-compensation 10 MHz refers PRB#41 greater than -6to dBPRB#36 and lesstothan or equal to -4 15 MHz and 20 MHz refers to PRB#48 to dB. PRB range of subband 7 according to 7 This measurement is provided for Subband PRB#55 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values that are (SINR) post-compensation 10 MHz refers PRB#41 greater than -4to dBPRB#36 and lesstothan or equal to -2 15 MHz and 20 MHz refers to PRB#48 to dB. PRB range of subband 7 according to 7 This measurement is provided for Subband PRB#55 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values that are (SINR) post-compensation 10 MHz refers PRB#41 greater than -2to dBPRB#36 and lesstothan or equal to 0 dB. 15 MHz and 20 MHz refers to PRB#48 to PRB range of subband 7 according to frequency: This measurement is provided for Subband 7 PRB#55 5 MHz refers to PRB#24 downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#36 tovalues PRB#41 (SINR) that are 15 MHz and 20 MHz refers to PRB#48 toto 2 dB. greater than 0 dB and less than or equal PRB#55 PRB range of subband 7 according to frequency: This measurement is provided for Subband 7 5 MHz refers to PRB#24 downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#36 tovalues PRB#41 (SINR) that are 15 MHz and 20 MHz refers to PRB#48 toto 4 dB. greater than 2 dB and less than or equal PRB#55 PRB range of subband 7 according to frequency: This measurement is provided for Subband 7 5 MHz refers to PRB#24 downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#36 tovalues PRB#41 (SINR) that are 15 MHz and 20 MHz refers to PRB#48 toto 6 dB. greater than 4 dB and less than or equal PRB#55 PRB range of subband 7 according to frequency: This measurement is provided for Subband 7 5 MHz refers to PRB#24 downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#36 tovalues PRB#41 (SINR) that are 15 MHz and 20 MHz refers to PRB#48 toto 8 dB. greater than 6 dB and less than or equal PRB#55 PRB range of subband 7 according to frequency: This measurement is provided for Subband 7 5 MHz refers to PRB#24 downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#36 tovalues PRB#41 (SINR) that are 15 MHz and 20 MHz refers to PRB#48 toto 10 greater than 8 dB and less than or equal PRB#55 dB. range of subband 7 according to 7 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values that are (SINR) post-compensation 10 MHz refers PRB#36 to than PRB#41 greater than 10todB and less or equal to 12 15 MHz and 20 MHz refers to PRB#48 to dB. PRB range of subband 7 according to PRB#55 frequency: 5 MHz refers to PRB#24 10 MHz refers to PRB#36 to PRB#41 15 MHz and 20 MHz refers to PRB#48 to PRB#55
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 7 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 12 dB and less than or equal to 14 dB. range of subband 7 according to 7 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values that are (SINR) post-compensation 10 MHz refers PRB#36 to than PRB#41 greater than 14todB and less or equal to 16 15 MHz and 20 MHz refers to PRB#48 to dB. PRB range of subband 7 according to 7 This measurement is provided for Subband PRB#55 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values that are (SINR) post-compensation 10 MHz refers PRB#36 to than PRB#41 greater than 16todB and less or equal to 18 15 MHz and 20 MHz refers to PRB#48 to dB. PRB range of subband 7 according to 7 This measurement is provided for Subband PRB#55 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values that are (SINR) post-compensation 10 MHz refers PRB#36 to than PRB#41 greater than 18todB and less or equal to 20 15 MHz and 20 MHz refers to PRB#48 to dB. PRB range of subband 7 according to 7 This measurement is provided for Subband PRB#55 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values that are (SINR) post-compensation 10 MHz refers PRB#36 to than PRB#41 greater than 20todB and less or equal to 22 15 MHz and 20 MHz refers to PRB#48 to dB. PRB range of subband 7 according to 7 This measurement is provided for Subband PRB#55 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values that are (SINR) post-compensation 10 MHz refers PRB#36 to than PRB#41 greater than 22todB and less or equal to 24 15 MHz and 20 MHz refers to PRB#48 to dB. PRB range of subband 7 according to 7 This measurement is provided for Subband PRB#55 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values that are (SINR) post-compensation 10 MHz refers PRB#36 to than PRB#41 greater than 24todB and less or equal to 26 15 MHz and 20 MHz refers to PRB#48 to dB. PRB range of subband 7 according to 7 This measurement is provided for Subband PRB#55 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values that are (SINR) post-compensation 10 MHz refers PRB#36 to than PRB#41 greater than 26todB and less or equal to 28 15 MHz and 20 MHz refers to PRB#48 to dB. PRB range of subband 7 according to 7 This measurement is provided for Subband PRB#55 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values that are (SINR) post-compensation 10 MHz refers PRB#36 to than PRB#41 greater than 28todB and less or equal to 30 15 MHz and 20 MHz refers to PRB#48 to dB. PRB range of subband 7 according to 8 This measurement is provided for Subband PRB#55 frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values that are (SINR) post-compensation 10 MHz refers PRB#36 PRB#41 greater than orto equal to -10todB and less than or 15 MHz and 20 MHz refers to PRB#48 8to equal to -8 dB. PRB range of subband This measurement is provided for Subband 8 PRB#55 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHz refers to PRB#42 tovalues PRB#47 (SINR) post-compensation that are 15 MHz and 20 MHz refers to PRB#56 to to -6 greater than -8 dB and less than or equal PRB#63 dB. range of subband 8 according to 8 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues PRB#47 (SINR) that are 15 MHz and 20 MHz refers to PRB#56 to to -4 greater than -6 dB and less than or equal PRB#63 dB. PRB range of subband 8 according to frequency: 10 MHz refers to PRB#42 to PRB#47 15 MHz and 20 MHz refers to PRB#56 to PRB#63
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 8 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than -4 dB and less than or equal to -2 dB. range of subband 8 according to 8 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues PRB#47 (SINR) that are 15 MHz and 20 MHz refers to PRB#56 to to 0 dB. greater than -2 dB and less than or equal PRB#63 PRB range of subband 8 according to frequency: This measurement is provided for Subband 8 10 MHz refers to PRB#42 to PRB#47 downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation and 20 MHz refers values to PRB#56 to (SINR) that are PRB#63 greater than 0 dB and less than or equal to 2 dB. PRB range of subband 8 according to frequency: This measurement is provided for Subband 8 10 MHz refers to PRB#42 to PRB#47 downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation and 20 MHz refers values to PRB#56 to (SINR) that are PRB#63 greater than 2 dB and less than or equal to 4 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
PRB range of subband 8 according to frequency: This measurement is provided for Subband 8 10 MHz refers to PRB#42 to PRB#47 downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation and 20 MHz refers values to PRB#56 to (SINR) that are PRB#63 greater than 4 dB and less than or equal to 6 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
PRB range of subband 8 according to frequency: This measurement is provided for Subband 8 10 MHz refers to PRB#42 to PRB#47 downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation and 20 MHz refers values to PRB#56 to (SINR) that are PRB#63 greater than 6 dB and less than or equal to 8 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
PRB range of subband 8 according to frequency: This measurement is provided for Subband 8 10 MHz refers to PRB#42 to PRB#47 downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation and 20 MHz refers values to PRB#56 to (SINR) that are PRB#63 greater than 8 dB and less than or equal to 10
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
dB. range of subband 8 according to 8 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues PRB#47 (SINR) that are 15 MHz and 20 MHz refers to PRB#56 to to 12 greater than 10 dB and less than or equal PRB#63 dB. range of subband 8 according to 8 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues PRB#47 (SINR) that are 15 MHz and 20 MHz refers to PRB#56 to to 14 greater than 12 dB and less than or equal PRB#63 dB. range of subband 8 according to 8 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues PRB#47 (SINR) that are 15 MHz and 20 MHz refers to PRB#56 to to 16 greater than 14 dB and less than or equal PRB#63 dB. range of subband 8 according to 8 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues PRB#47 (SINR) that are 15 MHz and 20 MHz refers to PRB#56 to to 18 greater than 16 dB and less than or equal PRB#63 dB. range of subband 8 according to 8 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues PRB#47 (SINR) that are 15 MHz and 20 MHz refers to PRB#56 to to 20 greater than 18 dB and less than or equal PRB#63 dB. PRB range of subband 8 according to
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
frequency: 10 MHz refers to PRB#42 to PRB#47 15 MHz and 20 MHz refers to PRB#56 to PRB#63
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 8 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 20 dB and less than or equal to 22 dB. range of subband 8 according to 8 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues PRB#47 (SINR) that are 15 MHz and 20 MHz refers to PRB#56 to to 24 greater than 22 dB and less than or equal PRB#63 dB. range of subband 8 according to 8 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues PRB#47 (SINR) that are 15 MHz and 20 MHz refers to PRB#56 to to 26 greater than 24 dB and less than or equal PRB#63 dB. range of subband 8 according to 8 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues PRB#47 (SINR) that are 15 MHz and 20 MHz refers to PRB#56 to to 28 greater than 26 dB and less than or equal PRB#63 dB. range of subband 8 according to 8 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues PRB#47 (SINR) that are 15 MHz and 20 MHz refers to PRB#56 to to 30 greater than 28 dB and less than or equal PRB#63 dB. range of subband 8 according to 9 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues PRB#47 (SINR) that are 15 MHz and 20 MHz refers to greater than or equal to -10 dBPRB#56 and lesstothan or PRB#63 equal to -8 dB. PRBisrange of subband 9 This measurement provided for Subband 9 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) that are 15 MHz and 20 MHz refers to PRB#64 to to -6 greater than -8 dB and less than or equal PRB#71 dB. range of subband 9 according to 9 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) that are 15 MHz and 20 MHz refers to PRB#64 to to -4 greater than -6 dB and less than or equal PRB#71 dB. range of subband 9 according to 9 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) that are 15 MHz and 20 MHz refers to PRB#64 to to -2 greater than -4 dB and less than or equal PRB#71 dB. range of subband 9 according to 9 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) that are 15 MHz and 20 MHz refers to PRB#64 to to 0 dB. greater than -2 dB and less than or equal PRB#71 PRB range of subband 9 according to frequency: This measurement is provided for Subband 9 10 MHz refers to PRB#48 to PRB#49 downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation and 20 MHz refers values to PRB#64 to (SINR) that are PRB#71 greater than 0 dB and less than or equal to 2 dB. PRB range of subband 9 according to frequency: This measurement is provided for Subband 9 10 MHz refers to PRB#48 to PRB#49 downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation and 20 MHz refers values to PRB#64 to (SINR) that are PRB#71 greater than 2 dB and less than or equal to 4 dB. PRB range of subband 9 according to frequency: 10 MHz refers to PRB#48 to PRB#49 15 MHz and 20 MHz refers to PRB#64 to PRB#71
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 9 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 4 dB and less than or equal to 6 dB. PRB range of subband 9 according to frequency: This measurement is provided for Subband 9 10 MHz refers to PRB#48 to PRB#49 downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation and 20 MHz refers values to PRB#64 to (SINR) that are PRB#71 greater than 6 dB and less than or equal to 8 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
PRB range of subband 9 according to frequency: This measurement is provided for Subband 9 10 MHz refers to PRB#48 to PRB#49 downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation and 20 MHz refers values to PRB#64 to (SINR) that are PRB#71 greater than 8 dB and less than or equal to 10
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
dB. range of subband 9 according to 9 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) that are 15 MHz and 20 MHz refers to PRB#64 to to 12 greater than 10 dB and less than or equal PRB#71 dB. range of subband 9 according to 9 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) that are 15 MHz and 20 MHz refers to PRB#64 to to 14 greater than 12 dB and less than or equal PRB#71 dB. range of subband 9 according to 9 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) that are 15 MHz and 20 MHz refers to PRB#64 to to 16 greater than 14 dB and less than or equal PRB#71 dB. range of subband 9 according to 9 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) that are 15 MHz and 20 MHz refers to PRB#64 to to 18 greater than 16 dB and less than or equal PRB#71 dB. range of subband 9 according to 9 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) that are 15 MHz and 20 MHz refers to PRB#64 to to 20 greater than 18 dB and less than or equal PRB#71 dB. range of subband 9 according to 9 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) that are 15 MHz and 20 MHz refers to PRB#64 to to 22 greater than 20 dB and less than or equal PRB#71 dB. range of subband 9 according to 9 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) that are 15 MHz and 20 MHz refers to PRB#64 to to 24 greater than 22 dB and less than or equal PRB#71 dB. range of subband 9 according to 9 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) that are 15 MHz and 20 MHz refers to PRB#64 to to 26 greater than 24 dB and less than or equal PRB#71 dB. range of subband 9 according to 9 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) that are 15 MHz and 20 MHz refers to PRB#64 to to 28 greater than 26 dB and less than or equal PRB#71 dB. PRB range of subband 9 according to
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
frequency: 10 MHz refers to PRB#48 to PRB#49 15 MHz and 20 MHz refers to PRB#64 to PRB#71
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 9 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 28 dB and less than or equal to 30 dB. range of subband 9 according to 10 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) that are 15 MHz and 20 MHz refers to greater than or equal to -10 dBPRB#64 and lesstothan or PRB#71 equal to -8 dB. PRBisrange of subband 10 10 This measurement provided for Subband according to frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) that are 20 MHz refers to PRB#72 to PRB#79 greater than -8 dB and less than or equal to -6 dB. range of subband 10 according to 10 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) that are 20 MHz refers to PRB#72 to PRB#79 greater than -6 dB and less than or equal to -4
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
dB. range of subband 10 according to 10 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) that are 20 MHz refers to PRB#72 to PRB#79 greater than -4 dB and less than or equal to -2
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
dB. range of subband 10 according to 10 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) that are 20 MHz refers to PRB#72 to PRB#79 greater than -2 dB and less than or equal to 0 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
PRB range of subband 10 according to This measurement is provided for Subband 10 frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) that are 20 MHz refers to PRB#72 to PRB#79 greater than 0 dB and less than or equal to 2 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
PRB range of subband 10 according to This measurement is provided for Subband 10 frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) that are 20 MHz refers to PRB#72 to PRB#79 greater than 2 dB and less than or equal to 4 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
PRB range of subband 10 according to This measurement is provided for Subband 10 frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) that are 20 MHz refers to PRB#72 to PRB#79 greater than 4 dB and less than or equal to 6 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
PRB range of subband 10 according to This measurement is provided for Subband 10 frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) that are 20 MHz refers to PRB#72 to PRB#79 greater than 6 dB and less than or equal to 8 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
PRB range of subband 10 according to This measurement is provided for Subband 10 frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) that are 20 MHz refers to PRB#72 to PRB#79 greater than 8 dB and less than or equal to 10
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
dB. range of subband 10 according to 10 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) that are 20 MHz refers to PRB#72 to PRB#79 greater than 10 dB and less than or equal to 12 dB. PRB range of subband 10 according to frequency: 15 MHz refers to PRB#72 to PRB#74 20 MHz refers to PRB#72 to PRB#79
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 10 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 12 dB and less than or equal to 14 db. range of subband 10 according to 10 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) that are 20 MHz refers to PRB#72 to PRB#79 greater than 14 dB and less than or equal to 16
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
dB. range of subband 10 according to 10 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) that are 20 MHz refers to PRB#72 to PRB#79 greater than 16 dB and less than or equal to 18
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
dB. range of subband 10 according to 10 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) that are 20 MHz refers to PRB#72 to PRB#79 greater than 18 dB and less than or equal to 20
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
dB. range of subband 10 according to 10 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) that are 20 MHz refers to PRB#72 to PRB#79 greater than 20 dB and less than or equal to 22
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
dB. range of subband 10 according to 10 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) that are 20 MHz refers to PRB#72 to PRB#79 greater than 22 dB and less than or equal to 24
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
dB. range of subband 10 according to 10 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) that are 20 MHz refers to PRB#72 to PRB#79 greater than 24 dB and less than or equal to 26
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
dB. range of subband 10 according to 10 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) that are 20 MHz refers to PRB#72 to PRB#79 greater than 26 dB and less than or equal to 28
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
dB. range of subband 10 according to 10 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) that are 20 MHz refers to PRB#72 to PRB#79 greater than 28 dB and less than or equal to 30
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
dB. range of subband 10 according to 11 ThisPRB measurement is provided for Subband frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) that are 20 MHz refers to PRB#72 to PRB#79 greater than or equal to -10 dB and less than or
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
equal to -8 dB. Subband 11 for for 20 Subband MHz refers This measurement is provided 11to PRB#80 to PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than -8 dB and less than or equal to -6 dB. 11 foris20provided MHz refers to PRB#80 ThisSubband measurement for Subband 11to PRB#87. downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than -6 dB and less than or equal to -4 dB. Subband 11 for 20 MHz refers to PRB#80 to PRB#87.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 11 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than -4 dB and less than or equal to -2 dB. 11 foris20provided MHz refers to PRB#80 ThisSubband measurement for Subband 11to PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than -2 dB and less than or equal to 0 dB. Subband 11 for 20 MHz refers to This measurement is provided forPRB#80 Subbandto11 PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 0 dB and less than or equal to 2 dB. Subband 11 for 20 MHz refers to This measurement is provided forPRB#80 Subbandto11 PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 2 dB and less than or equal to 4 dB. Subband 11 for 20 MHz refers to This measurement is provided forPRB#80 Subbandto11 PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 4 dB and less than or equal to 6 dB. Subband 11 for 20 MHz refers to This measurement is provided forPRB#80 Subbandto11 PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 6 dB and less than or equal to 8 dB. Subband 11 for 20 MHz refers to This measurement is provided forPRB#80 Subbandto11 PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 8 dB and less than or equal to 10 dB. 11 foris20provided MHz refers to PRB#80 ThisSubband measurement for Subband 11to PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 10 dB and less than or equal to 12 dB. 11 foris20provided MHz refers to PRB#80 ThisSubband measurement for Subband 11to PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 12 dB and less than or equal to 14 db. 11 for is 20provided MHz refers to PRB#80 ThisSubband measurement for Subband 11to PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 14 dB and less than or equal to 16 dB. 11 foris20provided MHz refers to PRB#80 ThisSubband measurement for Subband 11to PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 16 dB and less than or equal to 18 dB. 11 foris20provided MHz refers to PRB#80 ThisSubband measurement for Subband 11to PRB#87. downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 18 dB and less than or equal to 20 dB. Subband 11 for 20 MHz refers to PRB#80 to PRB#87.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 11 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 20 dB and less than or equal to 22 dB. 11 foris20provided MHz refers to PRB#80 ThisSubband measurement for Subband 11to PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 22 dB and less than or equal to 24 dB. 11 foris20provided MHz refers to PRB#80 ThisSubband measurement for Subband 11to PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 24 dB and less than or equal to 26 dB. 11 foris20provided MHz refers to PRB#80 ThisSubband measurement for Subband 11to PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 26 dB and less than or equal to 28 dB. 11 foris20provided MHz refers to PRB#80 ThisSubband measurement for Subband 11to PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 28 dB and less than or equal to 30 dB. 11 foris20provided MHz refers to PRB#80 ThisSubband measurement for Subband 12to PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than or equal to -10 dB and less than or equal to -8 dB. Subband 12 for for 20 Subband MHz refers This measurement is provided 12to PRB#88 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than -8 dB and less than or equal to -6 dB. 12 foris20provided MHz refers to PRB#88 ThisSubband measurement for Subband 12 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than -6 dB and less than or equal to -4 dB. 12 foris20provided MHz refers to PRB#88 ThisSubband measurement for Subband 12 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than -4 dB and less than or equal to -2 dB. 12 foris20provided MHz refers to PRB#88 ThisSubband measurement for Subband 12 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than -2 dB and less than or equal to 0 dB. Subband 12 for 20 MHz refers for to PRB#88 This measurement is provided Subbandto12 PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 0 dB and less than or equal to 2 dB. Subband 12 for 20 MHz refers for to PRB#88 This measurement is provided Subbandto12 PRB#95. downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 2 dB and less than or equal to 4 dB. Subband 12 for 20 MHz refers to PRB#88 to PRB#95.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 12 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 4 dB and less than or equal to 6 dB. Subband 12 for 20 MHz refers for to PRB#88 This measurement is provided Subbandto12 PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 6 dB and less than or equal to 8 dB. Subband 12 for 20 MHz refers for to PRB#88 This measurement is provided Subbandto12 PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 8 dB and less than or equal to 10 dB. 12 foris20provided MHz refers to PRB#88 ThisSubband measurement for Subband 12 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 10 dB and less than or equal to 12 dB. 12 foris20provided MHz refers to PRB#88 ThisSubband measurement for Subband 12 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 12 dB and less than or equal to 14 db. 12 for is20provided MHz refers to PRB#88 ThisSubband measurement for Subband 12to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 14 dB and less than or equal to 16 dB. 12 foris20provided MHz refers to PRB#88 ThisSubband measurement for Subband 12 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 16 dB and less than or equal to 18 dB. 12 foris20provided MHz refers to PRB#88 ThisSubband measurement for Subband 12 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 18 dB and less than or equal to 20 dB. 12 foris20provided MHz refers to PRB#88 ThisSubband measurement for Subband 12 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 20 dB and less than or equal to 22 dB. 12 foris20provided MHz refers to PRB#88 ThisSubband measurement for Subband 12 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 22 dB and less than or equal to 24 dB. 12 foris20provided MHz refers to PRB#88 ThisSubband measurement for Subband 12 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 24 dB and less than or equal to 26 dB. 12 foris20provided MHz refers to PRB#88 ThisSubband measurement for Subband 12 to PRB#95. downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 26 dB and less than or equal to 28 dB. Subband 12 for 20 MHz refers to PRB#88 to PRB#95.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 12 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 28 dB and less than or equal to 30 dB. 12 foris20provided MHz refers to PRB#88 ThisSubband measurement for Subband 13 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than or equal to -10 dB and less than or equal to -8 dB. Subband 13 for for 20 Subband MHz refers This measurement is provided 13to PRB#96 to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than -8 dB and less than or equal to -6 dB. 13 foris20provided MHz refers to PRB#96 ThisSubband measurement for Subband 13 to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than -6 dB and less than or equal to -4 dB. 13 foris20provided MHz refers to PRB#96 ThisSubband measurement for Subband 13 to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than -4 dB and less than or equal to -2 dB. 13 foris20provided MHz refers to PRB#96 ThisSubband measurement for Subband 13 to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than -2 dB and less than or equal to 0 dB. Subband 13 for 20 MHz refers for to PRB#96 This measurement is provided Subbandto13 PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 0 dB and less than or equal to 2 dB. Subband 13 for 20 MHz refers for to PRB#96 This measurement is provided Subbandto13 PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 2 dB and less than or equal to 4 dB. Subband 13 for 20 MHz refers for to PRB#96 This measurement is provided Subbandto13 PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 4 dB and less than or equal to 6 dB. Subband 13 for 20 MHz refers for to PRB#96 This measurement is provided Subbandto13 PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 6 dB and less than or equal to 8 dB. Subband 13 for 20 MHz refers for to PRB#96 This measurement is provided Subbandto13 PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 8 dB and less than or equal to 10 dB. 13 foris20provided MHz refers to PRB#96 ThisSubband measurement for Subband 13 to PRB#99. downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 10 dB and less than or equal to 12 dB. Subband 13 for 20 MHz refers to PRB#96 to PRB#99.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 13 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 12 dB and less than or equal to 14 db. 13 for is20provided MHz refers to PRB#96 ThisSubband measurement for Subband 13to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 14 dB and less than or equal to 16 dB. 13 foris20provided MHz refers to PRB#96 ThisSubband measurement for Subband 13 to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 16 dB and less than or equal to 18 dB. 13 foris20provided MHz refers to PRB#96 ThisSubband measurement for Subband 13 to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 18 dB and less than or equal to 20 dB. 13 foris20provided MHz refers to PRB#96 ThisSubband measurement for Subband 13 to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 20 dB and less than or equal to 22 dB. 13 foris20provided MHz refers to PRB#96 ThisSubband measurement for Subband 13 to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 22 dB and less than or equal to 24 dB. 13 foris20provided MHz refers to PRB#96 ThisSubband measurement for Subband 13 to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 24 dB and less than or equal to 26 dB. 13 foris20provided MHz refers to PRB#96 ThisSubband measurement for Subband 13 to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 26 dB and less than or equal to 28 dB. 13 foris20provided MHz refers to PRB#96 ThisSubband measurement for Subband 13 to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than 28 dB and less than or equal to 30 dB. 13 foris20provided MHz refers to PRB#96 ThisSubband measurement for Subband 1 to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than or equal to -10 dB less than orisequal to -8 for dB.Subband PRB range Thisand measurement provided 1 of subband 1 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0(2toCQIs PRB#3 (SINR) post-compensation or 10 MHz refers to PRB#0 to PRB#5 codewords) that are greater than -8 dB and less 15 MHz and 20 refers PRB#0 to PRB#71 than or equal to MHz -6 dB. PRBto range of subband This measurement is provided for Subband 1 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0(2toCQIs PRB#3 (SINR) post-compensation or 10 MHz refers to PRB#0 to PRB#5 codewords) that are greater than -6 dB and less 15 MHz and 20 refers PRB#0 to PRB#71 than or equal to MHz -4 dB. PRBto range of subband according to frequency: 3 MHz and 5 MHz refers to PRB#0 to PRB#3 10 MHz refers to PRB#0 to PRB#5 15 MHz and 20 MHz refers to PRB#0 to PRB#7
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 1 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than -4 dB and less than or equal to -2 dB. PRB range of subband This measurement is provided for Subband 1 1 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0(2toCQIs PRB#3 (SINR) post-compensation or 10 MHz refers to PRB#0 to PRB#5 codewords) that are greater than -2 dB and less 15 MHz and 20 refers to PRB#0 to PRB#7 than or equal to MHz 0 dB. PRB range subband This measurement is provided for of Subband 11 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0(2toCQIs PRB#3 (SINR) post-compensation or 10 MHz refers to PRB#0 to PRB#5 codewords) that are greater than 0 dB and less 15 MHz and 20 refers to PRB#0 to PRB#7 than or equal to MHz 2 dB. PRB range subband This measurement is provided for of Subband 11 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0(2toCQIs PRB#3 (SINR) post-compensation or 10 MHz refers to PRB#0 to PRB#5 codewords) that are greater than 2 dB and less 15 MHz and 20 refers to PRB#0 to PRB#7 than or equal to MHz 4 dB. PRB range subband This measurement is provided for of Subband 11 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0(2toCQIs PRB#3 (SINR) post-compensation or 10 MHz refers to PRB#0 to PRB#5 codewords) that are greater than 4 dB and less 15 MHz and 20 refers to PRB#0 to PRB#7 than or equal to MHz 6 dB. PRB range subband This measurement is provided for of Subband 11 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0(2toCQIs PRB#3 (SINR) post-compensation or 10 MHz refers to PRB#0 to PRB#5 codewords) that are greater than 6 dB and less 15 MHz and 20 refers to PRB#0 to PRB#7 than or equal to MHz 8 dB. PRB range subband This measurement is provided for of Subband 11 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0(2toCQIs PRB#3 (SINR) post-compensation or 10 MHz refers to PRB#0 to PRB#5 codewords) that are greater than 8 dB and less 15 MHz and 20 refers PRB#0 to PRB#71 than or equal to MHz 10 is dB. PRBtorange of subband This measurement provided for Subband 1 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0(2toCQIs PRB#3 (SINR) post-compensation or 10 MHz refers to PRB#0 to PRB#5 codewords) that are greater than 10 dB and less 15 MHz and 20 refers PRB#0 to PRB#71 than or equal to MHz 12 is dB. PRBtorange of subband This measurement provided for Subband 1 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0(2toCQIs PRB#3 (SINR) post-compensation or 10 MHz refers to PRB#0 to PRB#5 codewords) that are greater than 12 dB and less 15 MHz and 20 refers PRB#0 to PRB#71 than or equal to MHz 14 is db. PRBtorange of subband This measurement provided for Subband 1 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0(2toCQIs PRB#3 (SINR) post-compensation or 10 MHz refers to PRB#0 to PRB#5 codewords) that are greater than 14 dB and less 15 MHz and 20 refers PRB#0 to PRB#71 than or equal to MHz 16 is dB. PRBtorange of subband This measurement provided for Subband 1 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0(2toCQIs PRB#3 (SINR) post-compensation or 10 MHz refers to PRB#0 to PRB#5 codewords) that are greater than 16 dB and less 15 MHz and 20 refers PRB#0 to PRB#71 than or equal to MHz 18 is dB. PRBtorange of subband This measurement provided for Subband 1 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0(2toCQIs PRB#3 (SINR) post-compensation or 10 MHz refers to PRB#0 to PRB#5 codewords) that are greater than 18 dB and less 15 MHz and 20 refers PRB#0 to PRB#71 than or equal to MHz 20 dB. PRBtorange of subband according to frequency: 3 MHz and 5 MHz refers to PRB#0 to PRB#3 10 MHz refers to PRB#0 to PRB#5 15 MHz and 20 MHz refers to PRB#0 to PRB#7
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 1 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 20 dB and less than or equal to 22 is dB. PRB range of subband This measurement provided for Subband 1 1 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0(2toCQIs PRB#3 (SINR) post-compensation or 10 MHz refers to PRB#0 to PRB#5 codewords) that are greater than 22 dB and less 15 MHz and 20 refers PRB#0 to PRB#71 than or equal to MHz 24 is dB. PRBtorange of subband This measurement provided for Subband 1 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0(2toCQIs PRB#3 (SINR) post-compensation or 10 MHz refers to PRB#0 to PRB#5 codewords) that are greater than 24 dB and less 15 MHz and 20 refers PRB#0 to PRB#71 than or equal to MHz 26 is dB. PRBtorange of subband This measurement provided for Subband 1 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0(2toCQIs PRB#3 (SINR) post-compensation or 10 MHz refers to PRB#0 to PRB#5 codewords) that are greater than 26 dB and less 15 MHz and 20 refers PRB#0 to PRB#71 than or equal to MHz 28 is dB. PRBtorange of subband This measurement provided for Subband 1 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0(2toCQIs PRB#3 (SINR) post-compensation or 10 MHz refers to PRB#0 to PRB#5 codewords) that are greater than 28 dB and less 15 MHz and 20 refers PRB#0 to PRB#71 than or equal to MHz 30 is dB. PRBtorange of subband This measurement provided for Subband 2 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#0(2toCQIs PRB#3 (SINR) post-compensation or 10 MHz refers to PRB#0 to PRB#5 codewords) that are greater than or equal to -10 15 MHzless and than 20 MHz referstoto-8PRB#0 to PRB#7 dB orisequal dB.Subband PRB range Thisand measurement provided for 2 of subband 2 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4(2toCQIs PRB#7 (SINR) post-compensation or 10 MHz refers to PRB#6 to PRB#11 codewords) that are greater than -8 dB and less 15 MHz and 20 refers PRB#8 to PRB#15 than or equal to MHz -6 dB. PRBto range of subband This measurement is provided for Subband 2 2 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4(2toCQIs PRB#7 (SINR) post-compensation or 10 MHz refers to PRB#6 to PRB#11 codewords) that are greater than -6 dB and less 15 MHz and 20 refers PRB#8 to PRB#15 than or equal to MHz -4 dB. PRBto range of subband This measurement is provided for Subband 2 2 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4(2toCQIs PRB#7 (SINR) post-compensation or 10 MHz refers to PRB#6 to PRB#11 codewords) that are greater than -4 dB and less 15 MHz and 20 refers PRB#8 to PRB#15 than or equal to MHz -2 dB. PRBto range of subband This measurement is provided for Subband 2 2 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4(2toCQIs PRB#7 (SINR) post-compensation or 10 MHz refers to PRB#6 to PRB#11 codewords) that are greater than -2 dB and less 15 MHz and 20 refers to PRB#8 to PRB#15 than or equal to MHz 0 dB. PRB range subband This measurement is provided for of Subband 22 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4(2toCQIs PRB#7 (SINR) post-compensation or 10 MHz refers to PRB#6 to PRB#11 codewords) that are greater than 0 dB and less 15 MHz and 20 refers to PRB#8 to PRB#15 than or equal to MHz 2 dB. PRB range subband This measurement is provided for of Subband 22 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4(2toCQIs PRB#7 (SINR) post-compensation or 10 MHz refers to PRB#6 to PRB#11 codewords) that are greater than 2 dB and less 15 MHz and 20 to PRB#8 to PRB#15 than or equal to MHz 4 dB.refers PRB range of subband 2 according to frequency: 3 MHz and 5 MHz refers to PRB#4 to PRB#7 10 MHz refers to PRB#6 to PRB#11 15 MHz and 20 MHz refers to PRB#8 to PRB#15
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 2 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 4 dB and less than or equal to 6 dB. PRB range subband This measurement is provided for of Subband 22 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4(2toCQIs PRB#7 (SINR) post-compensation or 10 MHz refers to PRB#6 to PRB#11 codewords) that are greater than 6 dB and less 15 MHz and 20 refers to PRB#8 to PRB#15 than or equal to MHz 8 dB. PRB range subband This measurement is provided for of Subband 22 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4(2toCQIs PRB#7 (SINR) post-compensation or 10 MHz refers to PRB#6 to PRB#11 codewords) that are greater than 8 dB and less 15 MHz and 20 refers PRB#8 to PRB#15 than or equal to MHz 10 is dB. PRBtorange of subband This measurement provided for Subband 2 2 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4(2toCQIs PRB#7 (SINR) post-compensation or 10 MHz refers to PRB#6 to PRB#11 codewords) that are greater than 10 dB and less 15 MHz and 20 refers PRB#8 to PRB#15 than or equal to MHz 12 is dB. PRBtorange of subband This measurement provided for Subband 2 2 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4(2toCQIs PRB#7 (SINR) post-compensation or 10 MHz refers to PRB#6 to PRB#11 codewords) that are greater than 12 dB and less 15 MHz and 20 refers PRB#8 to PRB#15 than or equal to MHz 14 is db. PRBtorange of subband This measurement provided for Subband 2 2 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4(2toCQIs PRB#7 (SINR) post-compensation or 10 MHz refers to PRB#6 to PRB#11 codewords) that are greater than 14 dB and less 15 MHz and 20 refers PRB#8 to PRB#15 than or equal to MHz 16 is dB. PRBtorange of subband This measurement provided for Subband 2 2 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4(2toCQIs PRB#7 (SINR) post-compensation or 10 MHz refers to PRB#6 to PRB#11 codewords) that are greater than 16 dB and less 15 MHz and 20 refers PRB#8 to PRB#15 than or equal to MHz 18 is dB. PRBtorange of subband This measurement provided for Subband 2 2 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4(2toCQIs PRB#7 (SINR) post-compensation or 10 MHz refers to PRB#6 to PRB#11 codewords) that are greater than 18 dB and less 15 MHz and 20 refers PRB#8 to PRB#15 than or equal to MHz 20 is dB. PRBtorange of subband This measurement provided for Subband 2 2 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4(2toCQIs PRB#7 (SINR) post-compensation or 10 MHz refers to PRB#6 to PRB#11 codewords) that are greater than 20 dB and less 15 MHz and 20 refers PRB#8 to PRB#15 than or equal to MHz 22 is dB. PRBtorange of subband This measurement provided for Subband 2 2 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4(2toCQIs PRB#7 (SINR) post-compensation or 10 MHz refers to PRB#6 to PRB#11 codewords) that are greater than 22 dB and less 15 MHz and 20 refers PRB#8 to PRB#15 than or equal to MHz 24 is dB. PRBtorange of subband This measurement provided for Subband 2 2 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4(2toCQIs PRB#7 (SINR) post-compensation or 10 MHz refers to PRB#6 to PRB#11 codewords) that are greater than 24 dB and less 15 MHz and 20 refers PRB#8 to PRB#15 than or equal to MHz 26 is dB. PRBtorange of subband This measurement provided for Subband 2 2 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4(2toCQIs PRB#7 (SINR) post-compensation or 10 MHz refers to PRB#6 to PRB#11 codewords) that are greater than 26 dB and less 15 MHz and 20 refers PRB#8 to PRB#15 than or equal to MHz 28 dB. PRBtorange of subband 2 according to frequency: 3 MHz and 5 MHz refers to PRB#4 to PRB#7 10 MHz refers to PRB#6 to PRB#11 15 MHz and 20 MHz refers to PRB#8 to PRB#15
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 2 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 28 dB and less than or equal to 30 is dB. PRB range of subband This measurement provided for Subband 3 2 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#4(2toCQIs PRB#7 (SINR) post-compensation or 10 MHz refers to PRB#6 to PRB#11 codewords) that are greater than or equal to -10 15 MHzless and than 20 MHz referstoto-8PRB#8 to PRB#15 dB orisequal dB.Subband PRB range Thisand measurement provided for 3 of subband 3 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8(2toCQIs PRB#11 (SINR) post-compensation or 10 MHz refers to PRB#12 to PRB#17 codewords) that are greater than -8 dB and less 15 MHz and 20 refers PRB#16 to than or equal to MHz -6 dB. PRBto range of subband This measurement is provided for Subband 3 3 PRB#23 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8(2toCQIs PRB#11 (SINR) post-compensation or 10 MHz refers to PRB#12 to PRB#17 codewords) that are greater than -6 dB and less 15 MHz and 20 refers PRB#16 to than or equal to MHz -4 dB. PRBto range of subband This measurement is provided for Subband 3 3 PRB#23 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8(2toCQIs PRB#11 (SINR) post-compensation or 10 MHz refers to PRB#12 to PRB#17 codewords) that are greater than -4 dB and less 15 MHz and 20 refers PRB#16 to than or equal to MHz -2 dB. PRBto range of subband This measurement is provided for Subband 3 3 PRB#23 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8(2toCQIs PRB#11 (SINR) post-compensation or 10 MHz refers to PRB#12 to PRB#17 codewords) that are greater than -2 dB and less 15 MHz and 20 refers to PRB#16 to than or equal to MHz 0 dB. PRB range subband This measurement is provided for of Subband 33 PRB#23 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8(2toCQIs PRB#11 (SINR) post-compensation or 10 MHz refers to PRB#12 to PRB#17 codewords) that are greater than 0 dB and less 15 MHz and 20 refers to PRB#16 to than or equal to MHz 2 dB. PRB range subband This measurement is provided for of Subband 33 PRB#23 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8(2toCQIs PRB#11 (SINR) post-compensation or 10 MHz refers to PRB#12 to PRB#17 codewords) that are greater than 2 dB and less 15 MHz and 20 refers to PRB#16 to than or equal to MHz 4 dB. PRB range subband This measurement is provided for of Subband 33 PRB#23 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8(2toCQIs PRB#11 (SINR) post-compensation or 10 MHz refers to PRB#12 to PRB#17 codewords) that are greater than 4 dB and less 15 MHz and 20 refers to PRB#16 to than or equal to MHz 6 dB. PRB range subband This measurement is provided for of Subband 33 PRB#23 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8(2toCQIs PRB#11 (SINR) post-compensation or 10 MHz refers to PRB#12 to PRB#17 codewords) that are greater than 6 dB and less 15 MHz and 20 refers to PRB#16 to than or equal to MHz 8 dB. PRB range subband This measurement is provided for of Subband 33 PRB#23 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8(2toCQIs PRB#11 (SINR) post-compensation or 10 MHz refers to PRB#12 to PRB#17 codewords) that are greater than 8 dB and less 15 MHz and 20 refers PRB#16 to than or equal to MHz 10 is dB. PRBtorange of subband This measurement provided for Subband 3 3 PRB#23 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8(2toCQIs PRB#11 (SINR) post-compensation or 10 MHz refers to PRB#12 to PRB#17 codewords) that are greater than 10 dB and less 15 MHz and 20 refers PRB#16 to than or equal to MHz 12 dB. PRBtorange of subband 3 PRB#23 according to frequency: 3 MHz and 5 MHz refers to PRB#8 to PRB#11 10 MHz refers to PRB#12 to PRB#17 15 MHz and 20 MHz refers to PRB#16 to PRB#23
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 3 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 12 dB and less than or equal to 14 is db.provided PRB range of subband This measurement for Subband 3 3 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8(2toCQIs PRB#11 (SINR) post-compensation or 10 MHz refers to PRB#12 to PRB#17 codewords) that are greater than 14 dB and less 15 MHz and 20 refers PRB#16 to than or equal to MHz 16 is dB. PRBtorange of subband This measurement provided for Subband 3 3 PRB#23 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8(2toCQIs PRB#11 (SINR) post-compensation or 10 MHz refers to PRB#12 to PRB#17 codewords) that are greater than 16 dB and less 15 MHz and 20 refers PRB#16 to than or equal to MHz 18 is dB. PRBtorange of subband This measurement provided for Subband 3 3 PRB#23 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8(2toCQIs PRB#11 (SINR) post-compensation or 10 MHz refers to PRB#12 to PRB#17 codewords) that are greater than 18 dB and less 15 MHz and 20 refers PRB#16 to than or equal to MHz 20 is dB. PRBtorange of subband This measurement provided for Subband 3 3 PRB#23 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8(2toCQIs PRB#11 (SINR) post-compensation or 10 MHz refers to PRB#12 to PRB#17 codewords) that are greater than 20 dB and less 15 MHz and 20 refers PRB#16 to than or equal to MHz 22 is dB. PRBtorange of subband This measurement provided for Subband 3 3 PRB#23 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8(2toCQIs PRB#11 (SINR) post-compensation or 10 MHz refers to PRB#12 to PRB#17 codewords) that are greater than 22 dB and less 15 MHz and 20 refers PRB#16 to than or equal to MHz 24 is dB. PRBtorange of subband This measurement provided for Subband 3 3 PRB#23 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8(2toCQIs PRB#11 (SINR) post-compensation or 10 MHz refers to PRB#12 to PRB#17 codewords) that are greater than 24 dB and less 15 MHz and 20 refers PRB#16 to than or equal to MHz 26 is dB. PRBtorange of subband This measurement provided for Subband 3 3 PRB#23 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8(2toCQIs PRB#11 (SINR) post-compensation or 10 MHz refers to PRB#12 to PRB#17 codewords) that are greater than 26 dB and less 15 MHz and 20 refers PRB#16 to than or equal to MHz 28 is dB. PRBtorange of subband This measurement provided for Subband 3 3 PRB#23 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8(2toCQIs PRB#11 (SINR) post-compensation or 10 MHz refers to PRB#12 to PRB#17 codewords) that are greater than 28 dB and less 15 MHz and 20 refers PRB#16 to than or equal to MHz 30 is dB. PRBtorange of subband This measurement provided for Subband 4 3 PRB#23 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8(2toCQIs PRB#11 (SINR) post-compensation or 10 MHz refers to PRB#12 to PRB#17 codewords) that are greater than or equal to -10 15 MHz and than 20 MHz referstoto-8PRB#16 dB and less orisequal dB.Subband PRBtorange This measurement provided for 4 of PRB#23 subband 4 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation (2 CQIs or 5 MHz refers to PRB#12 to codewords) that are greaterPRB#15 than -8 dB and less 10 MHz referstoto-6PRB#18 torange PRB#23 than or equal dB. PRB of subband 4 This measurement is refers provided for Subband 15 MHz and 20 MHz to PRB#24 to 4 according to frequency: downlink Signal to Interference and Noise Ratio PRB#31 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation (2 CQIs or 5 MHz refers to PRB#12 to codewords) that are greaterPRB#15 than -6 dB and less 10 MHz referstoto-4PRB#18 torange PRB#23 than or equal dB. PRB of subband 4 15 MHz and 20 MHz refers to PRB#24 to according to frequency: PRB#31 3 MHz refers to PRB#12 to PRB#14 5 MHz refers to PRB#12 to PRB#15 10 MHz refers to PRB#18 to PRB#23 15 MHz and 20 MHz refers to PRB#24 to PRB#31
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 4 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than -4 dB and less than or equal to -2 dB. PRB range of subband This measurement is provided for Subband 4 4 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation (2 CQIs or 5 MHz refers to PRB#12 to codewords) that are greaterPRB#15 than -2 dB and less 10 MHz referstoto0PRB#18 PRB#23 than or equal dB. PRBtorange subband 4 This measurement is refers provided for of Subband 15 MHz and 20 MHz to PRB#24 to 4 according to frequency: downlink Signal to Interference and Noise Ratio PRB#31 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation (2 CQIs or 5 MHz refers to PRB#12 to codewords) that are greaterPRB#15 than 0 dB and less 10 MHz referstoto2PRB#18 PRB#23 than or equal dB. PRBtorange subband 4 This measurement is refers provided for of Subband 15 MHz and 20 MHz to PRB#24 to 4 according to frequency: downlink Signal to Interference and Noise Ratio PRB#31 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation (2 CQIs or 5 MHz refers to PRB#12 to codewords) that are greaterPRB#15 than 2 dB and less 10 MHz referstoto4PRB#18 PRB#23 than or equal dB. PRBtorange subband 4 This measurement is refers provided for of Subband 15 MHz and 20 MHz to PRB#24 to 4 according to frequency: downlink Signal to Interference and Noise Ratio PRB#31 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation (2 CQIs or 5 MHz refers to PRB#12 to codewords) that are greaterPRB#15 than 4 dB and less 10 MHz referstoto6PRB#18 PRB#23 than or equal dB. PRBtorange subband 4 This measurement is refers provided for of Subband 15 MHz and 20 MHz to PRB#24 to 4 according to frequency: downlink Signal to Interference and Noise Ratio PRB#31 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation (2 CQIs or 5 MHz refers to PRB#12 to codewords) that are greaterPRB#15 than 6 dB and less 10 MHz referstoto8PRB#18 PRB#23 than or equal dB. PRBtorange subband 4 This measurement is refers provided for of Subband 15 MHz and 20 MHz to PRB#24 to 4 according to frequency: downlink Signal to Interference and Noise Ratio PRB#31 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation (2 CQIs or 5 MHz refers to PRB#12 to codewords) that are greaterPRB#15 than 8 dB and less 10 MHz referstoto10 PRB#18 to range PRB#23 than or equal dB. PRB of subband 4 This measurement is provided for Subband 15 MHz and 20 MHz refers to PRB#24 to 4 according to frequency: downlink Signal to Interference and Noise Ratio PRB#31 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation (2 CQIs or 5 MHz refers to PRB#12 to codewords) that are greaterPRB#15 than 10 dB and less 10 MHz referstoto12 PRB#18 to range PRB#23 than or equal dB. PRB of subband 4 This measurement is provided for Subband 15 MHz and 20 MHz refers to PRB#24 to 4 according to frequency: downlink Signal to Interference and Noise Ratio PRB#31 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation (2 CQIs or 5 MHz refers to PRB#12 to codewords) that are greaterPRB#15 than 12 dB and less 10 MHz referstoto14 PRB#18 to range PRB#23 than or equal db.provided PRB of subband 4 This measurement is for Subband 15 MHz and 20 MHz refers to PRB#24 to 4 according to frequency: downlink Signal to Interference and Noise Ratio PRB#31 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation (2 CQIs or 5 MHz refers to PRB#12 to codewords) that are greaterPRB#15 than 14 dB and less 10 MHz referstoto16 PRB#18 to range PRB#23 than or equal dB. PRB of subband 4 This measurement is provided for Subband 15 MHz and 20 MHz refers to PRB#24 to 4 according to frequency: downlink Signal to Interference and Noise Ratio PRB#31 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation (2 CQIs or 5 MHz refers to PRB#12 to codewords) that are greaterPRB#15 than 16 dB and less 10 MHz referstoto18 PRB#18 to range PRB#23 than or equal dB. PRB of subband 4 This measurement is provided for Subband 15 MHz and 20 MHz refers to PRB#24 to 4 according to frequency: downlink Signal to Interference and Noise Ratio PRB#31 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation (2 CQIs or 5 MHz refers to PRB#12 to codewords) that are greaterPRB#15 than 18 dB and less 10 MHz referstoto20 PRB#18 to range PRB#23 than or equal dB. PRB of subband 4 15 MHz and 20 MHz refers to PRB#24 to according to frequency: PRB#31 3 MHz refers to PRB#12 to PRB#14 5 MHz refers to PRB#12 to PRB#15 10 MHz refers to PRB#18 to PRB#23 15 MHz and 20 MHz refers to PRB#24 to PRB#31
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 4 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 20 dB and less than or equal to 22 is dB. PRB range of subband This measurement provided for Subband 4 4 according to frequency: downlink Signal to Interference and Noise Ratio 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation (2 CQIs or 5 MHz refers to PRB#12 to codewords) that are greaterPRB#15 than 22 dB and less 10 MHz referstoto24 PRB#18 to range PRB#23 than or equal dB. PRB of subband 4 This measurement is provided for Subband 15 MHz and 20 MHz refers to PRB#24 to 4 according to frequency: downlink Signal to Interference and Noise Ratio PRB#31 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation (2 CQIs or 5 MHz refers to PRB#12 to codewords) that are greaterPRB#15 than 24 dB and less 10 MHz referstoto26 PRB#18 to range PRB#23 than or equal dB. PRB of subband 4 This measurement is provided for Subband 15 MHz and 20 MHz refers to PRB#24 to 4 according to frequency: downlink Signal to Interference and Noise Ratio PRB#31 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation (2 CQIs or 5 MHz refers to PRB#12 to codewords) that are greaterPRB#15 than 26 dB and less 10 MHz referstoto28 PRB#18 to range PRB#23 than or equal dB. PRB of subband 4 This measurement is provided for Subband 15 MHz and 20 MHz refers to PRB#24 to 4 according to frequency: downlink Signal to Interference and Noise Ratio PRB#31 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation (2 CQIs or 5 MHz refers to PRB#12 to codewords) that are greaterPRB#15 than 28 dB and less 10 MHz referstoto30 PRB#18 to range PRB#23 than or equal dB. PRB of subband 4 This measurement is provided for Subband 15 MHz and 20 MHz refers to PRB#24 to 5 according to frequency: downlink Signal to Interference and Noise Ratio PRB#31 3 MHz refers to PRB#12 to values PRB#14 (SINR) post-compensation (2 CQIs or 5 MHz refers to PRB#12 to codewords) that are greaterPRB#15 than or equal to -10 10 MHz refers to PRB#18 to -8 PRB#23 dB and less than orisequal to dB.Subband PRB range of This measurement provided for 15 MHz and 20 MHz refers to PRB#24 to 5 subband 5 according to frequency: downlink Signal to Interference and Noise Ratio PRB#31 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#24 to PRB#29 codewords) that are greater than -8 dB and less 15 MHz and 20 refers PRB#32 to than or equal to MHz -6 dB. PRBto range of subband This measurement is provided for Subband 5 5 PRB#39 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#24 to PRB#29 codewords) that are greater than -6 dB and less 15 MHz and 20 refers PRB#32 to than or equal to MHz -4 dB. PRBto range of subband This measurement is provided for Subband 5 5 PRB#39 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#24 to PRB#29 codewords) that are greater than -4 dB and less 15 MHz and 20 refers PRB#32 to than or equal to MHz -2 dB. PRBto range of subband This measurement is provided for Subband 5 5 PRB#39 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#24 to PRB#29 codewords) that are greater than -2 dB and less 15 MHz and 20 refers to PRB#32 to than or equal to MHz 0 dB. PRB range subband This measurement is provided for of Subband 55 PRB#39 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#24 to PRB#29 codewords) that are greater than 0 dB and less 15 MHz and 20 refers to PRB#32 to than or equal to MHz 2 dB. PRB range subband This measurement is provided for of Subband 55 PRB#39 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#24 to PRB#29 codewords) that are greater than 2 dB and less 15 MHz and 20 to PRB#32 to than or equal to MHz 4 dB.refers PRB range of subband 5 PRB#39 according to frequency: 5 MHz refers to PRB#16 to PRB#19 10 MHz refers to PRB#24 to PRB#29 15 MHz and 20 MHz refers to PRB#32 to PRB#39
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 5 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 4 dB and less than or equal to 6 dB. PRB range subband This measurement is provided for of Subband 55 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#24 to PRB#29 codewords) that are greater than 6 dB and less 15 MHz and 20 refers to PRB#32 to than or equal to MHz 8 dB. PRB range subband This measurement is provided for of Subband 55 PRB#39 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#24 to PRB#29 codewords) that are greater than 8 dB and less 15 MHz and 20 refers PRB#32 to than or equal to MHz 10 is dB. PRBtorange of subband This measurement provided for Subband 5 5 PRB#39 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#24 to PRB#29 codewords) that are greater than 10 dB and less 15 MHz and 20 refers PRB#32 to than or equal to MHz 12 is dB. PRBtorange of subband This measurement provided for Subband 5 5 PRB#39 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#24 to PRB#29 codewords) that are greater than 12 dB and less 15 MHz and 20 refers PRB#32 to than or equal to MHz 14 is dB. PRBtorange of subband This measurement provided for Subband 5 5 PRB#39 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#24 to PRB#29 codewords) that are greater than 14 dB and less 15 MHz and 20 refers PRB#32 to than or equal to MHz 16 is dB. PRBtorange of subband This measurement provided for Subband 5 5 PRB#39 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#24 to PRB#29 codewords) that are greater than 16 dB and less 15 MHz and 20 refers PRB#32 to than or equal to MHz 18 is dB. PRBtorange of subband This measurement provided for Subband 5 5 PRB#39 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#24 to PRB#29 codewords) that are greater than 18 dB and less 15 MHz and 20 refers PRB#32 to than or equal to MHz 20 is dB. PRBtorange of subband This measurement provided for Subband 5 5 PRB#39 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#24 to PRB#29 codewords) that are greater than 20 dB and less 15 MHz and 20 refers PRB#32 to than or equal to MHz 22 is dB. PRBtorange of subband This measurement provided for Subband 5 5 PRB#39 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#24 to PRB#29 codewords) that are greater than 22 dB and less 15 MHz and 20 refers PRB#32 to than or equal to MHz 24 is dB. PRBtorange of subband This measurement provided for Subband 5 5 PRB#39 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#24 to PRB#29 codewords) that are greater than 24 dB and less 15 MHz and 20 refers PRB#32 to than or equal to MHz 26 is dB. PRBtorange of subband This measurement provided for Subband 5 5 PRB#39 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#24 to PRB#29 codewords) that are greater than 26 dB and less 15 MHz and 20 refers PRB#32 to than or equal to MHz 28 dB. PRBtorange of subband 5 PRB#39 according to frequency: 5 MHz refers to PRB#16 to PRB#19 10 MHz refers to PRB#24 to PRB#29 15 MHz and 20 MHz refers to PRB#32 to PRB#39
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 5 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 28 dB and less than or equal to 30 is dB. PRB range of subband This measurement provided for Subband 6 5 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#16 to values PRB#19 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#24 to PRB#29 codewords) that are greater than or equal to -10 15 MHz and than 20 MHz referstoto-8PRB#32 dB and less orisequal dB.Subband PRBtorange This measurement provided for 6 of PRB#39 subband 6 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#30 to PRB#35 codewords) that are greater than -8 dB and less 15 MHz and 20 refers PRB#40 to than or equal to MHz -6 dB. PRBto range of subband This measurement is provided for Subband 6 6 PRB#47 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#30 to PRB#35 codewords) that are greater than -6 dB and less 15 MHz and 20 refers PRB#40 to than or equal to MHz -4 dB. PRBto range of subband This measurement is provided for Subband 6 6 PRB#47 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#30 to PRB#35 codewords) that are greater than -4 dB and less 15 MHz and 20 refers PRB#40 to than or equal to MHz -2 dB. PRBto range of subband This measurement is provided for Subband 6 6 PRB#47 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#30 to PRB#35 codewords) that are greater than -2 dB and less 15 MHz and 20 refers to PRB#40 to than or equal to MHz 0 dB. PRB range subband This measurement is provided for of Subband 66 PRB#47 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#30 to PRB#35 codewords) that are greater than 0 dB and less 15 MHz and 20 refers to PRB#40 to than or equal to MHz 2 dB. PRB range subband This measurement is provided for of Subband 66 PRB#47 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#30 to PRB#35 codewords) that are greater than 2 dB and less 15 MHz and 20 refers to PRB#40 to than or equal to MHz 4 dB. PRB range subband This measurement is provided for of Subband 66 PRB#47 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#30 to PRB#35 codewords) that are greater than 4 dB and less 15 MHz and 20 refers to PRB#40 to than or equal to MHz 6 dB. PRB range subband This measurement is provided for of Subband 66 PRB#47 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#30 to PRB#35 codewords) that are greater than 6 dB and less 15 MHz and 20 refers to PRB#40 to than or equal to MHz 8 dB. PRB range subband This measurement is provided for of Subband 66 PRB#47 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#30 to PRB#35 codewords) that are greater than 8 dB and less 15 MHz and 20 refers PRB#40 to than or equal to MHz 10 is dB. PRBtorange of subband This measurement provided for Subband 6 6 PRB#47 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#30 to PRB#35 codewords) that are greater than 10 dB and less 15 MHz and 20 refers PRB#40 to than or equal to MHz 12 dB. PRBtorange of subband 6 PRB#47 according to frequency: 5 MHz refers to PRB#20 to PRB#23 10 MHz refers to PRB#30 to PRB#35 15 MHz and 20 MHz refers to PRB#40 to PRB#47
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 6 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 12 dB and less than or equal to 14 is db.provided PRB range of subband This measurement for Subband 6 6 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#30 to PRB#35 codewords) that are greater than 14 dB and less 15 MHz and 20 refers PRB#40 to than or equal to MHz 16 is dB. PRBtorange of subband This measurement provided for Subband 6 6 PRB#47 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#30 to PRB#35 codewords) that are greater than 16 dB and less 15 MHz and 20 refers PRB#40 to than or equal to MHz 18 is dB. PRBtorange of subband This measurement provided for Subband 6 6 PRB#47 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#30 to PRB#35 codewords) that are greater than 18 dB and less 15 MHz and 20 refers PRB#40 to than or equal to MHz 20 is dB. PRBtorange of subband This measurement provided for Subband 6 6 PRB#47 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#30 to PRB#35 codewords) that are greater than 20 dB and less 15 MHz and 20 refers PRB#40 to than or equal to MHz 22 is dB. PRBtorange of subband This measurement provided for Subband 6 6 PRB#47 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#30 to PRB#35 codewords) that are greater than 22 dB and less 15 MHz and 20 refers PRB#40 to than or equal to MHz 24 is dB. PRBtorange of subband This measurement provided for Subband 6 6 PRB#47 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#30 to PRB#35 codewords) that are greater than 24 dB and less 15 MHz and 20 refers PRB#40 to than or equal to MHz 26 is dB. PRBtorange of subband This measurement provided for Subband 6 6 PRB#47 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#30 to PRB#35 codewords) that are greater than 26 dB and less 15 MHz and 20 refers PRB#40 to than or equal to MHz 28 is dB. PRBtorange of subband This measurement provided for Subband 6 6 PRB#47 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#30 to PRB#35 codewords) that are greater than 28 dB and less 15 MHz and 20 refers PRB#40 to than or equal to MHz 30 is dB. PRBtorange of subband This measurement provided for Subband 7 6 PRB#47 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#20 to values PRB#23 (SINR) post-compensation (2 CQIs or 10 MHz refers to PRB#30 to PRB#35 codewords) that are greater than or equal to -10 15 MHz and than 20 MHz referstoto-8PRB#40 dB and less orisequal dB.Subband PRBtorange This measurement provided for 7 of PRB#47 subband 7 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values (2 CQIs or (SINR) post-compensation 10 MHz refers toare PRB#36 to than PRB#41 codewords) that greater -8 dB and less 15 MHz and 20 MHz refers to PRB#48 to than or equal to -6 dB. PRB range of subband This measurement is provided for Subband 7 7 PRB#55 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values (2 CQIs or (SINR) post-compensation 10 MHz refers toare PRB#36 to than PRB#41 codewords) that greater -6 dB and less 15 MHz and 20 MHz refers to PRB#48 to than or equal to -4 dB. PRB range of subband 7 PRB#55 according to frequency: 5 MHz refers to PRB#24 10 MHz refers to PRB#36 to PRB#41 15 MHz and 20 MHz refers to PRB#48 to PRB#55
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 7 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than -4 dB and less than or equal to -2 dB. PRB range of subband This measurement is provided for Subband 7 7 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values (2 CQIs or (SINR) post-compensation 10 MHz refers toare PRB#36 to than PRB#41 codewords) that greater -2 dB and less 15 MHz and 20 MHz refers to PRB#48 to than or equal to 0 dB. PRB range subband This measurement is provided for of Subband 77 PRB#55 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values (2 CQIs or (SINR) post-compensation 10 MHz refers toare PRB#36 to than PRB#41 codewords) that greater 0 dB and less 15 MHz and 20 MHz refers to PRB#48 to than or equal to 2 dB. PRB range subband This measurement is provided for of Subband 77 PRB#55 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values (2 CQIs or (SINR) post-compensation 10 MHz refers toare PRB#36 to than PRB#41 codewords) that greater 2 dB and less 15 MHz and 20 MHz refers to PRB#48 to than or equal to 4 dB. PRB range subband This measurement is provided for of Subband 77 PRB#55 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values (2 CQIs or (SINR) post-compensation 10 MHz refers toare PRB#36 to than PRB#41 codewords) that greater 4 dB and less 15 MHz and 20 MHz refers to PRB#48 to than or equal to 6 dB. PRB range subband This measurement is provided for of Subband 77 PRB#55 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values (2 CQIs or (SINR) post-compensation 10 MHz refers toare PRB#36 to than PRB#41 codewords) that greater 6 dB and less 15 MHz and 20 MHz refers to PRB#48 to than or equal to 8 dB. PRB range subband This measurement is provided for of Subband 77 PRB#55 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values (2 CQIs or (SINR) post-compensation 10 MHz refers toare PRB#36 to than PRB#41 codewords) that greater 8 dB and less 15 MHz and 20 MHz refers to PRB#48 to than or equal to 10 dB. PRB range of subband This measurement is provided for Subband 7 7 PRB#55 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values (2 CQIs or (SINR) post-compensation 10 MHz refers toare PRB#36 to than PRB#41 codewords) that greater 10 dB and less 15 MHz and 20 MHz refers to PRB#48 to than or equal to 12 dB. PRB range of subband This measurement is provided for Subband 7 7 PRB#55 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values (2 CQIs or (SINR) post-compensation 10 MHz refers toare PRB#36 to than PRB#41 codewords) that greater 12 dB and less 15 MHz and 20 MHz refers to PRB#48 to than or equal to 14 db. PRB range of subband This measurement is provided for Subband 7 7 PRB#55 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values (2 CQIs or (SINR) post-compensation 10 MHz refers toare PRB#36 to than PRB#41 codewords) that greater 14 dB and less 15 MHz and 20 MHz refers to PRB#48 to than or equal to 16 dB. PRB range of subband This measurement is provided for Subband 7 7 PRB#55 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values (2 CQIs or (SINR) post-compensation 10 MHz refers toare PRB#36 to than PRB#41 codewords) that greater 16 dB and less 15 MHz and 20 MHz refers to PRB#48 to than or equal to 18 dB. PRB range of subband This measurement is provided for Subband 7 7 PRB#55 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values (2 CQIs or (SINR) post-compensation 10 MHz refers toare PRB#36 to than PRB#41 codewords) that greater 18 dB and less 15 MHz and 20 MHz refers to PRB#48 to than or equal to 20 dB. PRB range of subband 7 PRB#55 according to frequency: 5 MHz refers to PRB#24 10 MHz refers to PRB#36 to PRB#41 15 MHz and 20 MHz refers to PRB#48 to PRB#55
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 7 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 20 dB and less than or equal to 22 is dB. PRB range of subband This measurement provided for Subband 7 7 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values (2 CQIs or (SINR) post-compensation 10 MHz refers toare PRB#36 to than PRB#41 codewords) that greater 22 dB and less 15 MHz and 20 MHz refers to PRB#48 to than or equal to 24 dB. PRB range of subband This measurement is provided for Subband 7 7 PRB#55 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values (2 CQIs or (SINR) post-compensation 10 MHz refers toare PRB#36 to than PRB#41 codewords) that greater 24 dB and less 15 MHz and 20 MHz refers to PRB#48 to than or equal to 26 dB. PRB range of subband This measurement is provided for Subband 7 7 PRB#55 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values (2 CQIs or (SINR) post-compensation 10 MHz refers toare PRB#36 to than PRB#41 codewords) that greater 26 dB and less 15 MHz and 20 MHz refers to PRB#48 to than or equal to 28 dB. PRB range of subband This measurement is provided for Subband 7 7 PRB#55 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values (2 CQIs or (SINR) post-compensation 10 MHz refers toare PRB#36 to than PRB#41 codewords) that greater 28 dB and less 15 MHz and 20 MHz refers to PRB#48 to than or equal to 30 dB. PRB range of subband This measurement is provided for Subband 8 7 PRB#55 according to frequency: downlink Signal to Interference and Noise Ratio 5 MHz refers to PRB#24 values (2 CQIs or (SINR) post-compensation 10 MHz refers toare PRB#36 to than PRB#41 codewords) that greater or equal to -10 15 MHz and 20 MHz refers to PRB#48 dB and less than or equal to -8 dB. PRBtorange This measurement is provided for Subband 8 of PRB#55 subband 8 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues PRB#47 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#56 codewords) that are greater than -8 dB to and less PRB#63 than or equal to -6 dB. PRB range of subband This measurement is provided for Subband 8 8 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHz refers to PRB#42 tovalues PRB#47 (SINR) post-compensation (2 CQIs or 15 MHz and 20 MHz refers to PRB#56 codewords) that are greater than -6 dB to and less PRB#63 than or equal to -4 dB. PRB range of subband This measurement is provided for Subband 8 8 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHz refers to PRB#42 tovalues PRB#47 (SINR) post-compensation (2 CQIs or 15 MHz and 20 MHz refers to PRB#56 codewords) that are greater than -4 dB to and less PRB#63 than or equal to -2 dB. PRB range of subband This measurement is provided for Subband 8 8 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHz refers to PRB#42 tovalues PRB#47 (SINR) post-compensation (2 CQIs or 15 MHz and 20 MHz refers to PRB#56 codewords) that are greater than -2 dB to and less PRB#63 than or equal to 0 dB. PRB range of subband This measurement is provided for Subband 8 8 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHz refers to PRB#42 tovalues PRB#47 (SINR) post-compensation (2 CQIs or 15 MHz and 20 MHz refers to PRB#56 to less codewords) that are greater than 0 dB and PRB#63 than or equal to 2 dB. PRB range subband This measurement is provided for of Subband 88 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues PRB#47 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#56 to less codewords) that are greater than 2 dB and PRB#63 than or equal to 4 dB. PRB range of subband 8 according to frequency: 10 MHz refers to PRB#42 to PRB#47 15 MHz and 20 MHz refers to PRB#56 to PRB#63
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 8 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 4 dB and less than or equal to 6 dB. PRB range subband This measurement is provided for of Subband 88 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues PRB#47 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#56 to less codewords) that are greater than 6 dB and PRB#63 than or equal to 8 dB. PRB range subband This measurement is provided for of Subband 88 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues PRB#47 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#56 to less codewords) that are greater than 8 dB and PRB#63 than or equal to 10 is dB. PRB range of subband This measurement provided for Subband 8 8 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues PRB#47 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#56 codewords) that are greater than 10 dBtoand less PRB#63 than or equal to 12 is dB. PRB range of subband This measurement provided for Subband 8 8 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues PRB#47 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#56 codewords) that are greater than 12 dBtoand less PRB#63 than or equal to 14 is db.provided PRB range of subband This measurement for Subband 8 8 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues PRB#47 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#56 codewords) that are greater than 14 dBtoand less PRB#63 than or equal to 16 is dB. PRB range of subband This measurement provided for Subband 8 8 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues PRB#47 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#56 codewords) that are greater than 16 dBtoand less PRB#63 than or equal to 18 is dB. PRB range of subband This measurement provided for Subband 8 8 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues PRB#47 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#56 codewords) that are greater than 18 dBtoand less PRB#63 than or equal to 20 is dB. PRB range of subband This measurement provided for Subband 8 8 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues PRB#47 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#56 codewords) that are greater than 20 dBtoand less PRB#63 than or equal to 22 is dB. PRB range of subband This measurement provided for Subband 8 8 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues PRB#47 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#56 codewords) that are greater than 22 dBtoand less PRB#63 than or equal to 24 is dB. PRB range of subband This measurement provided for Subband 8 8 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues PRB#47 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#56 codewords) that are greater than 24 dBtoand less PRB#63 than or equal to 26 is dB. PRB range of subband This measurement provided for Subband 8 8 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues PRB#47 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#56 codewords) that are greater than 26 dBtoand less PRB#63 than or equal to 28 dB. PRB range of subband 8 according to frequency: 10 MHz refers to PRB#42 to PRB#47 15 MHz and 20 MHz refers to PRB#56 to PRB#63
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 8 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 28 dB and less than or equal to 30 is dB. PRB range of subband This measurement provided for Subband 9 8 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues PRB#47 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#56 to to -10 codewords) that are greater than or equal PRB#63 dB less than orisequal to -8 for dB.Subband PRB range Thisand measurement provided 9 of subband 9 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#64 codewords) that are greater than -8 dB to and less PRB#71 than or equal to -6 dB. PRB range of subband This measurement is provided for Subband 9 9 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHz refers to PRB#48 tovalues PRB#49 (SINR) post-compensation (2 CQIs or 15 MHz and 20 MHz refers to PRB#64 codewords) that are greater than -6 dB to and less PRB#71 than or equal to -4 dB. PRB range of subband This measurement is provided for Subband 9 9 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHz refers to PRB#48 tovalues PRB#49 (SINR) post-compensation (2 CQIs or 15 MHz and 20 MHz refers to PRB#64 codewords) that are greater than -4 dB to and less PRB#71 than or equal to -2 dB. PRB range of subband This measurement is provided for Subband 9 9 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHz refers to PRB#48 tovalues PRB#49 (SINR) post-compensation (2 CQIs or 15 MHz and 20 MHz refers to PRB#64 codewords) that are greater than -2 dB to and less PRB#71 than or equal to 0 dB. PRB range of subband This measurement is provided for Subband 9 9 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHz refers to PRB#48 tovalues PRB#49 (SINR) post-compensation (2 CQIs or 15 MHz and 20 MHz refers to PRB#64 to less codewords) that are greater than 0 dB and PRB#71 than or equal to 2 dB. PRB range subband This measurement is provided for of Subband 99 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#64 to less codewords) that are greater than 2 dB and PRB#71 than or equal to 4 dB. PRB range subband This measurement is provided for of Subband 99 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#64 to less codewords) that are greater than 4 dB and PRB#71 than or equal to 6 dB. PRB range subband This measurement is provided for of Subband 99 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#64 to less codewords) that are greater than 6 dB and PRB#71 than or equal to 8 dB. PRB range subband This measurement is provided for of Subband 99 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#64 to less codewords) that are greater than 8 dB and PRB#71 than or equal to 10 is dB. PRB range of subband This measurement provided for Subband 9 9 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#64 codewords) that are greater than 10 dBtoand less PRB#71 than or equal to 12 dB. PRB range of subband 9 according to frequency: 10 MHz refers to PRB#48 to PRB#49 15 MHz and 20 MHz refers to PRB#64 to PRB#71
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 9 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 12 dB and less than or equal to 14 is db.provided PRB range of subband This measurement for Subband 9 9 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#64 codewords) that are greater than 14 dBtoand less PRB#71 than or equal to 16 is dB. PRB range of subband This measurement provided for Subband 9 9 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#64 codewords) that are greater than 16 dBtoand less PRB#71 than or equal to 18 is dB. PRB range of subband This measurement provided for Subband 9 9 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#64 codewords) that are greater than 18 dBtoand less PRB#71 than or equal to 20 is dB. PRB range of subband This measurement provided for Subband 9 9 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#64 codewords) that are greater than 20 dBtoand less PRB#71 than or equal to 22 is dB. PRB range of subband This measurement provided for Subband 9 9 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#64 codewords) that are greater than 22 dBtoand less PRB#71 than or equal to 24 is dB. PRB range of subband This measurement provided for Subband 9 9 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#64 codewords) that are greater than 24 dBtoand less PRB#71 than or equal to 26 is dB. PRB range of subband This measurement provided for Subband 9 9 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#64 codewords) that are greater than 26 dBtoand less PRB#71 than or equal to 28 is dB. PRB range of subband This measurement provided for Subband 9 9 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#64 codewords) that are greater than 28 dBtoand less PRB#71 than or equal to 30 is dB. PRB range of subband This measurement provided for Subband 10 9 according to frequency: downlink Signal to Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues PRB#49 (SINR) (2 CQIs or 15 MHz and 20 MHz refers to PRB#64 to to -10 codewords) that are greater than or equal PRB#71 dB less than orisequal to -8 for dB.Subband PRB range Thisand measurement provided 10 of subband 10 according to frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) (2 CQIs or 20 MHz refers to PRB#72 to PRB#79 codewords) that are greater than -8 dB and less than or equal to -6 dB. PRB range of subband This measurement is provided for Subband 10 10 according to frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) (2 CQIs or 20 MHz refers to PRB#72 to PRB#79 codewords) that are greater than -6 dB and less than or equal to -4 dB. PRB range of subband 10 according to frequency: 15 MHz refers to PRB#72 to PRB#74 20 MHz refers to PRB#72 to PRB#79
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 10 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than -4 dB and less than or equal to -2 dB. PRB range of subband This measurement is provided for Subband 10 10 according to frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) (2 CQIs or 20 MHz refers to PRB#72 to PRB#79 codewords) that are greater than -2 dB and less
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
than or equal to 0 dB. PRB range subband This measurement is provided for of Subband 1010 according to frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) (2 CQIs or 20 MHz refers to PRB#72 to PRB#79 codewords) that are greater than 0 dB and less
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
than or equal to 2 dB. PRB range subband This measurement is provided for of Subband 1010 according to frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) (2 CQIs or 20 MHz refers to PRB#72 to PRB#79 codewords) that are greater than 2 dB and less
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
than or equal to 4 dB. PRB range subband This measurement is provided for of Subband 1010 according to frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) (2 CQIs or 20 MHz refers to PRB#72 to PRB#79 codewords) that are greater than 4 dB and less
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
than or equal to 6 dB. PRB range subband This measurement is provided for of Subband 1010 according to frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) (2 CQIs or 20 MHz refers to PRB#72 to PRB#79 codewords) that are greater than 6 dB and less
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
than or equal to 8 dB. PRB range subband This measurement is provided for of Subband 1010 according to frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) (2 CQIs or 20 MHz refers to PRB#72 to PRB#79 codewords) that are greater than 8 dB and less
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
than or equal to 10 is dB. PRB range of subband This measurement provided for Subband 10 10 according to frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) (2 CQIs or 20 MHz refers to PRB#72 to PRB#79 codewords) that are greater than 10 dB and less
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
than or equal to 12 is dB. PRB range of subband This measurement provided for Subband 10 10 according to frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) (2 CQIs or 20 MHz refers to PRB#72 to PRB#79 codewords) that are greater than 12 dB and less
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
than or equal to 14 is db.provided PRB range of subband This measurement for Subband 10 10 according to frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) (2 CQIs or 20 MHz refers to PRB#72 to PRB#79 codewords) that are greater than 14 dB and less
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
than or equal to 16 is dB. PRB range of subband This measurement provided for Subband 10 10 according to frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) (2 CQIs or 20 MHz refers to PRB#72 to PRB#79 codewords) that are greater than 16 dB and less
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
than or equal to 18 is dB. PRB range of subband This measurement provided for Subband 10 10 according to frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) (2 CQIs or 20 MHz refers to PRB#72 to PRB#79 codewords) that are greater than 18 dB and less than or equal to 20 dB. PRB range of subband 10 according to frequency: 15 MHz refers to PRB#72 to PRB#74 20 MHz refers to PRB#72 to PRB#79
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 10 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 20 dB and less than or equal to 22 is dB. PRB range of subband This measurement provided for Subband 10 10 according to frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) (2 CQIs or 20 MHz refers to PRB#72 to PRB#79 codewords) that are greater than 22 dB and less
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
than or equal to 24 is dB. PRB range of subband This measurement provided for Subband 10 10 according to frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) (2 CQIs or 20 MHz refers to PRB#72 to PRB#79 codewords) that are greater than 24 dB and less
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
than or equal to 26 is dB. PRB range of subband This measurement provided for Subband 10 10 according to frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) (2 CQIs or 20 MHz refers to PRB#72 to PRB#79 codewords) that are greater than 26 dB and less
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
than or equal to 28 is dB. PRB range of subband This measurement provided for Subband 10 10 according to frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) (2 CQIs or 20 MHz refers to PRB#72 to PRB#79 codewords) that are greater than 28 dB and less
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
than or equal to 30 is dB. PRB range of subband This measurement provided for Subband 11 10 according to frequency: downlink Signal to Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues PRB#74 (SINR) (2 CQIs or 20 MHz refers to PRB#72 to PRB#79 codewords) that are greater than or equal to -10
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
dB less than orisequal to -8 for dB.Subband Subband11 11 Thisand measurement provided for 20 MHz refers to PRB#80 to PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than -8 dB and less than or equal to -6 dB. Subband for 20 MHz This measurement is provided for11Subband 11 refers to PRB#80 to PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than -6 dB and less than or equal to -4 dB. Subband for 20 MHz This measurement is provided for11Subband 11 refers to PRB#80 to PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than -4 dB and less than or equal to -2 dB. Subband for 20 MHz This measurement is provided for11Subband 11 refers to PRB#80 to PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than -2 dB and less than or equal to 0 dB. Subbandfor 11Subband for 20 MHz This measurement is provided 11 refers to PRB#80 to PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 0 dB and less than or equal to 2 dB. Subbandfor 11Subband for 20 MHz This measurement is provided 11 refers to PRB#80 to PRB#87. downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 2 dB and less than or equal to 4 dB. Subband 11 for 20 MHz refers to PRB#80 to PRB#87.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 11 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 4 dB and less than or equal to 6 dB. Subbandfor 11Subband for 20 MHz This measurement is provided 11 refers to PRB#80 to PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 6 dB and less than or equal to 8 dB. Subbandfor 11Subband for 20 MHz This measurement is provided 11 refers to PRB#80 to PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 8 dB and less than or equal to 10 is dB. Subband for 20 MHz This measurement provided for11 Subband 11 refers to PRB#80 to PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 10 dB and less than or equal to 12 is dB. Subband for 20 MHz This measurement provided for11 Subband 11 refers to PRB#80 to PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 12 dB and less than or equal to 14 is db.provided Subband for 20 MHz This measurement for11 Subband 11 refers to PRB#80 to PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 14 dB and less than or equal to 16 is dB. Subband for 20 MHz This measurement provided for11 Subband 11 refers to PRB#80 to PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 16 dB and less than or equal to 18 is dB. Subband for 20 MHz This measurement provided for11 Subband 11 refers to PRB#80 to PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 18 dB and less than or equal to 20 is dB. Subband for 20 MHz This measurement provided for11 Subband 11 refers to PRB#80 to PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 20 dB and less than or equal to 22 is dB. Subband for 20 MHz This measurement provided for11 Subband 11 refers to PRB#80 to PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 22 dB and less than or equal to 24 is dB. Subband for 20 MHz This measurement provided for11 Subband 11 refers to PRB#80 to PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 24 dB and less than or equal to 26 is dB. Subband for 20 MHz This measurement provided for11 Subband 11 refers to PRB#80 to PRB#87. downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 26 dB and less than or equal to 28 dB. Subband 11 for 20 MHz refers to PRB#80 to PRB#87.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 11 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 28 dB and less than or equal to 30 is dB. Subband for 20 MHz This measurement provided for11 Subband 12 refers to PRB#80 to PRB#87. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than or equal to -10 dB less than orisequal to -8 for dB.Subband Subband12 12 Thisand measurement provided for 20 MHz refers to PRB#88 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than -8 dB and less than or equal to -6 dB. Subband for 20 MHz This measurement is provided for12Subband 12 refers to PRB#88 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than -6 dB and less than or equal to -4 dB. Subband for 20 MHz This measurement is provided for12Subband 12 refers to PRB#88 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than -4 dB and less than or equal to -2 dB. Subband for 20 MHz This measurement is provided for12Subband 12 refers to PRB#88 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than -2 dB and less than or equal to 0 dB. Subbandfor 12Subband for 20 MHz This measurement is provided 12 refers to PRB#88 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 0 dB and less than or equal to 2 dB. Subbandfor 12Subband for 20 MHz This measurement is provided 12 refers to PRB#88 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 2 dB and less than or equal to 4 dB. Subbandfor 12Subband for 20 MHz This measurement is provided 12 refers to PRB#88 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 4 dB and less than or equal to 6 dB. Subbandfor 12Subband for 20 MHz This measurement is provided 12 refers to PRB#88 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 6 dB and less than or equal to 8 dB. Subbandfor 12Subband for 20 MHz This measurement is provided 12 refers to PRB#88 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 8 dB and less than or equal to 10 is dB. Subband for 20 MHz This measurement provided for12 Subband 12 refers to PRB#88 to PRB#95. downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 10 dB and less than or equal to 12 dB. Subband 12 for 20 MHz refers to PRB#88 to PRB#95.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 12 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 12 dB and less than or equal to 14 is db.provided Subband for 20 MHz This measurement for12 Subband 12 refers to PRB#88 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 14 dB and less than or equal to 16 is dB. Subband for 20 MHz This measurement provided for12 Subband 12 refers to PRB#88 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 16 dB and less than or equal to 18 is dB. Subband for 20 MHz This measurement provided for12 Subband 12 refers to PRB#88 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 18 dB and less than or equal to 20 is dB. Subband for 20 MHz This measurement provided for12 Subband 12 refers to PRB#88 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 20 dB and less than or equal to 22 is dB. Subband for 20 MHz This measurement provided for12 Subband 12 refers to PRB#88 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 22 dB and less than or equal to 24 is dB. Subband for 20 MHz This measurement provided for12 Subband 12 refers to PRB#88 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 24 dB and less than or equal to 26 is dB. Subband for 20 MHz This measurement provided for12 Subband 12 refers to PRB#88 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 26 dB and less than or equal to 28 is dB. Subband for 20 MHz This measurement provided for12 Subband 12 refers to PRB#88 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 28 dB and less than or equal to 30 is dB. Subband for 20 MHz This measurement provided for12 Subband 13 refers to PRB#88 to PRB#95. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than or equal to -10 dB less than orisequal to -8 for dB.Subband Subband13 13 Thisand measurement provided for 20 MHz refers to PRB#96 to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than -8 dB and less than or equal to -6 dB. Subband for 20 MHz This measurement is provided for13Subband 13 refers to PRB#96 to PRB#99. downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than -6 dB and less than or equal to -4 dB. Subband 13 for 20 MHz refers to PRB#96 to PRB#99.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 13 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than -4 dB and less than or equal to -2 dB. Subband for 20 MHz This measurement is provided for13Subband 13 refers to PRB#96 to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than -2 dB and less than or equal to 0 dB. Subbandfor 13Subband for 20 MHz This measurement is provided 13 refers to PRB#96 to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 0 dB and less than or equal to 2 dB. Subbandfor 13Subband for 20 MHz This measurement is provided 13 refers to PRB#96 to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 2 dB and less than or equal to 4 dB. Subbandfor 13Subband for 20 MHz This measurement is provided 13 refers to PRB#96 to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 4 dB and less than or equal to 6 dB. Subbandfor 13Subband for 20 MHz This measurement is provided 13 refers to PRB#96 to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 6 dB and less than or equal to 8 dB. Subbandfor 13Subband for 20 MHz This measurement is provided 13 refers to PRB#96 to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 8 dB and less than or equal to 10 is dB. Subband for 20 MHz This measurement provided for13 Subband 13 refers to PRB#96 to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 10 dB and less than or equal to 12 is dB. Subband for 20 MHz This measurement provided for13 Subband 13 refers to PRB#96 to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 12 dB and less than or equal to 14 is db.provided Subband for 20 MHz This measurement for13 Subband 13 refers to PRB#96 to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 14 dB and less than or equal to 16 is dB. Subband for 20 MHz This measurement provided for13 Subband 13 refers to PRB#96 to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 16 dB and less than or equal to 18 is dB. Subband for 20 MHz This measurement provided for13 Subband 13 refers to PRB#96 to PRB#99. downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 18 dB and less than or equal to 20 dB. Subband 13 for 20 MHz refers to PRB#96 to PRB#99.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Subband 13 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 20 dB and less than or equal to 22 is dB. Subband for 20 MHz This measurement provided for13 Subband 13 refers to PRB#96 to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 22 dB and less than or equal to 24 is dB. Subband for 20 MHz This measurement provided for13 Subband 13 refers to PRB#96 to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 24 dB and less than or equal to 26 is dB. Subband for 20 MHz This measurement provided for13 Subband 13 refers to PRB#96 to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 26 dB and less than or equal to 28 is dB. Subband for 20 MHz This measurement provided for13 Subband 13 refers to PRB#96 to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 28 dB and less than or equal to 30 is dB. Subband for 20 MHz This measurement provided for13 Wideband refers to PRB#96 to PRB#99. downlink Signal to Interference and Noise Ratio
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
(SINR) post-compensation values that are greater than or equal to -10 dB and less than or equal to -8 dB. This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than -8 dB and less than or equal to -6 dB. This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than -6 dB and less than or equal to -4 dB. This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than -4 dB and less than or equal to -2 dB. This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than -2 dB and less than or equal to 0 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 0 dB and less than or equal to 2 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 2 dB and less than or equal to 4 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 4 dB and less than or equal to 6 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 6 dB and less than or equal to 8 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 8 dB and less than or equal to 10 dB. This measurement is provided for Wideband
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 10 dB and less than or equal to 12 dB. This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 12 dB and less than or equal to 14 db. This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 14 dB and less than or equal to 16 dB. This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 16 dB and less than or equal to 18 dB. This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 18 dB and less than or equal to 20 dB. This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 20 dB and less than or equal to 22 dB. This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 22 dB and less than or equal to 24 dB. This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 24 dB and less than or equal to 26 dB. This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 26 dB and less than or equal to 28 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that are greater than 28 dB and less than or equal to 30 dB. This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than or equal to -10 dB less than orisequal to -8 for dB.Wideband Thisand measurement provided downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than -8 dB and less than or equal to -6 dB. This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than -6 dB and less than or equal to -4 dB. This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than -4 dB and less than or equal to -2 dB. This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than -2 dB and less than or equal to 0 dB. This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 0 dB and less than or equal to 2 dB. This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 2 dB and less than or equal to 4 dB. This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 4 dB and less than or equal to 6 dB. This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 6 dB and less than or equal to 8 dB. This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 8 dB and less than or equal to 10 is dB. This measurement provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 10 dB and less than or equal to 12 dB.
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
Flexi Zone Micro BTS,FSM-r3,Flexi Zone Controller,FDD,TDD,SBTS
This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 12 dB and less than or equal to 14 is db.provided for Wideband This measurement downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 14 dB and less than or equal to 16 is dB. This measurement provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 16 dB and less than or equal to 18 is dB. This measurement provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 18 dB and less than or equal to 20 is dB. This measurement provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 20 dB and less than or equal to 22 is dB. This measurement provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 22 dB and less than or equal to 24 is dB. This measurement provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 24 dB and less than or equal to 26 is dB. This measurement provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 26 dB and less than or equal to 28 is dB. This measurement provided for Wideband
downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that are greater than 28 dB and less or equal to 30 represents dB. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone than This measurement the number of Controller,FDD,TDD,SBTS times a UE was connected in LTE, then experienced a Radio Link Failure (RLF) in LTE, then selected UTRAN to re-connect to, and then againrepresents to the LTE the system, which Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone re-connected This measurement number of identified a "late handover" using certain Controller,FDD,TDD,SBTS times a UE was connected in LTE, then RLF report information thatLink is transmitted from UE experienced a Radio Failure (RLF) in the LTE, to the eNB (see also section "Updated" for the then selected UTRAN to re-connect to, and then counter triggeragain description). to the LTE the system, which Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone re-connected This measurement represents number of identified a "late handover" using certain RLF Controller,FDD,TDD,SBTS times acase, UE was in the process of being handed In this the UE was measuring the target report information that is transmitted from(for the UE over from LTE to UTRAN any reason UTRAN frequency (that is,for B1"Updated" or B2 to the eNB (see also section for the example, CSFB, PSHO, loadfor balancing, and so measurement was activated any reason), but counter trigger description). on) andthreshold2 encountered a handoverthreshold failure when the B2 measurement for In this case,tothe UE was theThe target attempting themeasuring UTRAN cell. LTE PSHO was notacquire met.(that Note thatorthis counter can UTRAN frequency is B1 B2 system identifies an "early handover" using only be triggered by 3GPP Release 11 (or higher) measurement was activated any reason), but certain information in the UE for Context (seeused also UEs asthreshold2 the RRC RLF Report information to the B2 measurement threshold for section "Updated" forwas the added counterintrigger detect this use case Release 11 VoLTE was not Note the thatB2 this counter can description). In met. this case, (selectedUTRAN-CellId IE).Release Also threshold2 note the only be triggered by 3GPP 11 that (or higher) measurement thresholdwhich for PSHO was met. eNB cannot determine measurement wasto UEs as the RRC RLF Report information used actually activated at the UE (B1 for CSFB, B1 detect this use case wasinadded in Release 11 for The counter is updated the handover source load balancing, B2 for PSHO, or B2 for VoLTE). (selectedUTRAN-CellId IE). counters Also notefor that the cell (LTE cell) with separate each eNB cannot determine which measurement was
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement represents the number of Controller,FDD,TDD,SBTS times a UE was in the process of being handed over from LTE to UTRAN for any reason (for example, CSFB, PSHO, load balancing, and so encountered a handover when Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone on) Thisand measurement represents thefailure number of attempting to acquire the UTRAN cell. The Controller,FDD,TDD,SBTS times a UE attempts a handover to UTRANLTE for system identifies an "early handover" using any reason (e.g. CSFB, PSHO, Load Balancing) certain in the UE Context also and theinformation B2-PSHO thresholds (T1 and(see T2) were section "Updated" for the counter trigger (see also section "Updated" fornumber the counter Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone met This measurement thethreshold2 of description). In this represents case, the B2 trigger description). This counter is used by or the Controller,FDD,TDD,SBTS times a UE attempts a handover to UTRAN measurement threshold for VoLTE(MRO) was met. Mobility Robustness Optimization any reason (e.g. CSFB, PSHO, Load Balancing) algorithm whose function is to (T1 optimize handover and the B2-VoLTE thresholds and T2) were The counter is updated in the handover source thresholds. met (see also section "Updated" for the counter cell (LTE cell) with separate counters for each Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement represents the number of trigger description). This counter used by the UTRAN (WCDMA) frequency. Controller,FDD,TDD,SBTS timescounter that theiseNB receives A2isevent-related The updated in theanhandover source Mobility Robustness Optimization (MRO) RRC Measurement Report and wherefor LTE intercell (LTE cell) with separate counters each algorithm whose is to optimize handover This counter onlyfunction applies when LTE1749 (MRO frequency RSRP threshold2InterFreq was met UTRAN (WCDMA or TD-SCDMA) frequency. thresholds. Inter-RAT andupper LTE56configured (PSHO to itmeasurement wasUTRAN) the nearest Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone and This represents the number of WCDMA) and LTE64 (Service based handover threshold for A2 event. This counter only applies when LTE1749 (MRO Controller,FDD,TDD,SBTS times that the eNB receives an A2 event-related The counter is in handover source thresholds) are activated. The counter is updated updated in the the LTE cell, where Inter-RAT UTRAN) and either LTE56 (PSHO to RRC Measurement Report and where LTE intercell (LTE cell) with separate counters for each RRC Measurement Report is received. WCDMA) or LTE898 (PSHO to TD-SCDMA) are frequency RSRP threshold2InterFreqQci1 was UTRAN (WCDMA) frequency. This counter only applies when LTE55 (Interactivated. met and it was the nearest upper configured Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone frequency This measurement represents the number of HO) isevent. activated. threshold A2 This applies when LTE1749 (MRO Controller,FDD,TDD,SBTS timescounter that for theonly eNB receives an A2 event-related The counter is updated in the LTE cell, where Inter-RAT UTRAN) and LTE56 (PSHO to RRC Measurement Report and where InterNote: RRC Measurement Report is received. WCDMA) and LTE64 (Service based System RSRP threshold2Wcdma washandover met and it The counter includes VoLTE and non-VoLTE This the counter only applies when LTE2112/LTE64 thresholds) are activated. nearest upper configured connections. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone was This measurement represents the threshold number based offor (Dedicated thresholds for SRVCC/Service A2 event. Controller,FDD,TDD,SBTS times that thresholds) the eNB receives an A2 event-related handover isinactivated. The is updated the LTE cell,Interwhere RRCcounter Measurement Report and where RRC Measurement Report is received. System RSRP threshold2WcdmaQci1 was met Note: This counter only applies when LTE56 (PS HO to and it was the nearest upper configured The counter includes VoLTE and non-VoLTE Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement represents the number of WCDMA) is activated. threshold event. connections. Controller,FDD,TDD,SBTS times that for theA2 eNB receives an A2 event-related The is updated in the LTE cell,LTE where RRCcounter Measurement Report and where interRRC Measurement Report is received. frequency and Inter-System RSRQand nonNote: The counter includes VoLTE This counter only applies when LTE2112/LTE64 was met and was theof VoLTE connections. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone threshold2MobRsrq This measurement represents theitnumber (Dedicated thresholds for SRVCC/Service based nearest upper configured threshold for A2 event. Controller,FDD,TDD,SBTS times that thresholds) the eNB receives an A2 event-related handover is activated. The is updated in the LTE cell,the where RRCcounter Measurement Report and where RRC Measurement Report is received. redirect RSRP threshold4 was met and it was the This counter applies when LTE1198 upperonly configured threshold for A2(RSRQ event. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone nearest This measurement represents the number of based mobility) is activated. The counter is updated in the LTE cell, where Note: The counter includes VoLTE and nonController,FDD,TDD,SBTS times that the eNB receives an A2 event-related RRC received. VoLTE connections.Report RRC Measurement Measurement Report is and where the This counter only applies when LTE423 (RRC redirect RSRQ threshold4Rsrq was metnonand it Note: The counter includes VoLTE and Connection Release with Redirect) is activated. was the nearest upper configured threshold connections.represents the number offor Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone VoLTE This measurement A2 event. Controller,FDD,TDD,SBTS times that the eNB receives an A1 event-related The is updated in the LTE cell,the where RRCcounter Measurement Report and where RSRP Note: RRC Measurement Report is received. threshold2a was met and it was the nearest lower The counter includes VoLTE and non-VoLTE This counter only applies when LTE1407 (RSRQ threshold for A1 event If LTE1198 connections. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone configured This measurement represents the.number of based redirection) is activated. (RSRQ based mobility) is activated also Controller,FDD,TDD,SBTS times that the eNB receives an A1 event-related threshold2aRsrq hasReport to be met. RRC Measurement and where the RSRP The counter is updated in and the LTE cell, threshold2aQci1 was met it was thewhere nearest Note: The counter includes VoLTE and nonRRC Measurement Report is received. lower threshold for A1 event. VoLTEconfigured connections. The counter is updated in the LTE cell, where Note: The counter includes VoLTE and nonRRC Measurement Report is received. VoLTE connections. This counter only applies when LTE2112/LTE64 (Dedicated thresholds for SRVCC/Service based handover thresholds) is activated. Note: The counter includes VoLTE and non-VoLTE connections.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement represents the number of Controller,FDD,TDD,SBTS times the eNB activates A4 measurements for Idle Mode Load Balancing (IMLB) in the UE. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This measurement represents the number of The is receives updated in LTE cell, where A4 Controller,FDD,TDD,SBTS timescounter the eNB anthe RRC Measurement IMLB activation is sent by the eNB (withofseparate Report with measResult IE for measId "Event counters for each E-UTRA carrier frequency E-UTRA A4 " for Idle Mode Load Balancing for which A4 measurements is activated). which is successfully evaluated the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone (IMLB) This counter counts the number of databy chunks eNB. Also, idleModeMobilityControlInfo IE Controller,FDD,TDD,SBTS sent to the SCTP peer on the S1 interface is per inserted into RRC Connection Release. SCTP association. Resent SCTP data chunks are excluded. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter counts the number of data chunks Controller,FDD,TDD,SBTS received from the SCTP peer oncounter the S1 is interface The per SCTPinassociation updated the LTE cell, where Measurement Report for A4 IMLB is received and positively evaluated, with separate counters each EFlexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter counts the number offor data chunks UTRA carrier frequency A4 isper Controller,FDD,TDD,SBTS resent to the SCTP peer for on which the S1event interface reported. SCTP association. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter is the cumulative duration of Controller,FDD,TDD,SBTS congested periods of a single SCTP association on the S1 interface. The counter starts when the SCTP user requests the SCTP layer to send data SCTPcounts layer indicates a full queue. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone but Thisthe counter the number of send occurences The counter stops if the SCTP user requests the Controller,FDD,TDD,SBTS when the SCTP association on the S1 interface SCTP layer to send data and the SCTP layer state changes from "not congested" into accepts the data "congested" state.for sending. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter is the cumulative duration of Controller,FDD,TDD,SBTS unavailable periods of a single SCTP association on the S1 interface. The counter starts when the SCTP association state changes due to or "Graceful Shutdown". Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone "connection The counter lost" counts the number of occurences Controller,FDD,TDD,SBTS
when the SCTP association on the S1 interface state changes from "connected" to "not connected".
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter counts the number of data chunks Controller,FDD,TDD,SBTS sent to the SCTP peer on the X2 interface per SCTP association. Resent SCTP data chunks are excluded. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter counts the number of data chunks Controller,FDD,TDD,SBTS received from the SCTP peer on the X2 interface per SCTP association Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter counts the number of data chunks Controller,FDD,TDD,SBTS resent to the SCTP peer on the X2 interface per SCTP association.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter is the cumulative duration of Controller,FDD,TDD,SBTS congested periods of a single SCTP association on the X2 interface. The counter starts when the SCTP user requests the SCTP layer to send data SCTPcounts layer indicates a full queue. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone but Thisthe counter the number of send occurences The counter stops if the SCTP user requests the Controller,FDD,TDD,SBTS when the SCTP association on the X2 interface SCTP layer to send data and the SCTP layer state changes from "not congested" into accepts the data "congested" state.for sending. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter is the cumulative duration of Controller,FDD,TDD,SBTS unavailable periods of a single SCTP association on the X2 interface. The counter starts when the SCTP association state changes due to or "Graceful Shutdown". Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone "connection The counter lost" counts the number of occurences Controller,FDD,TDD,SBTS
when the SCTP association on the X2 interface state changes from "connected" to "notconnected".
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter counts the number of data chunks Controller,FDD,TDD,SBTS sent to the SCTP peer on the M3 interface per SCTP association. Resent SCTP data chunks are excluded. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter counts the number of data chunks Controller,FDD,TDD,SBTS received from the SCTP peer on the M3 interface per SCTP association Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter counts the number of data chunks Controller,FDD,TDD,SBTS resent to the SCTP peer on the M3 interface per SCTP association. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter is the cumulative duration of Controller,FDD,TDD,SBTS congested periods of a single SCTP association on the M3 interface. The counter starts when the SCTP user requests the SCTP layer to send data SCTPcounts layer indicates a full queue. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone but Thisthe counter the number of send occurences The counter stops if the SCTP user requests the Controller,FDD,TDD,SBTS when the SCTP association on the M3 interface SCTP layer to send data and the SCTP layer state changes from "not congested" into accepts the data "congested" state.for sending. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This counter is the cumulative duration of Controller,FDD,TDD,SBTS unavailable periods of a single SCTP association on the M3 interface. The counter starts when the SCTP association state changes due to or "Graceful Shutdown". Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone "connection The counter lost" counts the number of occurences Controller,FDD,TDD,SBTS
when the SCTP association on the M3 interface state changes from "connected" to "not connected".
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of packets received on the plain IP Controller,FDD,TDD interface that were delivered to higher-layer protocols. Fragments shall be counted as individual IP packets.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of kilo-bytes received on the Controller,FDD,TDD plain IP interface, including framing characters. Fragments shall be counted as individual IP packets. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of packets that were successfully Controller,FDD,TDD transmitted over the plain IP interface Fragments shall be counted as individual IP Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone packets. The total number of kilo-bytes transmitted over Controller,FDD,TDD the plain IP the interface, including framing characters. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD
Fragments be counted as individual IP The numbershall of received IP packets or fragments packets. that are discarded for one or more of the
following reasons shall be counted in one aggregate counter for each IP transport interface: - Time-To-Live TTL=1 Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of totalexceeded outbound (TTL=0 packetsor that were for routed SSE traffic (LTE only)) Controller,FDD,TDD dropped in the IP scheduler due to congestion. - IP header checksum failure checksum failure (for ICMPv4 Note:- ICMPv4 In case of FZM: LNF5.0 release, this packets only) counter does not work for the plain (untagged) Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of total outbound kilo-bytes that IP interface, however works for thedue plain Controller,FDD,TDD were dropped in theit IP scheduler to (priorityIPv6 specific discard reasons (applyasfrom tagged) (i.e. VLAN ID=0) interface, wellLN5.0 as for/ congestion. LNT3.0 on FSM-r3): all VLAN interfaces (VLAN-ID>0. - Unspecified as destination address In case of FZM: LNF5.0 release, thisand - Multicast destination address "scope" FSM-r3,FDD,TDD The number of IP Multicast packets orcounter fragments does not work for the plain (untagged) field = 0 received at the IP network interface. IP interface, works for plain - Any however IPv6 that contains an (priorityFragments shallpacket beitcounted as the individual tagged) (i.e. VLAN ID=0) interface, as well as for unsupported extension header packets. all VLAN (VLAN-ID>0). - Anyinterfaces IPv6 packet that contains a supported FSM-r3,FDD,TDD The total number kilo-bytes received in IP extension header of more than once. Multicast packets or fragments IP network - ICMPv6 checksum failure (for at ICMPv6 packets interface. only) Fragments shall be counted as Hop-By-Hop individual - Non-ICMPv6 packet contains packets. Options extension header packets or fragments FSM-r3,FDD,TDD The number of IP Multicast - UDP checksum transmitted at thefailure IP network interface. - Overlapping IPv6 Fragments shall be Fragments counted as individual packets. FSM-r3,FDD,TDD
FSM-r3,FDD,TDD
FSM-r3,FDD,TDD
The total number of counted kilo-bytes Fragments shall be as transmitted individual IPin IP Multicast packets or fragments at the IP network packets. interface. Fragments shall be counted as individual packets. The number of IP multicast packets (unfragmented) or fragments (before reassembly) that have been received on the IP network interface but have been discarded due to one or more of the following reasons: of IP multicast The total number of kilo-bytes -packets The NE(unfragmented) did not join the or corresponding IP fragments (before multicast group on the interface on which thisIP reassembly) that have been received on the packet has been received. network interface but have been discarded due to -one Theordestination address does not match more of theMAC following reasons: with the destination MAC address calculated - The NE did not join the corresponding IP from the IP multicast address. multicast group on the interface on which this packet has been received. Note: - The destination MAC address does not match -with Counted before reassembly. the destination MAC address calculated -from No IPsec multicast traffic, so decryption the IP for multicast address. does not need to be taken into account. Note: - Counted before reassembly.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of kilo-bytes transmitted over Controller,FDD,TDD the plain IP interface, including framing characters, using Expedited Forwarding PHB class. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of outbound packets that were Controller,FDD,TDD successfully transmitted over the plain IP interface within the Expedited Forwarding PHB class. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound kilo-bytes within the Controller,FDD,TDD Expedited Forwarding PHB class that were dropped in the IP scheduler due to congestion. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound packets within the Controller,FDD,TDD Expedited Forwarding PHB class that were dropped in the IP scheduler due to congestion. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of kilo-bytes transmitted over Controller,FDD,TDD the plain IP interface, including framing characters, using the Assured Forwarding 4 PHB class. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of outbound packets that were Controller,FDD,TDD successfully transmitted over the plain IP interface within the Assured Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound kilo-bytes within the Controller,FDD,TDD Assured Forwarding 4 PHB class that were dropped in the IP scheduler due to congestion. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound packets within the Controller,FDD,TDD Assured Forwarding 4 PHB class that were dropped in the IP scheduler due to congestion. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of kilo-bytes transmitted over Controller,FDD,TDD the plain IP interface out of the interface, including framing characters, using the Assured Forwarding 3 PHB class. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of outbound packets that were Controller,FDD,TDD successfully transmitted over the plain IP interface within the Assured Forwarding 3 PHB class. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound kilo-bytes within the Controller,FDD,TDD Assured Forwarding 3 PHB class that were dropped in the IP scheduler due to congestion. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound packets within the Controller,FDD,TDD Assured Forwarding 3 PHB class that were dropped in the IP scheduler due to congestion.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of kilo-bytes transmitted over Controller,FDD,TDD the plain IP interface out of the interface, including framing characters, using the Assured Forwarding 2 PHB class. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of outbound packets that were Controller,FDD,TDD successfully transmitted over the plain IP interface within the Assured Forwarding 2 PHB class. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound kilo-bytes within the Controller,FDD,TDD Assured Forwarding 2 PHB class that were dropped in the IP scheduler due to congestion. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound packets within the Controller,FDD,TDD Assured Forwarding 2 PHB class that were dropped in the IP scheduler due to congestion. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of kilo-bytes transmitted over Controller,FDD,TDD the plain IP interface, including framing characters, using the Assured Forwarding 1 PHB class. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of outbound packets that were Controller,FDD,TDD successfully transmitted over the plain IP interface within the Assured Forwarding 1 PHB class. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound kilo-bytes within the Controller,FDD,TDD Assured Forwarding 1 PHB class that were dropped in the IP scheduler due to congestion. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound packets within the Controller,FDD,TDD Assured Forwarding 1 PHB class that were dropped in the IP scheduler due to congestion. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of kilo-bytes transmitted over Controller,FDD,TDD the plain IP interface, including framing characters, using the Best Effort PHB class. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of outbound packets that were Controller,FDD,TDD successfully transmitted over the plain IP interface within the Best Effort PHB class. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound kilo-bytes within the Controller,FDD,TDD Best Effort PHB class that were dropped in the IP scheduler due to congestion. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound packets within the Best Controller,FDD,TDD Effort PHB class that were dropped in the IP scheduler due to congestion. The counter is available for both the Ethernetbased IP interface and for each VLAN
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of kilo-bytes received over the Controller,FDD,TDD plain IP interface, including framing characters, using Expedited Forwarding PHB class. The counter is available for both the EthernetIP interface and for each VLAN Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone based The number of inbound packets that were Controller,FDD,TDD
successfully received within the Expedited Forwarding PHB class. The counter is available for both the EthernetIP number interfaceofand for eachreceived VLAN out of the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone based The total kilo-bytes Controller,FDD,TDD interface, including framing characters, using the Assured Forwarding 4 PHB class. The counter is available for both the EthernetIP interface and for each VLAN Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone based The number of inbound packets that were Controller,FDD,TDD
successfully received within the Assured Forwarding 4 PHB class. The counter is available for both the EthernetIP number interfaceofand for eachreceived VLAN out of the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone based The total kilo-bytes Controller,FDD,TDD interface, including framing characters, using the Assured Forwarding 3 PHB class. The counter is available for both the EthernetIP interface and for each VLAN Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone based The number of inbound packets that were Controller,FDD,TDD
successfully received within the Assured Forwarding 3 PHB class. The counter is available for both the EthernetIP number interfaceofand for eachreceived VLAN out of the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone based The total kilo-bytes Controller,FDD,TDD interface, including framing characters, using the Assured Forwarding 2 PHB class. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of inbound packets that were Controller,FDD,TDD successfully received within the Assured Forwarding 2 PHB class. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of kilo-bytes received out of the Controller,FDD,TDD interface, including framing characters, using the Assured Forwarding 1 PHB class. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of inbound packets that were Controller,FDD,TDD successfully received within the Assured Forwarding 1 PHB class. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of kilo-bytes received out of the Controller,FDD,TDD interface, including framing characters, using the Best Effort PHB class. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of inbound packets that were Controller,FDD,TDD successfully received within the Best Effort PHB class.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of kilo-bytes in valid frames received on Controller,FDD,TDD the interface. NOTE: _15 is just a string and has no special counter name. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone relevance Number ofinkilo-bytes in valid frames transmitted Controller,FDD,TDD on the interface. NOTE: _15 is just a string and has no special counterframes name. received on the Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone relevance Number ofinEthernet Controller,FDD,TDD interface (errored and non-errored). NOTE: _15 is just a string and has no special counter name. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone relevance Number ofintransmitted Ethernet frames on the Controller,FDD,TDD interface. NOTE: _15 is just a string and has no special countererrored name. Ethernet frames Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone relevance Number ofinreceived Controller,FDD,TDD FCS errors, undersized packets, oversized frames, jabber frames, frames with errors indicated by the PHY. FSM-r2,FSM-r3,FDD,TDD
The number of ingress Ethernet frames NOTE: _15due is just a string and has no special discarded to rate limiting. relevance in counter name.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of Ethernet discarded recieved packets Controller,FDD,TDD not matching the VLAN membership configuration for that switch-port. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of Ethernet TX frames discarded due to Controller,FDD,TDD egress shaping per queue per interface.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of Ethernet TX frames discarded due to Controller,FDD,TDD egress shaping per queue per interface.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of Ethernet TX frames discarded due to Controller,FDD,TDD egress shaping per queue per interface.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of Ethernet TX frames discarded due to Controller,FDD,TDD egress shaping per queue per interface.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of Ethernet TX frames discarded due to Controller,FDD,TDD egress shaping per queue per interface.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Number of Ethernet TX frames discarded due to Controller,FDD,TDD egress shaping per queue per interface.
FSM-r2,FDD,TDD
The number of ingress Ethernet 64-byte blocks discarded due to rate limiting. There is a chance of counter overflow at higher load conditions.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of successfully sent ESP packets Controller,FDD,TDD which are are related to a protect policy.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of received ESP packets addressed Controller,FDD,TDD to a local tunnel endpoint which where received with a SPI which is related to a known policy shall be counted. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of all outgoing packets matching a Controller,FDD,TDD discard policy are counted. Note 1: Discarded packet matching the default policy will not be counted with Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone this The counter. number of dropped packets not addressed Note Thetunnel default policy isorDISCARD until do Controller,FDD,TDD to an 2: local endpoint packets which IPSec policies are configured. not have an ESP or AH header shall be counted which are matching a discard policy in ingress Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone direction. The number of bypassed ESP packets in egress NOTE: Discarded packet matching the default Controller,FDD,TDD direction. policy shall not be counted with this counter. Note 2: The default policy is DISCARD until IPSec policies are configured. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of received packets not addressed Controller,FDD,TDD to an local tunnel endpoint or packets which do not have an ESP or AH header shall be counted which are matching a bypass policy. FSM-r2,FSM-r3,FDD,TDD
The number of dropped packets due to ingress rate limiting. Packets are counted per BTS, e.g. not per interface.
FSM-r2,FSM-r3,FDD,TDD
The number of packets discarded due to ingress packet filtering violations. Packets are counted per BTS, e.g. not per interface.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of packets received on the plain IP Controller,FDD,TDD interface that were delivered to higher-layer protocols. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD
Fragments shall be asreceived individual The total number of counted kilo-bytes onIPthe packets. plain IP interface, including framing characters. Fragments shall be counted as individual IP packets.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of packets that were successfully Controller,FDD,TDD transmitted over the VLAN IP interface. Fragments shall be counted as individual IP Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone packets. The total number of kilo-bytes transmitted over Controller,FDD,TDD the VLAN IP the interface, including framing characters. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone Controller,FDD,TDD
Fragments be counted as individual IP The numbershall of received IP packets or fragments packets. that are discarded for one or more of the
following reasons shall be counted in one aggregate counter for each IP transport interface: - Time-To-Live TTL=1 Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of totalexceeded outbound (TTL=0 packetsor that were for routed SSE traffic (LTE only)) Controller,FDD,TDD dropped in the IP scheduler due to congestion. - IP header checksum failure - ICMPv4 checksum failure (for ICMPv4 packets only) Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of total outbound kilo-bytes that Controller,FDD,TDD were droppeddiscard in the IP scheduler IPv6 specific reasons : due to congestion. - Unspecified as destination address - Multicast destination address and "scope" field =0 FSM-r3,FDD,TDD The number of IP Multicast packets or fragments - Multicast IPv6 address as source address received at the IP network interface. Received IPv6 packet which destination IP Fragments shall be counted as individual address is not configured in the BTS packets. - Any IPv6 packet that contains an FSM-r3,FDD,TDD The total number of kilo-bytes unsupported extension headerreceived in IP Multicast packets or fragments at IP anetwork - Any IPv6 packet that contains supported interface. extension header more than once. Fragments shall be counted as individual - ICMPv6 checksum failure packets. - Non-ICMPv6 FSM-r3,FDD,TDD The number of IP Multicast packets or fragments packet contains Hop-By-Hop Options extension transmitted at the IP network interface. header Fragments shall be counted as individual - UDP checksum failure packets. - Overlapping IPv6 Fragments FSM-r3,FDD,TDD The number of kilo-bytes transmitted at the IP network interface. Fragments shall be counted as individual IP Fragments packets. shall be counted as individual packets. FSM-r3,FDD,TDD
The number of IP multicast packets (unfragmented) or fragments (before reassembly) that have been received on the IP network interface but have been discarded due to one or more of the following reasons: of IP multicast FSM-r3,FDD,TDD The total number of kilo-bytes -packets The NE(unfragmented) did not join the or corresponding IP fragments (before multicast group on the interface on which thisIP reassembly) that have been received on the packet has been received. network interface but have been discarded due to - Theordestination MAC address does not match more of following reasons: Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone one The number of the outbound kilo-bytes that were with the destination MAC address calculated -successfully The NE did transmitted not join the over corresponding Controller,FDD,TDD the VLAN IP interface from the IP multicast address. multicast on the interface on which this within thegroup Expedited Forwarding PHB class. packet has been received. Note: - The destination MAC address does not match -with Counted before reassembly. the destination MAC address calculated -from No IPsec multicast traffic, so decryption the IP for multicast address. does not need to be taken into account. Note: - Counted before reassembly. - No IPsec for multicast traffic, so decryption does not need to be taken into account.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound packets that were Controller,FDD,TDD successfully transmitted over the VLAN interface within the Expedited Forwarding PHB class. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound kilo-bytes within the Controller,FDD,TDD Expedited Forwarding PHB class that were dropped in the IP scheduler due to congestion. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound packets within the Controller,FDD,TDD Expedited Forwarding PHB class that were dropped in the IP scheduler due to congestion. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound kilo-bytes that were Controller,FDD,TDD successfully transmitted over the VLAN interface within the Assured Forwarding 4 PHB class. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound packets that were Controller,FDD,TDD successfully transmitted over the VLAN interface within the Assured Forwarding 4 PHB class. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound kilo-bytes within the Controller,FDD,TDD Assured Forwarding 4 PHB class that were dropped in the IP scheduler due to congestion. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound packets within the Controller,FDD,TDD Assured Forwarding 4 PHB class that were dropped in the IP scheduler due to congestion. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound kilo-bytes within the Controller,FDD,TDD Assured Forwarding 3 PHB class that were successfully transmitted over the VLAN interface within the Assured Forwarding 3 PHB class. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound packets within the Controller,FDD,TDD Assured Forwarding 3 PHB class that were successfully transmitted over the VLAN interface within the Assured Forwarding 3 PHB class. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound kilo-bytes within the Controller,FDD,TDD Assured Forwarding 3 PHB class that were dropped in the IP scheduler due to congestion. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound packets within the Controller,FDD,TDD Assured Forwarding 3 PHB class that were dropped in the IP scheduler due to congestion. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound kilo-bytes within the Controller,FDD,TDD Assured Forwarding 2 PHB class that were successfully transmitted over the VLAN interface within the Assured Forwarding 2 PHB class.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound packets within the Controller,FDD,TDD Assured Forwarding 2 PHB class that were successfully transmitted over the VLAN interface within the Assured Forwarding 2 PHB class. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound kilo-bytes within the Controller,FDD,TDD Assured Forwarding 2 PHB class that were dropped in the IP scheduler due to congestion. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound packets within the Controller,FDD,TDD Assured Forwarding 2 PHB class that were dropped in the IP scheduler due to congestion. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound kilo-bytes within the Controller,FDD,TDD Assured Forwarding 1 PHB class that were successfully transmitted over the VLAN interface within the Assured Forwarding 1 PHB class. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound packets within the Controller,FDD,TDD Assured Forwarding 1 PHB class that were successfully transmitted over the VLAN interface within the Assured Forwarding 1 PHB class. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound kilo-bytes within the Controller,FDD,TDD Assured Forwarding 1 PHB class that were dropped in the IP scheduler due to congestion. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound packets within the Controller,FDD,TDD Assured Forwarding 1 PHB class that were dropped in the IP scheduler due to congestion. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound kilo-bytes within the Controller,FDD,TDD Best Effort PHB class that were successfully transmitted over the VLAN interface within the Best Effort PHB class. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound packets within the Best Controller,FDD,TDD Effort PHB class that were transmitted over the VLAN interface within the Best Effort PHB class. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound kilo-bytes within the Controller,FDD,TDD Best Effort PHB class that were dropped in the IP scheduler due to congestion. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of outbound packets within the Best Controller,FDD,TDD Effort PHB class that were dropped in the IP scheduler due to congestion. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of kilo-bytes received on the Controller,FDD,TDD VLAN interface for the Expedited Forwarding PHB class. The counter includes framing characters.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of packets received on the Controller,FDD,TDD VLAN interface for the Expedited Forwarding PHB class. The counter includes framing characters. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of kilo-bytes received on the Controller,FDD,TDD VLAN interface for the Assured Forwarding 4 PHB class. The counter includes framing characters. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of packets received on the Controller,FDD,TDD VLAN interface for the Assured Forwarding 4 PHB class. The counter includes framing characters. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of kilo-bytes received on the Controller,FDD,TDD VLAN interface for the Assured Forwarding 3 PHB class. The counter includes framing characters. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of packets received on the Controller,FDD,TDD VLAN interface for the Assured Forwarding 3 PHB class. The counter includes framing characters. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of kilo-bytes received on the Controller,FDD,TDD VLAN interface for the Assured Forwarding 2 PHB class. The counter includes framing characters. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of packets received on the Controller,FDD,TDD VLAN interface for the Assured Forwarding 2 PHB class. The counter includes framing characters. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of kilo-bytes received on the Controller,FDD,TDD VLAN interface for the Assured Forwarding 1 PHB class. The counter includes framing characters. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of packets received on the Controller,FDD,TDD VLAN interface for the Assured Forwarding 1 PHB class. The counter includes framing characters. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of kilo-bytes received on the Controller,FDD,TDD VLAN interface for the Best Effort PHB class. The counter includes framing characters. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The total number of packets received on the Controller,FDD,TDD VLAN interface for the Best Effort PHB class. The counter includes framing characters. Flexi Zone Micro BTS,FSM-r2,FSM-r3,FDD,TDD The number of ethernet framesreceived on the interface.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,FDD,TDD The number of ethernet bytes received on the interface. Note: In FlexiZone Micro the system reports the of bytes of received frames at a VLAN Flexi Zone Micro BTS,FSM-r2,FSM-r3,FDD,TDD number The number of ethernet frames transmitted on interface with an offset of -14 bytes (i.e .14 bytes the interface. missing per frame) as the basic Ethernet header decapsulation has happened. Flexi Zone Micro BTS,FSM-r2,FSM-r3,FDD,TDD The number of ethernet Bytes transmitted on the interface
FSM-r2,FSM-r3,FDD,TDD
The number of ethernet frames received on the interface. This includes those that may be subsequently discarded due to errors.
FSM-r2,FSM-r3,FDD,TDD
Number of kilo-bytes in valid frames received on the Ethernet interface layer. Per interface.
FSM-r2,FSM-r3,FDD,TDD
The number of ethernet frames transmitted on the interface.
FSM-r2,FSM-r3,FDD,TDD
The number of ethernet bytes transmitted on the interface.
FSM-r2,FSM-r3,FDD,TDD
Number of received Ethernet packets with no associated VLAN interface.
FSM-r3,FDD,TDD
NOTE 1: _15 is just a string and has no special relevance in counter Total Number of valid Ethernet Multicast Frames name. conveying IP Payload which are addressed to
FSM-r3,FDD,TDD
one of the multicast MAC addresses configured Note This counter in RL50FZ for IP2: applications of is thenot NEsupported (irrespective of the for FZM. configured link layer interface) Total Number of transmitted Ethernet Multicast Note: Link OAM, OAM, Frames that wereService generated by IEEE1588v2, network element SyncE, RSTP multicast frames do not convey IP IP applications. payload and thus are not included here.
Note 1: For eMBMS, frames/packets only control information is Number of transport discarded transmitted as multicast frames. due to egress shaping (Buffer overflow). Note 2: Ethernet Multicast Frames which are switched from one external Ethernet port to another are not included in this counter. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This is the calculated average Round trip time Controller,FDD,TDD (RTT) for TWAMP messages that the BTS has sent to its remote peer during the last 15 minutes for this TWAMP session. FSM-r2,FDD,TDD
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This is the maximum detected Round trip time Controller,FDD,TDD (RTT) for TWAMP messages that the BTS has sent to its remote peer during the last 15 minutes. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This is the minimum detected Round trip time Controller,FDD,TDD (RTT) for TWAMP messages that the BTS has sent to its remote peer during the last 15 minutes. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This is the number of measurements packets lost Controller,FDD,TDD when no reply packet is received within timeout period or a reply-packet with different (higher) sequence number is received. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone This is the number of transmitted TWAMP Controller,FDD,TDD messages for the TWAMP session.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of normal GBR connection requests Controller,FDD,TDD which had been accepted by Tranport Admission Control. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Handover connection requests Controller,FDD,TDD which had been accepted by Tranport Admission Control. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Emergency connection requests Controller,FDD,TDD which had been accepted by Tranport Admission Control. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of normal GBR connection requests Controller,FDD,TDD which had been rejected by Tranport Admission Control due to insufficient transport resources. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone the number of Handover connection requests Controller,FDD,TDD which had been rejected by Tranport Admission Control due to insufficient transport resources. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of Emergency connection requests Controller,FDD,TDD which had been rejected by Tranport Admission Control due to insufficient transport resources. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The mean value of UL total GBR rate. Controller,FDD,TDD
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The maximum value of UL total GBR rate. Controller,FDD,TDD
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The mean value of DL total GBR rate Controller,FDD,TDD
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The maximum value of DL total GBR rate. Controller,FDD,TDD
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of received ToP frequency Controller,FDD synchronisation event messages. Event messages are time stamped and used for clock recovery. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The minimum value of the timing over packet Controller,FDD service estimated freq sync error in ppb during the interval. The unit applicable to FTLB/FTIB HW's is ppb FSMF/FTIF HW ppb/1000. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone and The for average value of theistiming over packet Controller,FDD
service freq sync error in ppb during the interval. The unit applicable to FTLB/FTIB HW is ppb and for FSMF/FTIF HW is ppb/1000.
Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The maximum value of the timing over packet Controller,FDD service freq sync error in ppb during the interval. The unit applicable to FTLB/FTIB HW is ppb and for FSMF/FTIF HW is ppb/1000. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of seconds during this interval while Controller,FDD the timing over packet frequency synchronisation service was in locked state. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The number of received ToP sync event Controller,FDD,TDD messages. Event messages are time stamped and used for clock recovery. Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone The minimum value of the estimated phase error, Controller,FDD,TDD between the current phase of the network element and the estimated phase based on the ToP traffic flow used for recovering the timing in duringofthe Thephase minimum Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone nanoseconds The average value theinterval. estimated error, estimated phase error value has a sign and can Controller,FDD,TDD between the current phase of the network be positive negative. element andorthe estimated phase based on the ToP traffic flow used for recovering the timing in thethe interval. The phase average Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone nanoseconds The maximumduring value of estimated estimated phase error value has a sign can Controller,FDD,TDD error, between the current phase of the and network be positive or negative. element and the estimated phase based on the ToP traffic flow used for recovering the timing in the during interval. The maximum Flexi Zone Micro BTS,FSM-r2,FSM-r3,Flexi Zone nanoseconds The number ofduring seconds this interval while estimated phase error value has a sign and can Controller,FDD,TDD the timing over packet phase synchronisation be positive service wasorinnegative. locked state.
Flexi Zone Micro BTS,Flexi Zone Controller,FDD Number of kilo bytes transmitted in uplink traffic from the WiFi access point.
Flexi Zone Micro BTS,Flexi Zone Controller,FDD Number of kilo bytes received in downlink traffic from the WiFi access point.
Flexi Zone Micro BTS,FSM-r2,FSM-r3
The number of EPS bearer setup failures due to any Radio Network Layer cause except "radio resources not available". Each bearer of the "ERAB Failed to Setup List" IE is counted.
Flexi Zone Micro BTS,FSM-r2,FSM-r3
The number of EPS bearer setup failures due to Transport Layer. Each bearer of the "E-RAB Failed to Setup List" IE is counted.
Flexi Zone Micro BTS,FSM-r2,FSM-r3
The number of EPS bearer setup failures due to Radio Resource reasons. Each bearer of the "ERAB Failed to Setup List" IE has to be counted.
Flexi Zone Micro BTS,FSM-r2,FSM-r3
The number of EPS bearer setup failures due to Other reasons. Each bearer of the "E-RAB Failed to Setup List" IE is counted.
Flexi Zone Micro BTS,FSM-r2,FSM-r3
The number of released E-RABs initiated by the eNB due to user inactivity.
Flexi Zone Micro BTS,FSM-r2,FSM-r3
The number of released E-RABs initiated by the eNB due to Radio Link Failure.
Flexi Zone Micro BTS,FSM-r2,FSM-r3
The number of released E-RABs initiated by the eNB due to other reasons.
Flexi Zone Micro BTS,FSM-r2,FSM-r3
The number of released E-RABs initiated by the eNB due to Redirect.
Flexi Zone Micro BTS,FSM-r2,FSM-r3
The number of released QCI1 E-RABs initiated by the eNB due to user inactivity.
Flexi Zone Micro BTS,FSM-r2,FSM-r3
The number of released QCI1 E-RABs initiated by the eNB due to Radio Link Failure.
Flexi Zone Micro BTS,FSM-r2,FSM-r3
The number of released QCI1 E-RABs initiated by the eNB due to other reasons.
Flexi Zone Micro BTS,FSM-r2,FSM-r3
The number of released QCI1 E-RABs initiated by the eNB due to Redirect.
Flexi Zone Micro BTS,FSM-r2,FSM-r3
This measurement provides the number of GBR E-RABs (Guaranteed Bit Rate bearers, 3GPP TS 23.203) being released due to lack of radio resources.
Flexi Zone Micro BTS,FSM-r2,FSM-r3
This measurement provides the number of nonGBR E-RABs (non-Guaranteed Bit Rate bearers, 3GPP TS 23.203) being released due to lack of radio resources. The number of released Data Radio Bearers due
Flexi Zone Micro BTS,FSM-r2,FSM-r3
to "normal release" per cell.
Flexi Zone Micro BTS,FSM-r2,FSM-r3
It comprises also the released Data Radio Bearers originally setup due an incoming The number of released DatatoRadio Bearers due Handover. to "lost radio connection" between UE and eNB.
Flexi Zone Micro BTS,FSM-r2,FSM-r3
It comprises also the release of Data Radio Bearers originally setup due an incoming The number of released DatatoRadio Bearers due Handover. to "other reasons".
Flexi Zone Micro BTS,FSM-r2,FSM-r3
It comprises also the release of Data Radio Bearers originally setup due an incoming The number of released DatatoRadio Bearers due Handover. to Radio Network Layer cause Redirect.
Flexi Zone Micro BTS,FSM-r2,FSM-r3
The measurement gives indication of the eUu interface traffic load by reporting Minimum UL PDCP traffic throughput.
Flexi Zone Micro BTS,FSM-r2,FSM-r3
The measurement gives indication of the eUu interface traffic load by reporting Minimum DL PDCP traffic throughput.
Flexi Zone Micro BTS,FSM-r2,FSM-r3
The number of Signaling Connection Establishment failures due to Rejection by RRM RAC. The UE has not reached the ECMCONNECTED state.
Flexi Zone Micro BTS,FSM-r2,FSM-r3
The number of Signaling Connection Establishment attempts due to other reasons. From UE's point of view, the transition from ECMIDLE to ECM-CONNECTED is started.
Description in issue 08
Description in release RL70
The number of S1 Setup Requests. The number of S1 Setup Requests.
The number of S1 Setup completions.
The number of S1 Setup completions.
The number of S1 Setup failures due to the expiration of the S1 setup procedure guarding timer.
The number of S1 Setup failures due to the expiration of the S1 setup procedure guarding timer.
The number of S1 Setup failures due to the reception of S1 Setup Failure message from MME.
The number of S1 Setup failures due to the reception of S1 Setup Failure message from MME.
The number of S1 paging requests. The number of S1 paging requests.
The number of S1 Full Reset messages initiated by eNB.
The number of S1 Full Reset messages initiated by eNB.
The number of S1 Full Reset messages initiated by MME
The number of S1 Full Reset messages initiated by MME
The number of S1 Partial Reset messages initiated by eNB.
The number of S1 Partial Reset messages initiated by eNB.
The number of S1 Partial Reset messages initiated by MME
The number of S1 Partial Reset messages initiated by MME
The number of UE context modification attempts due to UEAMBR modification
The number of UE context modification attempts due to UEAMBR modification
This measurement provides the number of failed WRITE-REPLACE WARNING procedures. The procedure is regarded as failed when there is no eNB for which Number of failed KILL cell procedures. the Warning Message handling has The procedure is regarded as failed been successfully initiated. when the cancellation of the
This measurement provides the number of failed WRITE-REPLACE WARNING procedures. The procedure is regarded as failed when there is no eNB for which Number of failed KILL cell procedures. the Warning Message handling has The procedure is regarded as failed been successfully initiated. when the cancellation of the
indicated Warning Message has not been initiatedoffor at least one cell of The number Uplink NAS the eNB. Transport messages sent to MME.
indicated Warning Message has not been initiatedoffor at least one cell of The number Uplink NAS the eNB. Transport messages sent to MME.
The number of Downlink NAS Transport messages received by the eNB.
The number of Downlink NAS Transport messages received by the eNB.
The number of E-RAB Setup Requests for IMS emergency sessions.
The number of E-RAB Setup Requests for IMS emergency sessions.
The number of E-RAB Setup Completions for IMS emergency sessions.
The number of E-RAB Setup Completions for IMS emergency sessions.
The number of E-RAB setup failures for IMS emergency sessions due to missing RB (Radio Bearer) resources.
The number of E-RAB setup failures for IMS emergency sessions due to missing RB (Radio Bearer) resources.
The number of Location Reporting Control messages received from MME per eNB.
The number of Location Reporting Control messages received from MME per eNB.
The number of Location Report messages sent to MME per eNB.
The number of Location Report messages sent to MME per eNB.
This counter provides the number This counter provides the number of successful X2 IP address of successful X2 IP address retrievals of a neighbor eNB via S1. retrievals of a neighbor eNB via S1. This counter provides the number of attempts initiated by eNB to retrieve the X2 IP address of a neighbor eNB via S1.
This counter provides the number of attempts initiated by eNB to retrieve the X2 IP address of a neighbor eNB via S1.
Number of S1AP:WRITEREPLACE WARNING REQUEST messages received from MME.
Number of S1AP:WRITEREPLACE WARNING REQUEST messages received from MME.
Number of S1AP:WRITENumber of S1AP:WRITEREPLACE WARNING RESPONSE REPLACE WARNING RESPONSE messages sent to MME. messages sent to MME. Number of S1AP:KILL REQUEST messages received from MME.
Number of S1AP:KILL REQUEST messages received from MME.
Number of S1AP:KILL RESPONSE Number of S1AP:KILL RESPONSE messages sent to MME. messages sent to MME.
This counter provides the number #N/A of downlink UE associated LPPa transport messages with E-CID measurement initiation request per eNB (LPPA:E-CID This counter provides the number #N/A MEASUREMENT INITIATION of uplink UE associated LPPa REQUEST). transport messages with E-CID measurement initiation response per (LPPA:E-CID ThiseNB counter provides the number MEASUREMENT INITIATION of uplink UE associated LPPa RESPONSE). transport messages with E-CID measurement initiation response per with provides cause "Requested ThiseNB counter the number Item not Supported" of uplink UE associated LPPa (LPPA:E-CID MEASUREMENT transport messages with E-CID INITIATION FAILURE). The measurement initiation response following list shows the potential per eNB with cause "Requested The minimum retention period for a scenarios where this may happen: Item Temporarily not Available" PDCP SDU (DL) inside the eNB. -(LPPA:E-CID The feature isMEASUREMENT not activated. -INITIATION None of theFAILURE). requested E-CID measurements arepotential supported. The following are -scenarios Themaximum periodic reporting is The retention period for a where this may happen: requested (but not yet supported). PDCP SDU (DL) inside the eNB. - Request for measurements when -handover TDD: Request for AoA but is in progress dependent features are not are - Requested measurements activated. supported none of the for a The mean but retention period measurements can be PDCP SDU (DL) insideprovided the eNB. due to internal eNB failure.
#N/A
#N/A
The minimum retention period for a PDCP SDU (DL) inside the eNB.
The maximum retention period for a PDCP SDU (DL) inside the eNB.
The mean retention period for a PDCP SDU (DL) inside the eNB.
The minimum retention period for a The minimum retention period for a PDCP SDU (UL) inside the eNB. PDCP SDU (UL) inside the eNB.
The maximum retention period for a The maximum retention period for a PDCP SDU (UL) inside the eNB. PDCP SDU (UL) inside the eNB.
The mean retention period for a PDCP SDU (UL) inside the eNB.
The mean retention period for a PDCP SDU (UL) inside the eNB.
The number of RACH setup attempts for small size messages (only contention based).
The number of RACH setup attempts for small size messages (only contention based).
The number of RACH setup attempts for large size messages (only contention based).
The number of RACH setup attempts for large size messages (only contention based).
The number of RACH setup The number of RACH setup completions (contention based and completions (contention based and dedicated preambles). dedicated preambles). The number of transmitted transport blocks on PCH.
The number of transmitted transport blocks on PCH.
The number of transmitted transport blocks on BCH.
The number of transmitted transport blocks on BCH.
The number of transmitted transport blocks on DL-SCH.
The number of transmitted transport blocks on DL-SCH.
The number of HARQ retransmissions on DL-SCH.
The number of HARQ retransmissions on DL-SCH.
The number of correct nonduplicate UL-SCH TB with original reception.
The number of correct nonduplicate UL-SCH TB with original reception.
The number of correct UL-SCH TB The number of correct UL-SCH TB with re-reception with re-reception
The number of erroneous UL-SCH TB receptions.
The number of erroneous UL-SCH TB receptions.
The number of transmissions on PUSCH over the measurement period using MCS0
The number of transmissions on PUSCH over the measurement period using MCS0
The number of transmissions on PUSCH over the measurement period using MCS1
The number of transmissions on PUSCH over the measurement period using MCS1
The number of transmissions on PUSCH over the measurement period using MCS2
The number of transmissions on PUSCH over the measurement period using MCS2
The number of transmissions on PUSCH over the measurement period using MCS3
The number of transmissions on PUSCH over the measurement period using MCS3
The number of transmissions on PUSCH over the measurement period using MCS4
The number of transmissions on PUSCH over the measurement period using MCS4
The number of transmissions on PUSCH over the measurement period using MCS5
The number of transmissions on PUSCH over the measurement period using MCS5
The number of transmissions on PUSCH over the measurement period using MCS6
The number of transmissions on PUSCH over the measurement period using MCS6
The number of transmissions on PUSCH over the measurement period using MCS7
The number of transmissions on PUSCH over the measurement period using MCS7
The number of transmissions on PUSCH over the measurement period using MCS8
The number of transmissions on PUSCH over the measurement period using MCS8
The number of transmissions on PUSCH over the measurement period using MCS9
The number of transmissions on PUSCH over the measurement period using MCS9
The number of transmissions on PUSCH over the measurement period using MCS10
The number of transmissions on PUSCH over the measurement period using MCS10
The number of transmissions on PUSCH over the measurement period using MCS11
The number of transmissions on PUSCH over the measurement period using MCS11
The number of transmissions on PUSCH over the measurement period using MCS12
The number of transmissions on PUSCH over the measurement period using MCS12
The number of transmissions on PUSCH over the measurement period using MCS13
The number of transmissions on PUSCH over the measurement period using MCS13
The number of transmissions on PUSCH over the measurement period using MCS14
The number of transmissions on PUSCH over the measurement period using MCS14
The number of transmissions on PUSCH over the measurement period using MCS15
The number of transmissions on PUSCH over the measurement period using MCS15
The number of transmissions on PUSCH over the measurement period using MCS16
The number of transmissions on PUSCH over the measurement period using MCS16
The number of transmissions on PUSCH over the measurement period using MCS17
The number of transmissions on PUSCH over the measurement period using MCS17
The number of transmissions on PUSCH over the measurement period using MCS18
The number of transmissions on PUSCH over the measurement period using MCS18
The number of transmissions on PUSCH over the measurement period using MCS19
The number of transmissions on PUSCH over the measurement period using MCS19
The number of transmissions on PUSCH over the measurement period using MCS20
The number of transmissions on PUSCH over the measurement period using MCS20
The number of transmissions on PUSCH over the measurement period using MCS21
The number of transmissions on PUSCH over the measurement period using MCS21
The number of transmissions on PUSCH over the measurement period using MCS22
The number of transmissions on PUSCH over the measurement period using MCS22
The number of transmissions on PUSCH over the measurement period using MCS23
The number of transmissions on PUSCH over the measurement period using MCS23
The number of transmissions on PUSCH over the measurement period using MCS24
The number of transmissions on PUSCH over the measurement period using MCS24
The number of transmissions on PUSCH over the measurement period using MCS25
The number of transmissions on PUSCH over the measurement period using MCS25
The number of transmissions on PUSCH over the measurement period using MCS26
The number of transmissions on PUSCH over the measurement period using MCS26
The number of transmissions on PUSCH over the measurement period using MCS27
The number of transmissions on PUSCH over the measurement period using MCS27
The number of transmissions on PUSCH over the measurement period using MCS28
The number of transmissions on PUSCH over the measurement period using MCS28
The number of transmissions on PDSCH over the measurement period using MCS0
The number of transmissions on PDSCH over the measurement period using MCS0
The number of transmissions on PDSCH over the measurement period using MCS1
The number of transmissions on PDSCH over the measurement period using MCS1
The number of transmissions on PDSCH over the measurement period using MCS2
The number of transmissions on PDSCH over the measurement period using MCS2
The number of transmissions on PDSCH over the measurement period using MCS3
The number of transmissions on PDSCH over the measurement period using MCS3
The number of transmissions on PDSCH over the measurement period using MCS4
The number of transmissions on PDSCH over the measurement period using MCS4
The number of transmissions on PDSCH over the measurement period using MCS5
The number of transmissions on PDSCH over the measurement period using MCS5
The number of transmissions on PDSCH over the measurement period using MCS6
The number of transmissions on PDSCH over the measurement period using MCS6
The number of transmissions on PDSCH over the measurement period using MCS7
The number of transmissions on PDSCH over the measurement period using MCS7
The number of transmissions on PDSCH over the measurement period using MCS8
The number of transmissions on PDSCH over the measurement period using MCS8
The number of transmissions on PDSCH over the measurement period using MCS9
The number of transmissions on PDSCH over the measurement period using MCS9
The number of transmissions on PDSCH over the measurement period using MCS10
The number of transmissions on PDSCH over the measurement period using MCS10
The number of transmissions on PDSCH over the measurement period using MCS11
The number of transmissions on PDSCH over the measurement period using MCS11
The number of transmissions on PDSCH over the measurement period using MCS12
The number of transmissions on PDSCH over the measurement period using MCS12
The number of transmissions on PDSCH over the measurement period using MCS13
The number of transmissions on PDSCH over the measurement period using MCS13
The number of transmissions on PDSCH over the measurement period using MCS14
The number of transmissions on PDSCH over the measurement period using MCS14
The number of transmissions on PDSCH over the measurement period using MCS15
The number of transmissions on PDSCH over the measurement period using MCS15
The number of transmissions on PDSCH over the measurement period using MCS16
The number of transmissions on PDSCH over the measurement period using MCS16
The number of transmissions on PDSCH over the measurement period using MCS17
The number of transmissions on PDSCH over the measurement period using MCS17
The number of transmissions on PDSCH over the measurement period using MCS18
The number of transmissions on PDSCH over the measurement period using MCS18
The number of transmissions on PDSCH over the measurement period using MCS19
The number of transmissions on PDSCH over the measurement period using MCS19
The number of transmissions on PDSCH over the measurement period using MCS20
The number of transmissions on PDSCH over the measurement period using MCS20
The number of transmissions on PDSCH over the measurement period using MCS21
The number of transmissions on PDSCH over the measurement period using MCS21
The number of transmissions on PDSCH over the measurement period using MCS22
The number of transmissions on PDSCH over the measurement period using MCS22
The number of transmissions on PDSCH over the measurement period using MCS23
The number of transmissions on PDSCH over the measurement period using MCS23
The number of transmissions on PDSCH over the measurement period using MCS24
The number of transmissions on PDSCH over the measurement period using MCS24
The number of transmissions on PDSCH over the measurement period using MCS25
The number of transmissions on PDSCH over the measurement period using MCS25
The number of transmissions on PDSCH over the measurement period using MCS26
The number of transmissions on PDSCH over the measurement period using MCS26
The number of transmissions on PDSCH over the measurement period using MCS27
The number of transmissions on PDSCH over the measurement period using MCS27
The number of transmissions on PDSCH over the measurement period using MCS28
The number of transmissions on PDSCH over the measurement period using MCS28
The number of unacknowledged transmissions on PUSCH using MCS0
The number of unacknowledged transmissions on PUSCH using MCS0
The number of unacknowledged transmissions on PUSCH using MCS1
The number of unacknowledged transmissions on PUSCH using MCS1
The number of unacknowledged transmissions on PUSCH using MCS2
The number of unacknowledged transmissions on PUSCH using MCS2
The number of unacknowledged transmissions on PUSCH using MCS3
The number of unacknowledged transmissions on PUSCH using MCS3
The number of unacknowledged transmissions on PUSCH using MCS4
The number of unacknowledged transmissions on PUSCH using MCS4
The number of unacknowledged transmissions on PUSCH using MCS5
The number of unacknowledged transmissions on PUSCH using MCS5
The number of unacknowledged transmissions on PUSCH using MCS6
The number of unacknowledged transmissions on PUSCH using MCS6
The number of unacknowledged transmissions on PUSCH using MCS7
The number of unacknowledged transmissions on PUSCH using MCS7
The number of unacknowledged transmissions on PUSCH using MCS8
The number of unacknowledged transmissions on PUSCH using MCS8
The number of unacknowledged transmissions on PUSCH using MCS9
The number of unacknowledged transmissions on PUSCH using MCS9
The number of unacknowledged transmissions on PUSCH using MCS10
The number of unacknowledged transmissions on PUSCH using MCS10
The number of unacknowledged transmissions on PUSCH using MCS11
The number of unacknowledged transmissions on PUSCH using MCS11
The number of unacknowledged transmissions on PUSCH using MCS12
The number of unacknowledged transmissions on PUSCH using MCS12
The number of unacknowledged transmissions on PUSCH using MCS13
The number of unacknowledged transmissions on PUSCH using MCS13
The number of unacknowledged transmissions on PUSCH using MCS14
The number of unacknowledged transmissions on PUSCH using MCS14
The number of unacknowledged transmissions on PUSCH using MCS15
The number of unacknowledged transmissions on PUSCH using MCS15
The number of unacknowledged transmissions on PUSCH using MCS16
The number of unacknowledged transmissions on PUSCH using MCS16
The number of unacknowledged transmissions on PUSCH using MCS17
The number of unacknowledged transmissions on PUSCH using MCS17
The number of unacknowledged transmissions on PUSCH using MCS18
The number of unacknowledged transmissions on PUSCH using MCS18
The number of unacknowledged transmissions on PUSCH using MCS19
The number of unacknowledged transmissions on PUSCH using MCS19
The number of unacknowledged transmissions on PUSCH using MCS20
The number of unacknowledged transmissions on PUSCH using MCS20
The number of unacknowledged transmissions on PUSCH using MCS21
The number of unacknowledged transmissions on PUSCH using MCS21
The number of unacknowledged transmissions on PUSCH using MCS22
The number of unacknowledged transmissions on PUSCH using MCS22
The number of unacknowledged transmissions on PUSCH using MCS23
The number of unacknowledged transmissions on PUSCH using MCS23
The number of unacknowledged transmissions on PUSCH using MCS24
The number of unacknowledged transmissions on PUSCH using MCS24
The number of unacknowledged transmissions on PUSCH using MCS25
The number of unacknowledged transmissions on PUSCH using MCS25
The number of unacknowledged transmissions on PUSCH using MCS26
The number of unacknowledged transmissions on PUSCH using MCS26
The number of unacknowledged transmissions on PUSCH using MCS27
The number of unacknowledged transmissions on PUSCH using MCS27
The number of unacknowledged transmissions on PUSCH using MCS28
The number of unacknowledged transmissions on PUSCH using MCS28
The number of unacknowledged transmissions on PDSCH using MCS0
The number of unacknowledged transmissions on PDSCH using MCS0
The number of unacknowledged transmissions on PDSCH using MCS1
The number of unacknowledged transmissions on PDSCH using MCS1
The number of unacknowledged transmissions on PDSCH using MCS2
The number of unacknowledged transmissions on PDSCH using MCS2
The number of unacknowledged transmissions on PDSCH using MCS3
The number of unacknowledged transmissions on PDSCH using MCS3
The number of unacknowledged transmissions on PDSCH using MCS4
The number of unacknowledged transmissions on PDSCH using MCS4
The number of unacknowledged transmissions on PDSCH using MCS5
The number of unacknowledged transmissions on PDSCH using MCS5
The number of unacknowledged transmissions on PDSCH using MCS6
The number of unacknowledged transmissions on PDSCH using MCS6
The number of unacknowledged transmissions on PDSCH using MCS7
The number of unacknowledged transmissions on PDSCH using MCS7
The number of unacknowledged transmissions on PDSCH using MCS8
The number of unacknowledged transmissions on PDSCH using MCS8
The number of unacknowledged transmissions on PDSCH using MCS9
The number of unacknowledged transmissions on PDSCH using MCS9
The number of unacknowledged transmissions on PDSCH using MCS10
The number of unacknowledged transmissions on PDSCH using MCS10
The number of unacknowledged transmissions on PDSCH using MCS11
The number of unacknowledged transmissions on PDSCH using MCS11
The number of unacknowledged transmissions on PDSCH using MCS12
The number of unacknowledged transmissions on PDSCH using MCS12
The number of unacknowledged transmissions on PDSCH using MCS13
The number of unacknowledged transmissions on PDSCH using MCS13
The number of unacknowledged transmissions on PDSCH using MCS14
The number of unacknowledged transmissions on PDSCH using MCS14
The number of unacknowledged transmissions on PDSCH using MCS15
The number of unacknowledged transmissions on PDSCH using MCS15
The number of unacknowledged transmissions on PDSCH using MCS16
The number of unacknowledged transmissions on PDSCH using MCS16
The number of unacknowledged transmissions on PDSCH using MCS17
The number of unacknowledged transmissions on PDSCH using MCS17
The number of unacknowledged transmissions on PDSCH using MCS18
The number of unacknowledged transmissions on PDSCH using MCS18
The number of unacknowledged transmissions on PDSCH using MCS19
The number of unacknowledged transmissions on PDSCH using MCS19
The number of unacknowledged transmissions on PDSCH using MCS20
The number of unacknowledged transmissions on PDSCH using MCS20
The number of unacknowledged transmissions on PDSCH using MCS21
The number of unacknowledged transmissions on PDSCH using MCS21
The number of unacknowledged transmissions on PDSCH using MCS22
The number of unacknowledged transmissions on PDSCH using MCS22
The number of unacknowledged transmissions on PDSCH using MCS23
The number of unacknowledged transmissions on PDSCH using MCS23
The number of unacknowledged transmissions on PDSCH using MCS24
The number of unacknowledged transmissions on PDSCH using MCS24
The number of unacknowledged transmissions on PDSCH using MCS25
The number of unacknowledged transmissions on PDSCH using MCS25
The number of unacknowledged transmissions on PDSCH using MCS26
The number of unacknowledged transmissions on PDSCH using MCS26
The number of unacknowledged transmissions on PDSCH using MCS27
The number of unacknowledged transmissions on PDSCH using MCS27
The number of unacknowledged transmissions on PDSCH using MCS28
The number of unacknowledged transmissions on PDSCH using MCS28
The number of RLC SDUs on DL DTCH
The number of RLC SDUs on DL DTCH
The number of RLC SDUs on DL DCCH
The number of RLC SDUs on DL DCCH
The number of RLC SDUs on UL DTCH
The number of RLC SDUs on UL DTCH
The number of RLC SDUs on UL DCCH
The number of RLC SDUs on UL DCCH
The number of RLC AM/UM data PDUs transmitted for the first time on the RLC level
The number of RLC AM/UM data PDUs transmitted for the first time on the RLC level
The number of RLC data PDUs retransmitted on the RLC level
The number of RLC data PDUs retransmitted on the RLC level
The number of Non-duplicate RLC The number of Non-duplicate RLC AM/UM data PDUs received. AM/UM data PDUs received.
The number of DL RLC Control PDUs transmitted the first time
The number of DL RLC Control PDUs transmitted the first time
The number of DL RLC Data PDUs The number of DL RLC Data PDUs transmitted the first time transmitted the first time
The number of UL RLC PDUs received (total).
The number of UL RLC PDUs received (total).
The number of duplicate UL RLC PDU received
The number of duplicate UL RLC PDU received
The number of UL RLC PDUs retransmission requested on the RLC level
The number of UL RLC PDUs retransmission requested on the RLC level
The number of UL RLC PDUs discarded
The number of UL RLC PDUs discarded
The number of DL RLC SDUs received from the upper layer
The number of DL RLC SDUs received from the upper layer
The average number of UE contexts per TTI with UP data on the RLC-level buffers in the DL (active users). This measurement can used to number monitor of theUE The be maximum congestion level of the eNB contexts per TTI with UP data on queuing system, whichinisthe realized the RLC-level buffers DL by schedulers for the shared (active users). This measurement channels. can used represents to monitor the The be counter thetimes reported value is 100 congestion level of the eNB aggregated timeactual period of the higher than the value (for queuing system, which is realized Control Plane during Overload level example, 1.00 is stored as 100). by schedulers for the shared 1 operation. channels.
The average number of UE contexts per TTI with UP data on the RLC-level buffers in the DL (active users). This measurement can used to number monitor of theUE The be maximum congestion level of the eNB contexts per TTI with UP data on queuing system, whichinisthe realized the RLC-level buffers DL by schedulers for the shared (active users). This measurement channels. can used represents to monitor the The be counter thetimes reported value is 100 congestion level of the eNB aggregated timeactual period of the higher than the value (for queuing system, which is realized Control Plane during Overload level example, 1.00 is stored as 100). by schedulers for the shared 1 operation. channels.
The average number of UE contexts per TTI having buffered DRB data in the UL (active users). This measurement can be used to monitor the congestion level The maximum number of UEof the eNB queuing system, which is contexts per TTI having buffered realized by schedulers for the DRB data in the UL (active users). shared channels. can be used to This measurement The reported value is 100 times monitor the congestion level of the The counter represents the (for higher than the actual value eNB queuing system, which is aggregated time of the example, is period storedfor asthe 100). realized by1.00 schedulers Control Plane during Overload level shared channels (Inter-RAT 2 operation. Redirection). The number of received PDCP SDUs (uplink) per cell.
The average number of UE contexts per TTI having buffered DRB data in the UL (active users). This measurement can be used to monitor the congestion level The maximum number of UEof the eNB queuing system, which is contexts per TTI having buffered realized by schedulers for the DRB data in the UL (active users). shared channels. can be used to This measurement The reported value is 100 times monitor the congestion level of the The counter represents the (for higher than the actual value eNB queuing system, which is aggregated time of the example, is period storedfor asthe 100). realized by1.00 schedulers Control Plane during Overload level shared channels (Inter-RAT 2 operation. Redirection). The number of received PDCP SDUs (uplink) per cell.
The number of transmitted PDCP SDUs per cell.
The number of transmitted PDCP SDUs per cell.
This measurement provides the total number of discarded PDCP SDUs in downlink for DRBs.
This measurement provides the total number of discarded PDCP SDUs in downlink for DRBs.
The number of unsuccessful transmissions on PDSCH using MCS0 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
The number of unsuccessful transmissions on PDSCH using MCS0 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS1 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS1 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS2 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS2 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS3 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS3 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS4 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS4 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS5 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered.
MCS5 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered.
The number of unsuccessful transmissions on PDSCH using MCS6 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
The number of unsuccessful transmissions on PDSCH using MCS6 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS7 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS7 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS8 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS8 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS9 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS9 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS10 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS10 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS11 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS11 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS12 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS12 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS13 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS13 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS14 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS14 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS15 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS15 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS16 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS16 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS17 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered.
MCS17 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered.
The number of unsuccessful transmissions on PDSCH using MCS18 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
The number of unsuccessful transmissions on PDSCH using MCS18 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS19 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS19 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS20 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions are considered. receptions on PUSCH using MCS0
MCS20 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions are considered. receptions on PUSCH using MCS0
Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions The number of unsuccessfulare considered. receptions on PUSCH using MCS1
Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions The number of unsuccessfulare considered. receptions on PUSCH using MCS1
Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions The number of unsuccessfulare considered. receptions on PUSCH using MCS2
Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions The number of unsuccessfulare considered. receptions on PUSCH using MCS2
Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions The number of unsuccessfulare considered. receptions on PUSCH using MCS3
Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions The number of unsuccessfulare considered. receptions on PUSCH using MCS3
Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions The number of unsuccessfulare considered. receptions on PUSCH using MCS4
Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions The number of unsuccessfulare considered. receptions on PUSCH using MCS4
Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions The number of unsuccessfulare considered. receptions on PUSCH using MCS5
Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions The number of unsuccessfulare considered. receptions on PUSCH using MCS5
Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions The number of unsuccessfulare considered. receptions on PUSCH using MCS6
Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions The number of unsuccessfulare considered. receptions on PUSCH using MCS6
Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions The number of unsuccessfulare considered. receptions on PUSCH using MCS7
Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions The number of unsuccessfulare considered. receptions on PUSCH using MCS7
Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions The number of unsuccessfulare considered. receptions on PUSCH using MCS8
Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions The number of unsuccessfulare considered. receptions on PUSCH using MCS8
Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered.
Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered.
The number of unsuccessful receptions on PUSCH using MCS9 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions The number of unsuccessfulare considered. receptions on PUSCH using
The number of unsuccessful receptions on PUSCH using MCS9 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions The number of unsuccessfulare considered. receptions on PUSCH using
MCS10 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions are considered. receptions on PUSCH using
MCS10 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions are considered. receptions on PUSCH using
MCS11 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions are considered. receptions on PUSCH using
MCS11 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions are considered. receptions on PUSCH using
MCS12 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions are considered. receptions on PUSCH using
MCS12 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions are considered. receptions on PUSCH using
MCS13 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions are considered. receptions on PUSCH using
MCS13 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions are considered. receptions on PUSCH using
MCS14 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions are considered. receptions on PUSCH using
MCS14 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions are considered. receptions on PUSCH using
MCS15 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions are considered. receptions on PUSCH using
MCS15 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions are considered. receptions on PUSCH using
MCS16 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions are considered. receptions on PUSCH using
MCS16 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions are considered. receptions on PUSCH using
MCS17 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions are considered. receptions on PUSCH using
MCS17 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions are considered. receptions on PUSCH using
MCS18 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions are considered. receptions on PUSCH using
MCS18 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions are considered. receptions on PUSCH using
MCS19 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions are considered. receptions on PUSCH using
MCS19 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions are considered. receptions on PUSCH using
MCS20 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered.
MCS20 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions are considered.
This counter provides the average number of UEs per TTI using UL intra-eNB CoMP. The reported value is 100 times higher than the actualofvalue The average number UEs(for in example 1.00 is stored as RRC_CONNECTED state 100). over the
This counter provides the average number of UEs per TTI using UL intra-eNB CoMP. The reported value is 100 times higher than the actualofvalue The average number UEs(for in example 1.00 is stored as RRC_CONNECTED state 100). over the
measurement period. The average value is the arithmetical average of samples taken from number The highest value forthe number of of UEs in RRC_CONNECTED state. UEs in RRC_CONNECTED state
measurement period. The average value is the arithmetical average of samples taken from number The highest value forthe number of of UEs in RRC_CONNECTED state. UEs in RRC_CONNECTED state
over the measurement period.
over the measurement period.
The number of unsuccessful transmissions on PDSCH using MCS21 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
The number of unsuccessful transmissions on PDSCH using MCS21 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS22 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS22 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS23 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS23 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS24 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS24 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS25 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS25 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS26 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS26 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS27 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS27 Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ The number of unsuccessful retransmissions considered. transmissions onare PDSCH using
MCS28 Modulation and Coding Scheme. Only not transmitted TBs exceeding HARQ RLC SDUs The volumemax of queued retransmissions considered. is measured. DLare SRB queues are
MCS28 Modulation and Coding Scheme. Only not transmitted TBs exceeding HARQ RLC SDUs The volumemax of queued retransmissions considered. is measured. DLare SRB queues are
counted only when there is data in the buffer. The minimum value over the measurement period is updated to this counter.
counted only when there is data in the buffer. The minimum value over the measurement period is updated to this counter.
The volume of queued RLC SDUs is measured. DL SRB queues are counted only when there is data in the buffer. The mean value over the measurement is RLC updated to The volume of period queued SDUs this counter. is measured. DL SRB queues are
The volume of queued RLC SDUs is measured. DL SRB queues are counted only when there is data in the buffer. The mean value over the measurement is RLC updated to The volume of period queued SDUs this counter. is measured. DL SRB queues are
counted only when there is data in the buffer. The maximum value over the period is updated Themeasurement volume of queued RLC SDUs to this counter. is measured. DL DRB queues are
counted only when there is data in the buffer. The maximum value over the period is updated Themeasurement volume of queued RLC SDUs to this counter. is measured. DL DRB queues are
counted only when there is data in the buffer. The minimum value over the period is updated Themeasurement volume of queued RLC SDUs to this counter. is measured. DL DRB queues are
counted only when there is data in the buffer. The minimum value over the period is updated Themeasurement volume of queued RLC SDUs to this counter. is measured. DL DRB queues are
counted only when there is data in the buffer. The mean value over the measurement is RLC updated to The volume of period queued SDUs this counter. is measured. DL DRB queues are
counted only when there is data in the buffer. The mean value over the measurement is RLC updated to The volume of period queued SDUs this counter. is measured. DL DRB queues are
counted only when there is data in the buffer. The maximum value over the is updated Thismeasurement measurementperiod provides the to this counter. average number of PRBs on
counted only when there is data in the buffer. The maximum value over the is updated Thismeasurement measurementperiod provides the to this counter. average number of PRBs on
PDSCH available for dynamic scheduling.
PDSCH available for dynamic scheduling.
This measurement provides the average number of PRBs on PUSCH available for dynamic scheduling.
This measurement provides the average number of PRBs on PUSCH available for dynamic scheduling.
The number of transmitted RLC SDUs on BCCH per cell.
The number of transmitted RLC SDUs on BCCH per cell.
The number of transmitted RLC SDUs on CCCH per cell.
The number of transmitted RLC SDUs on CCCH per cell.
The number of transmitted RLC SDUs on PCCH per cell.
The number of transmitted RLC SDUs on PCCH per cell.
The number of received RLC SDUs The number of received RLC SDUs on CCCH. on CCCH.
The average number of active UEs per cell during measurement period. A UE is active if at least a single non-GBR DRB has been successfully configured for it.
The average number of active UEs per cell during measurement period. A UE is active if at least a single non-GBR DRB has been successfully configured for it.
The maximum number of active UEs per cell during measurement period. A UE is active if at least a single non-GBR DRB has been successfully The average configured number of for UEit.
The maximum number of active UEs per cell during measurement period. A UE is active if at least a single non-GBR DRB has been successfully The average configured number of for UEit.
contexts per TTI with buffered data in the DL for QCI1 data radio bearer. The value is of 100 The reported average number UEtimes higher than the actual value (for contexts per TTI with buffered data example, 1.00 is stored as 100). in the DL for QCI2 data radio
contexts per TTI with buffered data in the DL for QCI1 data radio bearer. The value is of 100 The reported average number UEtimes higher than the actual value (for contexts per TTI with buffered data example, 1.00 is stored as 100). in the DL for QCI2 data radio
bearer. The value is of 100 The reported average number UEtimes higher than the actual value (for contexts per TTI with buffered data example, 1.00 is stored as 100). in the DL for QCI3 data radio
bearer. The value is of 100 The reported average number UEtimes higher than the actual value (for contexts per TTI with buffered data example, 1.00 is stored as 100). in the DL for QCI3 data radio
bearer. The value is of 100 The reported average number UEtimes higher than the actual value (for contexts per TTI with buffered data example, 1.00 is stored as 100). in the DL for QCI4 data radio
bearer. The value is of 100 The reported average number UEtimes higher than the actual value (for contexts per TTI with buffered data example, 1.00 is stored as 100). in the DL for QCI4 data radio
bearer. The reported value ETWS is 100 times Number of primary higher than the actual value (for notifications. example, 1.00 is stored as 100).
bearer. The reported value ETWS is 100 times Number of primary higher than the actual value (for notifications. example, 1.00 is stored as 100).
Number of secondary ETWS notifications.
Number of secondary ETWS notifications.
Number of CMAS notifications.
Number of CMAS notifications.
#N/A
#N/A
The average number of UE contexts per TTI with buffered data in the DL for non-GBR data radio bearers. The value provides is 100 times This reported measurement the higher than the actual sum of sampled valuesvalue for (for example, storedof as 100). measuring1.00 the is number
The average number of UE contexts per TTI with buffered data in the DL for non-GBR data radio bearers. The value provides is 100 times This reported measurement the higher than the actual sum of sampled valuesvalue for (for example, storedof as 100). measuring1.00 the is number
simultaneously Active UEs with buffered dataofinsamples DL. Thistaken counter, The number for divided by the denominator counter DENOM_ACTIVE_UE_DATA_DL, SUM_ACTIVE_UE_DATA_DL used provides the average number of as a denominator for average Active UEs with buffered user plane calculation. data in DL per cell.
simultaneously Active UEs with buffered dataofinsamples DL. Thistaken counter, The number for divided by the denominator counter DENOM_ACTIVE_UE_DATA_DL, SUM_ACTIVE_UE_DATA_DL used provides the average number of as a denominator for average Active UEs with buffered user plane calculation. data in DL per cell.
This measurement provides the sum of sampled values for measuring the number of simultaneously Active UEs with buffered dataofinsamples UL. Thistaken counter, The number for divided by the denominator counter DENOM_ACTIVE_UE_DATA_UL, SUM_ACTIVE_UE_DATA_UL used provides the average number of as a denominator for average Active UEs with buffered user plane calculation. The data mean in UL retention per cell. delay for a PDCP SDU (DL) inside eNB per QCI 1
This measurement provides the sum of sampled values for measuring the number of simultaneously Active UEs with buffered dataofinsamples UL. Thistaken counter, The number for divided by the denominator counter DENOM_ACTIVE_UE_DATA_UL, SUM_ACTIVE_UE_DATA_UL used provides the average number of as a denominator for average Active UEs with buffered user plane calculation. The data mean in UL retention per cell. delay for a PDCP SDU (DL) inside eNB per QCI 1
The mean retention delay for a PDCP SDU (DL) inside eNB nonGBR data radio bearers
The mean retention delay for a PDCP SDU (DL) inside eNB nonGBR data radio bearers
The mean retention delay for a PDCP SDU (DL) inside eNB for QCI2 bearers.
The mean retention delay for a PDCP SDU (DL) inside eNB for QCI2 bearers.
The mean retention delay for a PDCP SDU (DL) inside eNB for QCI3 bearers.
The mean retention delay for a PDCP SDU (DL) inside eNB for QCI3 bearers.
The mean retention delay for a PDCP SDU (DL) inside eNB for QCI4 bearers.
The mean retention delay for a PDCP SDU (DL) inside eNB for QCI4 bearers.
The number of RACH setup attempts for dedicated preambles.
The number of RACH setup attempts for dedicated preambles.
This measurement provides the sum of sampled values for measuring the number of active UEs in a TTI, which had data scheduled in of UL. The number samples taken for This counter, divided by the counter denominator SUM_ACT_UE_SCHED_DATA_UL DENOM_ACT_UE_SCHED_DATA_ used as a denominator for average UL, provides the average number calculation. This measurement provides of active UEs per cell, which the had sum sampledinvalues data of scheduled UL. for measuring the number of active UEs in a TTI, which had data scheduled in of DL. The number samples taken for This counter, divided by the counter denominator SUM_ACT_UE_SCHED_DATA_DL DENOM_ACT_UE_SCHED_DATA_ used as a denominator for average DL, provides the average number calculation. of active UEs per cell, which had data scheduled in DL.
This measurement provides the sum of sampled values for measuring the number of active UEs in a TTI, which had data scheduled in of UL. The number samples taken for This counter, divided by the counter denominator SUM_ACT_UE_SCHED_DATA_UL DENOM_ACT_UE_SCHED_DATA_ used as a denominator for average UL, provides the average number calculation. This measurement provides of active UEs per cell, which the had sum sampledinvalues data of scheduled UL. for measuring the number of active UEs in a TTI, which had data scheduled in of DL. The number samples taken for This counter, divided by the counter denominator SUM_ACT_UE_SCHED_DATA_DL DENOM_ACT_UE_SCHED_DATA_ used as a denominator for average DL, provides the average number calculation. of active UEs per cell, which had data scheduled in DL.
The counter represents the amount #N/A of overload samples when the user plane overload level is 1. The counter represents the amount #N/A of overload samples when the user plane overload level is 2. This measurement provides the number of received PDCP SDUs for QCI 1 bearers. Only user-plane traffic (DTCH) is considered. This measurement provides the
This measurement provides the number of received PDCP SDUs for QCI 1 bearers. Only user-plane traffic (DTCH) is considered. This measurement provides the
number of received PDCP SDUs for QCI 2 bearers. Only user-plane traffic (DTCH) is considered. This measurement provides the
number of received PDCP SDUs for QCI 2 bearers. Only user-plane traffic (DTCH) is considered. This measurement provides the
number of received PDCP SDUs for QCI 3 bearers. Only user-plane traffic (DTCH) is considered. This measurement provides the
number of received PDCP SDUs for QCI 3 bearers. Only user-plane traffic (DTCH) is considered. This measurement provides the
number of received PDCP SDUs for QCI 4 bearers. Only user-plane traffic (DTCH) is considered. The mean IP latency (retention
number of received PDCP SDUs for QCI 4 bearers. Only user-plane traffic (DTCH) is considered. The mean IP latency (retention
delay for a PDCP SDU) inside eNB delay for a PDCP SDU) inside eNB for QCI 5 bearers. for QCI 5 bearers. The mean IP latency (retention The mean IP latency (retention delay for a PDCP SDU) inside eNB delay for a PDCP SDU) inside eNB for QCI 6 bearers. for QCI 6 bearers. The mean IP latency (retention The mean IP latency (retention delay for a PDCP SDU) inside eNB delay for a PDCP SDU) inside eNB for QCI 7 bearers. for QCI 7 bearers. The mean IP latency (retention The mean IP latency (retention delay for a PDCP SDU) inside eNB delay for a PDCP SDU) inside eNB for QCI 8 bearers. for QCI 8 bearers. The mean IP latency (retention The mean IP latency (retention delay for a PDCP SDU) inside eNB delay for a PDCP SDU) inside eNB for QCI 9 bearers. for QCI 9 bearers. The number of transmitted PDCP SDUs in downlink for QCI 1
The number of transmitted PDCP SDUs in downlink for QCI 1
This measurement provides the number of transmitted PDCP SDUs in downlink for GBR DRBs of QCI2 characteristics.
This measurement provides the number of transmitted PDCP SDUs in downlink for GBR DRBs of QCI2 characteristics.
This measurement provides the number of transmitted PDCP SDUs in downlink for GBR DRBs of QCI3 characteristics.
This measurement provides the number of transmitted PDCP SDUs in downlink for GBR DRBs of QCI3 characteristics.
This measurement provides the number of transmitted PDCP SDUs in downlink for GBR DRBs of QCI4 characteristics.
This measurement provides the number of transmitted PDCP SDUs in downlink for GBR DRBs of QCI4 characteristics.
This measurement provides the sum of sampled values for measuring the number of simultaneously RRC Connected UEs. This counter divided by the The number of samples taken for denominator counter SUM_RRC_CONN_UE DENOM_RRC_CONN_UE provides used as a denominator for average the average number of RRC calculation. Connected UEs per cell. This measurement provides the sum of sampled values for measuring the number of simultaneously Active UEs. This counter divided by the denominator The number of samples taken for DENOM_ACTIVE_UE provides counter SUM_ACTIVE_UE usedthe as average number of Active UEs per a denominator for average cell. calculation. A UE is active if at least a single The counter represents non-GBR DRB has beenthe time period for theconfigured broadcast for of it. successfully automatic access class barring information due to overload.
This measurement provides the sum of sampled values for measuring the number of simultaneously RRC Connected UEs. This counter divided by the The number of samples taken for denominator counter SUM_RRC_CONN_UE DENOM_RRC_CONN_UE provides used as a denominator for average the average number of RRC calculation. Connected UEs per cell. This measurement provides the sum of sampled values for measuring the number of simultaneously Active UEs. This counter divided by the denominator The number of samples taken for DENOM_ACTIVE_UE provides counter SUM_ACTIVE_UE usedthe as average number of Active UEs per a denominator for average cell. calculation. A UE is active if at least a single #N/A non-GBR DRB has been successfully configured for it.
This measurement provides the number of discarded PDCP SDUs in downlink for GBR DRBs of QCI1 bearers.
This measurement provides the number of discarded PDCP SDUs in downlink for GBR DRBs of QCI1 bearers.
This measurement provides the number of discarded PDCP SDUs in downlink for GBR DRBs of QCI2 characteristics.
This measurement provides the number of discarded PDCP SDUs in downlink for GBR DRBs of QCI2 characteristics.
This measurement provides the number of discarded PDCP SDUs in downlink for GBR DRBs of QCI3 characteristics.
This measurement provides the number of discarded PDCP SDUs in downlink for GBR DRBs of QCI3 characteristics.
This measurement provides the number of discarded PDCP SDUs in downlink for GBR DRBs of QCI4 characteristics.
This measurement provides the number of discarded PDCP SDUs in downlink for GBR DRBs of QCI4 characteristics.
The average number of UE contexts per TTI with buffered data in the UL for logical channel group (LCG), which has VoIP (QCI1) bearer that is number mapped.ofNote The average UE that this counter provides reliable contexts per TTI with bufferedresults data only QCI1 mapped into the in theif UL for is logical channel groups, LCG1. which have non-GBR bearers The reported value is 100 times (QCI5...9) that are mapped. This counter provides the number higher than the actual value (for Note that inorder case attempts of mixed of PDCCH (including example, 1.00 is stored as 100). GBR/non-GBR bearers that are PDCCH order repetitions). mapping into the LCG, there can be an error in the obtained results This counter provides the number because it cannot be distinguished of initial PDCCH order whether this counter is attempts. updated only for non-GBR bearers or for GBR bearers as well. The reported value is 100 times This counter provides the number higher than the actual orders. value (for of successful PDCCH example, 1.00 is stored as 100).
The average number of UE contexts per TTI with buffered data in the UL for logical channel group (LCG), which has VoIP (QCI1) bearer that is number mapped.ofNote The average UE that this counter provides reliable contexts per TTI with bufferedresults data only QCI1 mapped into the in theif UL for is logical channel groups, LCG1. which have non-GBR bearers The reported value is 100 times (QCI5...9) that are mapped. This counter provides the number higher than the actual value (for Note that inorder case attempts of mixed of PDCCH (including example, 1.00 is stored as 100). GBR/non-GBR bearers that are PDCCH order repetitions). mapping into the LCG, there can be an error in the obtained results This counter provides the number because it cannot be distinguished of initial PDCCH order whether this counter is attempts. updated only for non-GBR bearers or for GBR bearers as well. The reported value is 100 times This counter provides the number higher than the actual orders. value (for of successful PDCCH example, 1.00 is stored as 100).
This counter provides the number of events when a dedicated preamble could not be assigned (eNB -> UE) because of insufficient dedicated preamble in This counter providesresources the number the cell. This counter is updated of events when a dedicated irrespectively of not thatbe forassigned which preamble could purpose a dedicated preamble (eNB -> UE) for PDCCH order could not be assigned, that is purposes because of insufficient This counter provides the number irrespective of whether a dedicated dedicated preamble resources in of events when anot dedicated preamble could be assigned, for the cell. preamble could not be assigned example for PDCCH order (eNB -> UE) handover purposes purposes, forfor handover purposes or because of insufficient dedicated for other purposes. This counter provides the number preamble resources in from the cell. of UE state transitions UplinkIn-Sync to Uplink-Out-Of-Sync.
This counter provides the number of events when a dedicated preamble could not be assigned (eNB -> UE) because of insufficient dedicated preamble in This counter providesresources the number the cell. This counter is updated of events when a dedicated irrespectively of not thatbe forassigned which preamble could purpose a dedicated preamble (eNB -> UE) for PDCCH order could not be assigned, that is purposes because of insufficient This counter provides the number irrespective of whether a dedicated dedicated preamble resources in of events when anot dedicated preamble could be assigned, for the cell. preamble could not be assigned example for PDCCH order (eNB -> UE) handover purposes purposes, forfor handover purposes or because of insufficient dedicated for other purposes. This counter provides the number preamble resources in from the cell. of UE state transitions UplinkIn-Sync to Uplink-Out-Of-Sync.
This counter provides the average number of UEs which are in UplinkIn-Sync. Remark: The average number of Uplink-Out-Of-Sync UEs the This counter provides theisaverage difference between the average number of RRC connected UEs number of RRC connected UEs in which have set the "deviceType" and the average number of the "UE-EUTRA-Capability" Uplinkto In-Sync UEs. "noBenFromBatConsumpOpt", that This counter is part of the is which have indicated to the histogram "UE UL-Out-Of-Sync network that the theynumber do not of time" and(eNB) provides foresee to benefit from networkevents when the measured Uplinkbased batterytime consumption Out-Of-Sync T of a UE was in optimization (3GPP TS 36.331, TS the range 36.306), that is which have 0 seconds < T <= 0.5 seconds. indicated that their power supply The UE Uplink-Out-Of-Sync time T resources are not limited to the time is measured by the eNB as the small battery of astate normal UE (forULbetween the UE transition example LTE smart phone In-Sync -> UL-Out-Of-Syncwith and the limited battery buttransition that theyULsubsequent UElife) state have access -> to unlimited power Out-Of-Sync UL-In-Sync. supply resources (for example The counters which are part of LTE the USB-stick connected to a PC using
This counter provides the average number of UEs which are in UplinkIn-Sync. Remark: The average number of Uplink-Out-Of-Sync UEs the This counter provides theisaverage difference between the average number of RRC connected UEs number of RRC connected UEs in which have set the "deviceType" and the average number of the "UE-EUTRA-Capability" Uplinkto In-Sync UEs. "noBenFromBatConsumpOpt", that This counter is part of the is which have indicated to the histogram "UE UL-Out-Of-Sync network that the theynumber do not of time" and(eNB) provides foresee to benefit from networkevents when the measured Uplinkbased batterytime consumption Out-Of-Sync T of a UE was in optimization (3GPP TS 36.331, TS the range 36.306), that is which have 0 seconds < T <= 0.5 seconds. indicated that their power supply The UE Uplink-Out-Of-Sync time T resources are not limited to the time is measured by the eNB as the small battery of astate normal UE (forULbetween the UE transition example LTE smart phone In-Sync -> UL-Out-Of-Syncwith and the limited battery buttransition that theyULsubsequent UElife) state have access -> to unlimited power Out-Of-Sync UL-In-Sync. supply resources (for example The counters which are part of LTE the USB-stick connected to a PC using
This counter is part of the histogram "UE UL-Out-Of-Sync time" and provides the number of events when the measured UplinkOut-Of-Sync time T of of the a UE was in This counter is part the range histogram "UE UL-Out-Of-Sync 0.5 seconds < T <=the 2.5number seconds. time" and provides of The UE Uplink-Out-Of-Sync time T events when the measured Uplinkis measured by theT eNB as the Out-Of-Sync time of the a UE wastime in This counter is part of between the UE state transition ULthe range histogram UL-Out-Of-Sync In-Sync -> "UE UL-Out-Of-Sync and the 2.5 seconds < T <=the 10 number seconds. time" and provides of subsequent UE state transition ULThe UEwhen Uplink-Out-Of-Sync time T events theUL-In-Sync. measured UplinkOut-Of-Sync -> is measured by the eNB as the time Out-Of-Sync time T of of a part UE was in The which are of the This counters counter is part the between the UE state transition ULthe range histogram "UE UL-Out-Of-Sync histogram UL-Out-Of-Sync In-Sync -> "UE UL-Out-Of-Sync and the 10 seconds < information T <= the 100number seconds. time" provide regarding time" and provides of subsequent UE state transition ULThe UEwhen Uplink-Out-Of-Sync time T the distribution the UL-Out-Ofevents theof measured UplinkOut-Of-Sync -> UL-In-Sync. is measured by the eNB as the time Sync times of the UEs in the cell. Out-Of-Sync time T transmissions of a part UE was The counters which are of the The number of first between the100 UE state transition ULlarger than seconds. histogram "UE UL-Out-Of-Sync on PUSCH for used Modulation and In-Sync -> UL-Out-Of-Sync and The UE Uplink-Out-Of-Sync timethe T time" provide information regarding Coding Scheme. subsequent UE state transition ULis measured byof the eNB as the time the distribution the UL-Out-OfOut-Of-Sync -> UL-In-Sync. between theofUE transition Sync times thestate UEs the of cell.ULThe counters areinpart The number ofwhich first transmissions In-Sync -> UL-Out-Of-Sync andthe the histogram UL-Out-Of-Sync on PUSCH"UE for and subsequent UEused stateModulation transition ULtime" provide information regarding Coding Scheme. Out-Of-Sync -> UL-In-Sync. the of theare UL-Out-OfThedistribution counters which part of the Sync times of the UEs in the cell. histogram "UE The number of UL-Out-Of-Sync first transmissions time" provide regarding on PUSCH forinformation used Modulation and the distribution of the UL-Out-OfCoding Scheme. Sync times of the UEs in the cell.
This counter is part of the histogram "UE UL-Out-Of-Sync time" and provides the number of events when the measured UplinkOut-Of-Sync time T of of the a UE was in This counter is part the range histogram "UE UL-Out-Of-Sync 0.5 seconds < T <=the 2.5number seconds. time" and provides of The UE Uplink-Out-Of-Sync time T events when the measured Uplinkis measured by theT eNB as the Out-Of-Sync time of the a UE wastime in This counter is part of between the UE state transition ULthe range histogram UL-Out-Of-Sync In-Sync -> "UE UL-Out-Of-Sync and the 2.5 seconds < T <=the 10 number seconds. time" and provides of subsequent UE state transition ULThe UEwhen Uplink-Out-Of-Sync time T events theUL-In-Sync. measured UplinkOut-Of-Sync -> is measured by the eNB as the time Out-Of-Sync time T of of a part UE was in The which are of the This counters counter is part the between the UE state transition ULthe range histogram "UE UL-Out-Of-Sync histogram UL-Out-Of-Sync In-Sync -> "UE UL-Out-Of-Sync and the 10 seconds < information T <= the 100number seconds. time" provide regarding time" and provides of subsequent UE state transition ULThe UEwhen Uplink-Out-Of-Sync time T the distribution the UL-Out-Ofevents theof measured UplinkOut-Of-Sync -> UL-In-Sync. is measured by the eNB as the time Sync times of the UEs in the cell. Out-Of-Sync time T transmissions of a part UE was The counters which are of the The number of first between the100 UE state transition ULlarger than seconds. histogram "UE UL-Out-Of-Sync on PUSCH for used Modulation and In-Sync -> UL-Out-Of-Sync and The UE Uplink-Out-Of-Sync timethe T time" provide information regarding Coding Scheme. subsequent UE state transition ULis measured byof the eNB as the time the distribution the UL-Out-OfOut-Of-Sync -> UL-In-Sync. between theofUE transition Sync times thestate UEs the of cell.ULThe counters areinpart The number ofwhich first transmissions In-Sync -> UL-Out-Of-Sync andthe the histogram UL-Out-Of-Sync on PUSCH"UE for and subsequent UEused stateModulation transition ULtime" provide information regarding Coding Scheme. Out-Of-Sync -> UL-In-Sync. the of theare UL-Out-OfThedistribution counters which part of the Sync times of the UEs in the cell. histogram "UE The number of UL-Out-Of-Sync first transmissions time" provide regarding on PUSCH forinformation used Modulation and the distribution of the UL-Out-OfCoding Scheme. Sync times of the UEs in the cell.
The number of first transmissions The number of first transmissions on PUSCH for used Modulation and on PUSCH for used Modulation and Coding Scheme. Coding Scheme. The number of first transmissions The number of first transmissions on PUSCH for used Modulation and on PUSCH for used Modulation and Coding Scheme. Coding Scheme. The number of first transmissions The number of first transmissions on PUSCH for used Modulation and on PUSCH for used Modulation and Coding Scheme. Coding Scheme. The number of first transmissions The number of first transmissions on PUSCH for used Modulation and on PUSCH for used Modulation and Coding Scheme. Coding Scheme. The number of first transmissions The number of first transmissions on PUSCH for used Modulation and on PUSCH for used Modulation and Coding Scheme. Coding Scheme.
The number of first transmissions The number of first transmissions on PUSCH for used Modulation and on PUSCH for used Modulation and Coding Scheme. Coding Scheme. The number of first transmissions The number of first transmissions on PUSCH for used Modulation and on PUSCH for used Modulation and Coding Scheme. Coding Scheme. The number of first transmissions The number of first transmissions on PUSCH for used Modulation and on PUSCH for used Modulation and Coding Scheme. Coding Scheme. The number of first transmissions The number of first transmissions on PUSCH for used Modulation and on PUSCH for used Modulation and Coding Scheme. Coding Scheme. The number of first transmissions The number of first transmissions on PUSCH for used Modulation and on PUSCH for used Modulation and Coding Scheme. Coding Scheme. The number of first transmissions The number of first transmissions on PUSCH for used Modulation and on PUSCH for used Modulation and Coding Scheme. Coding Scheme. The number of first transmissions The number of first transmissions on PUSCH for used Modulation and on PUSCH for used Modulation and Coding Scheme. Coding Scheme. The number of first transmissions The number of first transmissions on PUSCH for used Modulation and on PUSCH for used Modulation and Coding Scheme. Coding Scheme. The number of first transmissions The number of first transmissions on PUSCH for used Modulation and on PUSCH for used Modulation and Coding Scheme. Coding Scheme. The number of first transmissions The number of first transmissions on PUSCH for used Modulation and on PUSCH for used Modulation and Coding Scheme. Coding Scheme. The number of first transmissions The number of first transmissions on PUSCH for used Modulation and on PUSCH for used Modulation and Coding Scheme. Coding Scheme. The number of first transmissions The number of first transmissions on PUSCH for used Modulation and on PUSCH for used Modulation and Coding Scheme. Coding Scheme.
The number of first transmissions The number of first transmissions on PUSCH for used Modulation and on PUSCH for used Modulation and Coding Scheme. Coding Scheme. The number of first transmissions The number of first transmissions on PUSCH for used Modulation and on PUSCH for used Modulation and Coding Scheme. Coding Scheme. The number of first transmissions The number of first transmissions on PUSCH for used Modulation and on PUSCH for used Modulation and Coding Scheme. Coding Scheme. The number of first transmissions The number of first transmissions on PUSCH for used Modulation and on PUSCH for used Modulation and Coding Scheme. Coding Scheme. The number of first transmissions The number of first transmissions on PUSCH for used Modulation and on PUSCH for used Modulation and Coding Scheme. Coding Scheme. The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of not acknowledged 1st transmissions on PUSCH for used Modulation and Coding Scheme.
The number of unsuccessful receptions on PUSCH for used Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions The number of unsuccessfulare considered. receptions on PUSCH for used
The number of unsuccessful receptions on PUSCH for used Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions The number of unsuccessfulare considered. receptions on PUSCH for used
Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions The number of unsuccessfulare considered. receptions on PUSCH for used
Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions The number of unsuccessfulare considered. receptions on PUSCH for used
Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions The number of unsuccessfulare considered. receptions on PUSCH for used
Modulation and Coding Scheme. Only not transmitted TBs exceeding max HARQ retransmissions The number of unsuccessfulare considered. receptions on PUSCH for used
Modulation and Coding Scheme. Only not transmitted TBs exceeding max #N/AHARQ retransmissions are considered.
Modulation and Coding Scheme. Only not transmitted TBs exceeding max #N/AHARQ retransmissions are considered.
This counter provides the average number of DL CA-capable UEs in the current cell, which - in case of CA configuration - serves as PCell for these UEs. The reported value is 100 times higher than the actual value (for example 1.00 is stored as 100).
This counter provides the average number of DL CA-capable UEs in the current cell, which - in case of CA configuration - serves as PCell for these UEs. The reported value is 100 times higher than the actual value (for example 1.00 is stored as 100).
This counter provides the average number of UEs in the current cell, which have a configured SCell. The reported value is 100 times higher than the actual the value (for This counter provides average example 1.00 is stored as 100). number of UEs in the current cell,
This counter provides the average number of UEs in the current cell, which have a configured SCell. The reported value is 100 times higher than the actual the value (for This counter provides average example 1.00 is stored as 100). number of UEs in the current cell,
which have an activated SCell. The reported value is 100 times higher than the actual the value (for This counter provides average example 1.00 is stored as 100). number of DL CA-capable UEs for
which have an activated SCell. The reported value is 100 times higher than the actual the value (for This counter provides average example 1.00 is stored as 100). number of DL CA-capable UEs for
3 component carriers (3 CCs) in the current cell. This cell (in case of CA configuration) serves as for This counter provides thePCell average these UEs. number of UEs in the current cell The reported value is 100 times having two configured SCells. higher than the actual value (for The reported value is 100 times example, 1.00 is stored as 100). higher than the actual the value (for This counter provides average example, 1.00 is stored as 100). number UEs in the current Note: If aofUE supports 2 CCs cell, as which have two activated SCells. well, this is counted in M8001C494. The reported value is 100 times higher than the actual value The measurement gives an (for example, 1.00 is stored as 100). indication of the X2 interface
3 component carriers (3 CCs) in the current cell. This cell (in case of CA configuration) serves as for This counter provides thePCell average these UEs. number of UEs in the current cell The reported value is 100 times having two configured SCells. higher than the actual value (for The reported value is 100 times example, 1.00 is stored as 100). higher than the actual the value (for This counter provides average example, 1.00 is stored as 100). number UEs in the current Note: If aofUE supports 2 CCs cell, as which have two activated SCells. well, this is counted in M8001C494. The reported value is 100 times higher than the actual value The measurement gives an (for example, 1.00 is stored as 100). indication of the X2 interface
signaling load per eNB by reporting the sum of received signaling volume. The measurement gives an
signaling load per eNB by reporting the sum of received signaling volume. The measurement gives an
indication of the X2 interface signaling load per eNB by reporting the sum of transmitted signaling volume. The measurement gives an
indication of the X2 interface signaling load per eNB by reporting the sum of transmitted signaling volume. The measurement gives an
indication of the X2 interface traffic load per eNB by reporting the sum of received u-plane traffic volume.
indication of the X2 interface traffic load per eNB by reporting the sum of received u-plane traffic volume.
The measurement gives an indication of the X2 interface traffic load per eNB by reporting the sum of transmitted u-plane traffic volume. The Received Signal Strength
The measurement gives an indication of the X2 interface traffic load per eNB by reporting the sum of transmitted u-plane traffic volume. The Received Signal Strength
Indicator (RSSI) Min value for PUCCH, measured in the eNB.
Indicator (RSSI) Min value for PUCCH, measured in the eNB.
The Received Signal Strength Indicator (RSSI) Max value for PUCCH, measured in the eNB.
The Received Signal Strength Indicator (RSSI) Max value for PUCCH, measured in the eNB.
The Received Signal Strength Indicator (RSSI) Mean value for PUCCH, measured in the eNB.
The Received Signal Strength Indicator (RSSI) Mean value for PUCCH, measured in the eNB.
The Received Signal Strength Indicator (RSSI) Min value for PUSCH, measured in the eNB.
The Received Signal Strength Indicator (RSSI) Min value for PUSCH, measured in the eNB.
The Received Signal Strength Indicator (RSSI) Max value for PUSCH, measured in the eNB.
The Received Signal Strength Indicator (RSSI) Max value for PUSCH, measured in the eNB.
The Received Signal Strength Indicator (RSSI) Mean value for PUSCH, measured in the eNB.
The Received Signal Strength Indicator (RSSI) Mean value for PUSCH, measured in the eNB.
The Received Signal Strength Indicator (RSSI) distribution for PUCCH, measured in the eNB. The RssiPucchUe value <= -120 dBm is updated to this counter. The Received Signal Strength
The Received Signal Strength Indicator (RSSI) distribution for PUCCH, measured in the eNB. The RssiPucchUe value <= -120 dBm is updated to this counter. The Received Signal Strength
Indicator (RSSI) distribution for PUCCH, measured in the eNB. The RssiPucchUe value in the range of -120 dBm < RssiPucchUe <= -118 The Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
Indicator (RSSI) distribution for PUCCH, measured in the eNB. The RssiPucchUe value in the range of -120 dBm < RssiPucchUe <= -118 The Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -118 dBm < RssiPucchUe <= -116 The Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -118 dBm < RssiPucchUe <= -116 The Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -116 dBm < RssiPucchUe <= -114 The Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -116 dBm < RssiPucchUe <= -114 The Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -114 dBm < RssiPucchUe <= -112 The Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -114 dBm < RssiPucchUe <= -112 The Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -112 dBm < RssiPucchUe <= -110 The Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -112 dBm < RssiPucchUe <= -110 The Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -110 dBm < RssiPucchUe <= -108 The Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -110 dBm < RssiPucchUe <= -108 The Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -108 dBm < RssiPucchUe <= -106 The Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -108 dBm < RssiPucchUe <= -106 The Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -106 dBm < RssiPucchUe <= -104 dBm is updated to this counter.
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -106 dBm < RssiPucchUe <= -104 dBm is updated to this counter.
The Received Signal Strength Indicator (RSSI) distribution for PUCCH, measured in the eNB. The RssiPucchUe value in the range of -104 dBm < RssiPucchUe <= -102 The Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
The Received Signal Strength Indicator (RSSI) distribution for PUCCH, measured in the eNB. The RssiPucchUe value in the range of -104 dBm < RssiPucchUe <= -102 The Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -102 dBm < RssiPucchUe <= -100 The Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -102 dBm < RssiPucchUe <= -100 The Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -100 dBm < RssiPucchUe <= -98 The Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -100 dBm < RssiPucchUe <= -98 The Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -98 < RssiPucchUe <= -96 ThedBm Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -98 < RssiPucchUe <= -96 ThedBm Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -96 < RssiPucchUe <= -94 ThedBm Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -96 < RssiPucchUe <= -94 ThedBm Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -94 < RssiPucchUe <= -92 ThedBm Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -94 < RssiPucchUe <= -92 ThedBm Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -92 < RssiPucchUe <= -90 ThedBm Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -92 < RssiPucchUe <= -90 ThedBm Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -90 < RssiPucchUe <= -88 ThedBm Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -90 < RssiPucchUe <= -88 ThedBm Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -88 < RssiPucchUe <= -86 ThedBm Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -88 < RssiPucchUe <= -86 ThedBm Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -86 < RssiPucchUe <= -84 ThedBm Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -86 < RssiPucchUe <= -84 ThedBm Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -84 < RssiPucchUe <= -82 ThedBm Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -84 < RssiPucchUe <= -82 ThedBm Received Signal Strength dBm is updated to this counter. Indicator (RSSI) distribution for
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -82 dBm < RssiPucchUe <= -80 dBm is updated to this counter.
PUCCH, measured in the eNB. The RssiPucchUe value in the range of -82 dBm < RssiPucchUe <= -80 dBm is updated to this counter.
The Received Signal Strength Indicator (RSSI) distribution for PUCCH, measured in the eNB. The RssiPucchUe value in the range of RssiPucchUe -80 dBm is The Received >Signal Strength updated to this counter. Indicator (RSSI) distribution for
The Received Signal Strength Indicator (RSSI) distribution for PUCCH, measured in the eNB. The RssiPucchUe value in the range of RssiPucchUe -80 dBm is The Received >Signal Strength updated to this counter. Indicator (RSSI) distribution for
PUSCH, measured in the eNB. The RssiPucchUe value <= -120 dBm is updated to this counter. The Received Signal Strength
PUSCH, measured in the eNB. The RssiPucchUe value <= -120 dBm is updated to this counter. The Received Signal Strength
Indicator (RSSI) distribution for PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of dBm
Indicator (RSSI) distribution for PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of dBm
RssiPUSCHUe value in the range of dBm
RssiPUSCHUe value in the range of dBm
RssiPUSCHUe value in the range of dBm
RssiPUSCHUe value in the range of dBm
RssiPUSCHUe value in the range of dBm
RssiPUSCHUe value in the range of dBm
RssiPUSCHUe value in the range of dBm
RssiPUSCHUe value in the range of dBm
RssiPUSCHUe value in the range of dBm
RssiPUSCHUe value in the range of dBm
RssiPUSCHUe value in the range of dBm
RssiPUSCHUe value in the range of dBm
RssiPUSCHUe value in the range of dBm
RssiPUSCHUe value in the range of dBm
RssiPUSCHUe value in the range of dBm
RssiPUSCHUe value in the range of dBm
RssiPUSCHUe value in the range of -102 dBm < RssiPUSCHUe <= -100 dBm is updated to this counter.
RssiPUSCHUe value in the range of -102 dBm < RssiPUSCHUe <= -100 dBm is updated to this counter.
The Received Signal Strength Indicator (RSSI) distribution for PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of dBm
The Received Signal Strength Indicator (RSSI) distribution for PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of dBm
PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of dBm < RssiPUSCHUe The-98 Received Signal Strength <= -96 dBm is updated to this counter. Indicator (RSSI) distribution for
PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of dBm < RssiPUSCHUe The-98 Received Signal Strength <= -96 dBm is updated to this counter. Indicator (RSSI) distribution for
PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of dBm < RssiPUSCHUe The-96 Received Signal Strength <= -94 dBm is updated to this counter. Indicator (RSSI) distribution for
PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of dBm < RssiPUSCHUe The-96 Received Signal Strength <= -94 dBm is updated to this counter. Indicator (RSSI) distribution for
PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of dBm < RssiPUSCHUe The-94 Received Signal Strength <= -92 dBm is updated to this counter. Indicator (RSSI) distribution for
PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of dBm < RssiPUSCHUe The-94 Received Signal Strength <= -92 dBm is updated to this counter. Indicator (RSSI) distribution for
PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of dBm < RssiPUSCHUe The-92 Received Signal Strength <= -90 dBm is updated to this counter. Indicator (RSSI) distribution for
PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of dBm < RssiPUSCHUe The-92 Received Signal Strength <= -90 dBm is updated to this counter. Indicator (RSSI) distribution for
PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of dBm < RssiPUSCHUe The-90 Received Signal Strength <= -88 dBm is updated to this counter. Indicator (RSSI) distribution for
PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of dBm < RssiPUSCHUe The-90 Received Signal Strength <= -88 dBm is updated to this counter. Indicator (RSSI) distribution for
PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of dBm < RssiPUSCHUe The-88 Received Signal Strength <= -86 dBm is updated to this counter. Indicator (RSSI) distribution for
PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of dBm < RssiPUSCHUe The-88 Received Signal Strength <= -86 dBm is updated to this counter. Indicator (RSSI) distribution for
PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of dBm < RssiPUSCHUe The-86 Received Signal Strength <= -84 dBm is updated to this counter. Indicator (RSSI) distribution for
PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of dBm < RssiPUSCHUe The-86 Received Signal Strength <= -84 dBm is updated to this counter. Indicator (RSSI) distribution for
PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of dBm < RssiPUSCHUe The-84 Received Signal Strength <= -82 dBm is updated to this counter. Indicator (RSSI) distribution for
PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of dBm < RssiPUSCHUe The-84 Received Signal Strength <= -82 dBm is updated to this counter. Indicator (RSSI) distribution for
PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of dBm < RssiPUSCHUe The-82 Received Signal Strength <= -80 dBm is updated to this counter. Indicator (RSSI) distribution for
PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of dBm < RssiPUSCHUe The-82 Received Signal Strength <= -80 dBm is updated to this counter. Indicator (RSSI) distribution for
PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of > -80 dBm is in TheRssiPUSCHUe UE Power Headroom values updated to this counter. the range of -23dB <= PHR <
PUSCH, measured in the eNB. The RssiPUSCHUe value in the range of > -80 dBm is in TheRssiPUSCHUe UE Power Headroom values updated to this counter. the range of -23dB <= PHR <
-21dB. Used for the UE Power Headroom PUSCH histogram.
-21dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of -21dB <= PHR < -19dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of -21dB <= PHR < -19dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of -19dB <= PHR < -17dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of -19dB <= PHR < -17dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of -17dB <= PHR < -15dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of -17dB <= PHR < -15dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of -15dB <= PHR < -13dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of -15dB <= PHR < -13dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of -13dB <= PHR < -11dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of -13dB <= PHR < -11dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of -11dB <= PHR < -9dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of -11dB <= PHR < -9dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of -9dB <= PHR < -7dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of -9dB <= PHR < -7dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of -7dB <= PHR < -5dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of -7dB <= PHR < -5dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of -5dB <= PHR < -3dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of -5dB <= PHR < -3dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of -3dB <= PHR < -1dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of -3dB <= PHR < -1dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of -1dB <= PHR < 1dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of -1dB <= PHR < 1dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 1dB <= PHR < 3dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 1dB <= PHR < 3dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 3dB <= PHR < 5dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 3dB <= PHR < 5dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 5dB <= PHR < 7dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 5dB <= PHR < 7dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 7dB <= PHR < 9dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 7dB <= PHR < 9dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 9dB <= PHR < 11dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 9dB <= PHR < 11dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 11dB <= PHR < 13dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 11dB <= PHR < 13dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 13dB <= PHR < 15dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 13dB <= PHR < 15dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 15dB <= PHR < 17dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 15dB <= PHR < 17dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 17dB <= PHR < 19dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 17dB <= PHR < 19dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 19dB <= PHR < 21dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 19dB <= PHR < 21dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 21dB <= PHR < 23dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 21dB <= PHR < 23dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 23dB <= PHR < 25dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 23dB <= PHR < 25dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 25dB <= PHR < 27dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 25dB <= PHR < 27dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 27dB <= PHR < 29dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 27dB <= PHR < 29dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 29dB <= PHR < 31dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 29dB <= PHR < 31dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 31dB <= PHR < 33dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 31dB <= PHR < 33dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 33dB <= PHR < 35dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 33dB <= PHR < 35dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 35dB <= PHR < 37dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 35dB <= PHR < 37dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 37dB <= PHR < 39dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 37dB <= PHR < 39dB. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 39 dB <= PHR. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom values in the range of 39 dB <= PHR. Used for the UE Power Headroom PUSCH histogram.
The UE Power Headroom for the PUSCH minimum value for the reporting period. To get actual dB value calculate: "counter value - 23" according to 3GPP 36.133for chapter The UE Power Headroom the 9.1.8.4. PUSCH maximum value for the
The UE Power Headroom for the PUSCH minimum value for the reporting period. To get actual dB value calculate: "counter value - 23" according to 3GPP 36.133for chapter The UE Power Headroom the 9.1.8.4. PUSCH maximum value for the
reporting period. To get actual dB value calculate: "counter value - 23" according to 3GPP 36.133for chapter The UE Power Headroom the 9.1.8.4. PUSCH mean value for the
reporting period. To get actual dB value calculate: "counter value - 23" according to 3GPP 36.133for chapter The UE Power Headroom the 9.1.8.4. PUSCH mean value for the
reporting period. To get actual dB value calculate: "counter value - 23" according 36.133 and chapter The Signaltoto3GPP Interference 9.1.8.4. Noise Ratio (SINR) Min value for
reporting period. To get actual dB value calculate: "counter value - 23" according 36.133 and chapter The Signaltoto3GPP Interference 9.1.8.4. Noise Ratio (SINR) Min value for
PUCCH, measured in the eNB.
PUCCH, measured in the eNB.
The Signal to Interference and Noise Ratio (SINR) Max value for PUCCH, measured in the eNB.
The Signal to Interference and Noise Ratio (SINR) Max value for PUCCH, measured in the eNB.
The Signal to Interference and The Signal to Interference and Noise Ratio (SINR) Mean value for Noise Ratio (SINR) Mean value for PUCCH, measured in the eNB. PUCCH, measured in the eNB. The Signal to Interference and Noise Ratio (SINR) Min value for PUSCH, measured in the eNB.
The Signal to Interference and Noise Ratio (SINR) Min value for PUSCH, measured in the eNB.
The Signal to Interference and Noise Ratio (SINR) Max value for PUSCH, measured in the eNB.
The Signal to Interference and Noise Ratio (SINR) Max value for PUSCH, measured in the eNB.
The Signal to Interference and The Signal to Interference and Noise Ratio (SINR) Mean value for Noise Ratio (SINR) Mean value for PUSCH, measured in the eNB. PUSCH, measured in the eNB. The Signal to Interference and Noise Ratio (SINR) for PUCCH, measured in the eNB. Values in the range of SINR <= -10dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
The Signal to Interference and Noise Ratio (SINR) for PUCCH, measured in the eNB. Values in the range of SINR <= -10dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of -10dB < SINR <= -8dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of -10dB < SINR <= -8dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of -8dB < SINR <= -6dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of -8dB < SINR <= -6dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of -6dB < SINR <= -4dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of -6dB < SINR <= -4dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of -4dB < SINR <= -2dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of -4dB < SINR <= -2dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of -2dB < SINR <= 0dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of -2dB < SINR <= 0dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of 0dB < SINR <= 2dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of 0dB < SINR <= 2dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of 2dB < SINR <= 4dB are updated to this counter. Used for SINR for the PUCCH histogram.
measured in the eNB. Values in the range of 2dB < SINR <= 4dB are updated to this counter. Used for SINR for the PUCCH histogram.
The Signal to Interference and Noise Ratio (SINR) for PUCCH, measured in the eNB. Values in the range of 4dB < SINR <= 6dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
The Signal to Interference and Noise Ratio (SINR) for PUCCH, measured in the eNB. Values in the range of 4dB < SINR <= 6dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of 6dB < SINR <= 8dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of 6dB < SINR <= 8dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of 8dB < SINR <= 10dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of 8dB < SINR <= 10dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of 10dB < SINR <= 12dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of 10dB < SINR <= 12dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of 12dB < SINR <= 14dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of 12dB < SINR <= 14dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of 14dB < SINR <= 16dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of 14dB < SINR <= 16dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of 16dB < SINR <= 18dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of 16dB < SINR <= 18dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of 18dB < SINR <= 20dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of 18dB < SINR <= 20dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of 20dB < SINR <= 22dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of 20dB < SINR <= 22dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of 22dB < SINR <= 24dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of 22dB < SINR <= 24dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of 24dB < SINR <= 26dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of 24dB < SINR <= 26dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of 26dB < SINR <= 28dB are updated to this counter. Used for SINR for the PUCCH histogram.
measured in the eNB. Values in the range of 26dB < SINR <= 28dB are updated to this counter. Used for SINR for the PUCCH histogram.
The Signal to Interference and Noise Ratio (SINR) for PUCCH, measured in the eNB. Values in the range of 28dB < SINR <= 30dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
The Signal to Interference and Noise Ratio (SINR) for PUCCH, measured in the eNB. Values in the range of 28dB < SINR <= 30dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUCCH histogram. Noise Ratio (SINR) for PUCCH,
measured in the eNB. Values in the range of > 30dB are updated to this counter. Used for SINR for and the The Signal to Interference PUCCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of > 30dB are updated to this counter. Used for SINR for and the The Signal to Interference PUCCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of SINR <= -10dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of SINR <= -10dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of -10dB < SINR <= -8dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of -10dB < SINR <= -8dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of -8dB < SINR <= -6dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of -8dB < SINR <= -6dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of -6dB < SINR <= -4dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of -6dB < SINR <= -4dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of -4dB < SINR <= -2dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of -4dB < SINR <= -2dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of -2dB < SINR <= 0dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of -2dB < SINR <= 0dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of 0dB < SINR <= 2dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of 0dB < SINR <= 2dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of 2dB < SINR <= 4dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of 2dB < SINR <= 4dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of 4dB < SINR <= 6dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of 4dB < SINR <= 6dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of 6dB < SINR <= 8dB are updated to this counter. Used for SINR for the PUSCH histogram.
measured in the eNB. Values in the range of 6dB < SINR <= 8dB are updated to this counter. Used for SINR for the PUSCH histogram.
The Signal to Interference and Noise Ratio (SINR) for PUSCH, measured in the eNB. Values in the range of 8dB < SINR <= 10dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
The Signal to Interference and Noise Ratio (SINR) for PUSCH, measured in the eNB. Values in the range of 8dB < SINR <= 10dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of 10dB < SINR <= 12dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of 10dB < SINR <= 12dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of 12dB < SINR <= 14dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of 12dB < SINR <= 14dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of 14dB < SINR <= 16dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of 14dB < SINR <= 16dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of 16dB < SINR <= 18dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of 16dB < SINR <= 18dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of 18dB < SINR <= 20dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of 18dB < SINR <= 20dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of 20dB < SINR <= 22dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of 20dB < SINR <= 22dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of 22dB < SINR <= 24dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of 22dB < SINR <= 24dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of 24dB < SINR <= 26dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of 24dB < SINR <= 26dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of 26dB < SINR <= 28dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of 26dB < SINR <= 28dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of 28dB < SINR <= 30dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of 28dB < SINR <= 30dB are updated to this counter. Used The Signal to Interference andfor SINR for the PUSCH histogram. Noise Ratio (SINR) for PUSCH,
measured in the eNB. Values in the range of > 30dB are updated to this counter. Used for SINR for the PUSCH histogram.
measured in the eNB. Values in the range of > 30dB are updated to this counter. Used for SINR for the PUSCH histogram.
The number of Adaptive Modulation The number of Adaptive Modulation and Coding (AMC) upgrades in UL. and Coding (AMC) upgrades in UL.
The number of Adaptive Modulation The number of Adaptive Modulation and Coding (AMC) downgrades in and Coding (AMC) downgrades in UL. UL. This measurement provides the minimum of the cell-wide RSSI value on PUCCH, which is calculated as: Total RSSI per cell per TTI for This measurement provides the PUCCH over the configured maximum of the cell-wide RSSI PUCCH-bandwidth divided value on PUCCH, which is by the number of PRBs (of given whole calculated as: cell non-blanked UL frequency Total RSSI per cell per TTI for This measurement provides the by bandwidth) which could be used PUCCH over the configured mean of the cell-wide RSSI value PUCCH in the cell. PUCCH-bandwidth by the on PUCCH, which isdivided calculated as: number of PRBs (of given whole Total RSSI per cell per TTI for cell non-blanked frequency PUCCH over the UL configured This measurement provides the by bandwidth) which could be used PUCCH-bandwidth divided the number of TTIs, in which thebycellPUCCH in the cell. number of PRBs (of given whole wide RSSI values on PUCCH are cell lessnon-blanked than or equalUL to frequency -120 dBm. bandwidth) which could beisused by The cell-wide RSSI value This measurement provides the PUCCH in the cell calculated number of as: TTIs, in which the cellTotal RSSI values per cellon perPUCCH TTI for are in wide RSSI PUCCH over the configured the range of -120 dBm < x <= -118 PUCCH-bandwidth divided by the dBm. This measurement provides the number of PRBs (of giveniswhole The cell-wide RSSI value number of TTIs, in which the cellcell non-blanked UL frequency calculated wide RSSI as: values on PUCCH areby in bandwidth) which could be for used Total RSSIofper celldBm per < TTI the range -118 x <= -116 PUCCH in the cell. PUCCH over the configured dBm. This measurement provides the PUCCH-bandwidth divided the The cell-wide RSSI value the isbycellnumber of TTIs, in which PRBs (of given whole calculated wide RSSI as: valuesUL onfrequency PUCCH are in cell non-blanked Total RSSIofper celldBm per < TTI for -114 the range -116 x <= bandwidth) which could be used by PUCCH over the configured dBm. PUCCH in the cell. This measurement provides the PUCCH-bandwidth divided the The cell-wide RSSI value the isbycellnumber of TTIs, in(ofwhich PRBs given whole calculated wide RSSI as: valuesUL onfrequency PUCCH are in cell non-blanked Total RSSIofper celldBm per < TTI for -112 the range -114 x <= bandwidth) which could be used by PUCCH over the configured dBm. PUCCH in the cell. This measurement provides the PUCCH-bandwidth divided the The cell-wide RSSI value the isbycellnumber of TTIs, in(ofwhich PRBs given whole calculated wide RSSI as: valuesUL onfrequency PUCCH are in cell non-blanked Total RSSIofper celldBm per < TTI for -110 the range -112 x <= bandwidth) which could be used by PUCCH over the configured dBm. PUCCH in the cell. This measurement provides the PUCCH-bandwidth divided the The cell-wide RSSI value the isbycellnumber of TTIs, in(ofwhich PRBs given whole calculated wide RSSI as: valuesUL onfrequency PUCCH are in cell non-blanked Total RSSIofper celldBm per < TTI for -108 the range -110 x <= bandwidth) which could be used by PUCCH over the configured dBm. PUCCH in the cell. PUCCH-bandwidth The cell-wide RSSI divided value isby the number of PRBs (of given whole calculated as: cell non-blanked UL frequency Total RSSI per cell per TTI for bandwidth) which could be used by PUCCH over the configured PUCCH in the cell. PUCCH-bandwidth divided by the number of PRBs (of given whole cell non-blanked UL frequency bandwidth) which could be used by PUCCH in the cell.
This measurement provides the minimum of the cell-wide RSSI value on PUCCH, which is calculated as: Total RSSI per cell per TTI for This measurement provides the PUCCH over the configured maximum of the cell-wide RSSI PUCCH-bandwidth divided value on PUCCH, which is by the number of PRBs (of given whole calculated as: cell non-blanked UL frequency Total RSSI per cell per TTI for This measurement provides the by bandwidth) which could be used PUCCH over the configured mean of the cell-wide RSSI value PUCCH in the cell. PUCCH-bandwidth by the on PUCCH, which isdivided calculated as: number of PRBs (of given whole Total RSSI per cell per TTI for cell non-blanked frequency PUCCH over the UL configured This measurement provides the by bandwidth) which could be used PUCCH-bandwidth divided the number of TTIs, in which thebycellPUCCH in the cell. number of PRBs (of given whole wide RSSI values on PUCCH are cell lessnon-blanked than or equalUL to frequency -120 dBm. bandwidth) which could beisused by The cell-wide RSSI value This measurement provides the PUCCH in the cell calculated number of as: TTIs, in which the cellTotal RSSI values per cellon perPUCCH TTI for are in wide RSSI PUCCH over the configured the range of -120 dBm < x <= -118 PUCCH-bandwidth divided by the dBm. This measurement provides the number of PRBs (of giveniswhole The cell-wide RSSI value number of TTIs, in which the cellcell non-blanked UL frequency calculated wide RSSI as: values on PUCCH areby in bandwidth) which could be for used Total RSSIofper celldBm per < TTI the range -118 x <= -116 PUCCH in the cell. PUCCH over the configured dBm. This measurement provides the PUCCH-bandwidth divided the The cell-wide RSSI value the isbycellnumber of TTIs, in which PRBs (of given whole calculated wide RSSI as: valuesUL onfrequency PUCCH are in cell non-blanked Total RSSIofper celldBm per < TTI for -114 the range -116 x <= bandwidth) which could be used by PUCCH over the configured dBm. PUCCH in the cell. This measurement provides the PUCCH-bandwidth divided the The cell-wide RSSI value the isbycellnumber of TTIs, in(ofwhich PRBs given whole calculated wide RSSI as: valuesUL onfrequency PUCCH are in cell non-blanked Total RSSIofper celldBm per < TTI for -112 the range -114 x <= bandwidth) which could be used by PUCCH over the configured dBm. PUCCH in the cell. This measurement provides the PUCCH-bandwidth divided the The cell-wide RSSI value the isbycellnumber of TTIs, in(ofwhich PRBs given whole calculated wide RSSI as: valuesUL onfrequency PUCCH are in cell non-blanked Total RSSIofper celldBm per < TTI for -110 the range -112 x <= bandwidth) which could be used by PUCCH over the configured dBm. PUCCH in the cell. This measurement provides the PUCCH-bandwidth divided the The cell-wide RSSI value the isbycellnumber of TTIs, in(ofwhich PRBs given whole calculated wide RSSI as: valuesUL onfrequency PUCCH are in cell non-blanked Total RSSIofper celldBm per < TTI for -108 the range -110 x <= bandwidth) which could be used by PUCCH over the configured dBm. PUCCH in the cell. PUCCH-bandwidth The cell-wide RSSI divided value isby the number of PRBs (of given whole calculated as: cell non-blanked UL frequency Total RSSI per cell per TTI for bandwidth) which could be used by PUCCH over the configured PUCCH in the cell. PUCCH-bandwidth divided by the number of PRBs (of given whole cell non-blanked UL frequency bandwidth) which could be used by PUCCH in the cell.
This measurement provides the number of TTIs, in which the cellwide RSSI values on PUCCH are in the range of -108 dBm < x <= -106 dBm. This measurement provides the The cell-wide RSSI value the is cellnumber of TTIs, in which calculated as: wide RSSI values on PUCCH are in Total RSSIofper celldBm per TTI for -104 the range -106 < x <= PUCCH over the configured dBm. This measurement provides the PUCCH-bandwidth divided the The cell-wide RSSI value the isbycellnumber of TTIs, in which PRBs (of given whole calculated wide RSSI as: valuesUL onfrequency PUCCH are in cell non-blanked Total RSSIofper celldBm per TTI for -102 the range -104
This measurement provides the number of TTIs, in which the cellwide RSSI values on PUCCH are in the range of -108 dBm < x <= -106 dBm. This measurement provides the The cell-wide RSSI value the is cellnumber of TTIs, in which calculated as: wide RSSI values on PUCCH are in Total RSSIofper celldBm per TTI for -104 the range -106 < x <= PUCCH over the configured dBm. This measurement provides the PUCCH-bandwidth divided the The cell-wide RSSI value the isbycellnumber of TTIs, in which PRBs (of given whole calculated wide RSSI as: valuesUL onfrequency PUCCH are in cell non-blanked Total RSSIofper celldBm per TTI for -102 the range -104
This measurement provides the number of TTIs, in which the cellwide RSSI values on PUCCH are in the range of -84 dBm < x <= -82 dBm. This measurement provides the The cell-wide RSSI value the is cellnumber of TTIs, in which calculated as: wide RSSI values on PUCCH are in Total RSSIofper per
This measurement provides the number of TTIs, in which the cellwide RSSI values on PUCCH are in the range of -84 dBm < x <= -82 dBm. This measurement provides the The cell-wide RSSI value the is cellnumber of TTIs, in which calculated as: wide RSSI values on PUCCH are in Total RSSIofper per
This measurement provides the number of TTIs, in which the cellwide RSSI values on PUSCH are in the range of -110 dBm < x <= -108 dBm. This measurement provides the The cell-wide RSSI value the is cellnumber of TTIs, in which calculated as: wide RSSI values on PUSCH are in Total RSSIofper celldBm per TTI for -106 the range -108 < x <= PUSCH over the complete channel dBm. This measurement provides the bandwidth divided by the number The cell-wide RSSI value the is cell- of number of TTIs, in which PRBs (of given whole cell noncalculated as: wide RSSI values on PUSCH are in blanked UL frequency Total RSSIofper celldBm perbandwidth) TTI for -104 the range -106
This measurement provides the number of TTIs, in which the cellwide RSSI values on PUSCH are in the range of -110 dBm < x <= -108 dBm. This measurement provides the The cell-wide RSSI value the is cellnumber of TTIs, in which calculated as: wide RSSI values on PUSCH are in Total RSSIofper celldBm per TTI for -106 the range -108 < x <= PUSCH over the complete channel dBm. This measurement provides the bandwidth divided by the number The cell-wide RSSI value is cell- of number of TTIs, in which the PRBs (of given whole cell noncalculated as: wide RSSI values on PUSCH are in blanked UL frequency Total RSSIofper celldBm perbandwidth) TTI for -104 the range -106
This measurement provides the number of TTIs, in which the cellwide RSSI values on PUSCH are in the range of -86 dBm < x <= -84 dBm. This measurement provides the The cell-wide RSSI value the is cellnumber of TTIs, in which calculated as: wide RSSI values on PUSCH are in Total RSSIofper per
This measurement provides the number of TTIs, in which the cellwide RSSI values on PUSCH are in the range of -86 dBm < x <= -84 dBm. This measurement provides the The cell-wide RSSI value the is cellnumber of TTIs, in which calculated as: wide RSSI values on PUSCH are in Total RSSIofper per
PUCCH-bandwidth divided by Total interference power per cell per TTI over the configured PUCCHbandwidth.
PUCCH-bandwidth divided by Total interference power per cell per TTI over the configured PUCCHbandwidth.
This measurement provides the number of TTIs, in which the cellwide SINR values on PUCCH are in the range of -2 dB < x <= 0 dB. The SINR provides value is the This cell-wide measurement calculated as: number of TTIs, in which the cellTotal RSSI values per cellon perPUCCH TTI for are in wide SINR PUCCH over the configured the range of 0 dB < x <= 2 dB. PUCCH-bandwidth divided Total The cell-wide SINR provides value isby This measurement theTTI interference power per cell per calculated as: number of TTIs, in which the cellover the configured PUCCHTotal RSSI per cellon per TTI for are in wide SINR values PUCCH bandwidth. PUCCH the rangeover of 2the dBconfigured < x <= 4 dB. PUCCH-bandwidth divided Total The cell-wide SINR value isby This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellover the configured PUCCHTotal RSSI per cellon per TTI for are in wide SINR values PUCCH bandwidth. PUCCH the rangeover of 4the dBconfigured < x <= 6 dB. PUCCH-bandwidth divided Total The cell-wide SINR value isby This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellover the configured PUCCHTotal RSSI per cellon per TTI for are in wide SINR values PUCCH bandwidth. PUCCH the rangeover of 6the dBconfigured < x <= 8 dB. PUCCH-bandwidth divided Total The cell-wide SINR value isby This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellover the configured PUCCHTotal RSSI per cellon per TTI for are in wide SINR values PUCCH bandwidth. PUCCH the rangeover of 8the dBconfigured < x <= 10 dB. PUCCH-bandwidth divided Total The cell-wide SINR value isby This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellover the configured PUCCHTotal RSSI per cellonper TTI forare in wide SINR values PUCCH bandwidth. PUCCH thedB configured the rangeover of 10 < x <= 12 dB. PUCCH-bandwidth divided Total The cell-wide SINR value isby This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellover the configured PUCCHTotal RSSI per cellon per TTI for are in wide SINR values PUCCH bandwidth. PUCCH thedB configured the rangeover of 12 < x <= 14 dB. PUCCH-bandwidth divided Total The cell-wide SINR value isby This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellover the configured PUCCHTotal RSSI per cellon per TTI for are in wide SINR values PUCCH bandwidth. PUCCH thedB configured the rangeover of 14 < x <= 16 dB. PUCCH-bandwidth divided Total The cell-wide SINR value isby This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellover the configured PUCCHTotal RSSI per cellon per TTI for are in wide SINR values PUCCH bandwidth. PUCCH thedB configured the rangeover of 16 < x <= 18 dB. PUCCH-bandwidth divided Total The cell-wide SINR value isby This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellover the configured PUCCHTotal RSSI per cellon per TTI for are in wide SINR values PUCCH bandwidth. PUCCH thedB configured the rangeover of 18 < x <= 20 dB. PUCCH-bandwidth divided Total The cell-wide SINR value isby This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellover the configured PUCCHTotal RSSI per cellon per TTI for are in wide SINR values PUCCH bandwidth. PUCCH thedB configured the rangeover of 20 < x <= 22 dB. PUCCH-bandwidth The cell-wide SINR divided value isby Total interference power per cell per TTI calculated as: over the configured PUCCHTotal RSSI per cell per TTI for bandwidth. PUCCH over the configured
This measurement provides the number of TTIs, in which the cellwide SINR values on PUCCH are in the range of -2 dB < x <= 0 dB. The SINR provides value is the This cell-wide measurement calculated as: number of TTIs, in which the cellTotal RSSI values per cellon perPUCCH TTI for are in wide SINR PUCCH over the configured the range of 0 dB < x <= 2 dB. PUCCH-bandwidth divided Total The cell-wide SINR provides value isby This measurement theTTI interference power per cell per calculated as: number of TTIs, in which the cellover the configured PUCCHTotal RSSI per cellon per TTI for are in wide SINR values PUCCH bandwidth. PUCCH the rangeover of 2the dBconfigured < x <= 4 dB. PUCCH-bandwidth divided Total The cell-wide SINR value isby This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellover the configured PUCCHTotal RSSI per cellon per TTI for are in wide SINR values PUCCH bandwidth. PUCCH the rangeover of 4the dBconfigured < x <= 6 dB. PUCCH-bandwidth divided Total The cell-wide SINR value isby This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellover the configured PUCCHTotal RSSI per cellon per TTI for are in wide SINR values PUCCH bandwidth. PUCCH the rangeover of 6the dBconfigured < x <= 8 dB. PUCCH-bandwidth divided Total The cell-wide SINR value isby This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellover the configured PUCCHTotal RSSI per cellon per TTI for are in wide SINR values PUCCH bandwidth. PUCCH the rangeover of 8the dBconfigured < x <= 10 dB. PUCCH-bandwidth divided Total The cell-wide SINR value isby This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellover the configured PUCCHTotal RSSI per cellonper TTI forare in wide SINR values PUCCH bandwidth. PUCCH thedB configured the rangeover of 10 < x <= 12 dB. PUCCH-bandwidth divided Total The cell-wide SINR value isby This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellover the configured PUCCHTotal RSSI per cellon per TTI for are in wide SINR values PUCCH bandwidth. PUCCH thedB configured the rangeover of 12 < x <= 14 dB. PUCCH-bandwidth divided Total The cell-wide SINR value isby This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellover the configured PUCCHTotal RSSI per cellon per TTI for are in wide SINR values PUCCH bandwidth. PUCCH thedB configured the rangeover of 14 < x <= 16 dB. PUCCH-bandwidth divided Total The cell-wide SINR value isby This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellover the configured PUCCHTotal RSSI per cellon per TTI for are in wide SINR values PUCCH bandwidth. PUCCH thedB configured the rangeover of 16 < x <= 18 dB. PUCCH-bandwidth divided Total The cell-wide SINR value isby This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellover the configured PUCCHTotal RSSI per cellon per TTI for are in wide SINR values PUCCH bandwidth. PUCCH thedB configured the rangeover of 18 < x <= 20 dB. PUCCH-bandwidth divided Total The cell-wide SINR value isby This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellover the configured PUCCHTotal RSSI per cellon per TTI for are in wide SINR values PUCCH bandwidth. PUCCH thedB configured the rangeover of 20 < x <= 22 dB. PUCCH-bandwidth The cell-wide SINR divided value isby Total interference power per cell per TTI calculated as: over the configured PUCCHTotal RSSI per cell per TTI for bandwidth. PUCCH over the configured
PUCCH-bandwidth divided by Total interference power per cell per TTI over the configured PUCCHbandwidth.
PUCCH-bandwidth divided by Total interference power per cell per TTI over the configured PUCCHbandwidth.
This measurement provides the number of TTIs, in which the cellwide SINR values on PUCCH are in the range of 22 dB < x <= 24 dB. The SINR provides value is the This cell-wide measurement calculated as: number of TTIs, in which the cellTotal RSSI values per cellon perPUCCH TTI for are in wide SINR PUCCH over the configured the range of 24 dB < x <= 26 dB. PUCCH-bandwidth divided Total The cell-wide SINR provides value isby This measurement theTTI interference power per cell per calculated as: number of TTIs, in which the cellover the configured PUCCHTotal RSSI per cellon per TTI for are in wide SINR values PUCCH bandwidth. PUCCH thedB configured the rangeover of 26 < x <= 28 dB. PUCCH-bandwidth divided Total The cell-wide SINR value isby This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellover the configured PUCCHTotal RSSI per cellon per TTI for are in wide SINR values PUCCH bandwidth. PUCCH thedB configured the rangeover of 28 < x <= 30 dB. PUCCH-bandwidth divided Total The cell-wide SINR value isby This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellover the configured PUCCHTotal RSSI per cellon per TTI for are wide SINR values PUCCH bandwidth. PUCCH over30 thedB. configured greater than PUCCH-bandwidth divided Total The SINR provides value isby This cell-wide measurement theTTI interference power per cell per calculated minimum ofas: the cell-wide SINR over the configured PUCCHTotal RSSI per cellwhich per TTI value on PUSCH, is for bandwidth. PUCCH over calculated as:the configured PUCCH-bandwidth divided by Total Total RSSI per cell per TTI for This measurement provides theTTI interference power per cell per PUSCH over the cell-wide completeSINR channel maximum of the over the configured bandwidth divided which byPUCCHtheisTotal value on PUSCH, bandwidth. interference power per cell per TTI calculated as: for PUSCH over the complete Total RSSI per cell per TTI for This measurement provides the channel bandwidth. PUSCH over the complete channel arithmetic mean of the cell-wide bandwidth by thewhich Total is SINR valuedivided on PUSCH, interference power per cell per TTI calculated as: for PUSCH over the complete Total RSSI per cell per TTI for This measurement provides the channel bandwidth. PUSCH over the complete channel number of TTIs, in which the cellbandwidth by PUSCH the Totalare wide SINR divided values on interference powertoper less than or equal -10cell dB.per TTI for PUSCH over the complete The SINR provides value is the This cell-wide measurement channel bandwidth. calculated as: number of TTIs, in which the cellTotal RSSI values per cellon perPUSCH TTI for are in wide SINR PUSCH over the complete channel the range of -10 dB < x <= -8 dB. bandwidth divided by the Total The cell-wide SINR value is This measurement provides theTTI interference power per cell per calculated number of as: TTIs, in which the cellfor PUSCH over the complete Total RSSI values per cellon perPUSCH TTI for are in wide SINR channel bandwidth. PUSCH over the complete the range of -8 dB < x <= -6channel dB. bandwidth divided by the Total The cell-wide SINR value is This measurement provides theTTI interference power per cell per calculated number of as: TTIs, in which the cellfor PUSCH over the complete Total RSSI values per cellon perPUSCH TTI for are in wide SINR channel bandwidth. PUSCH over the complete the range of -6 dB < x <= -4channel dB. bandwidth divided the Total The cell-wide SINRby value is interference power per cell per TTI calculated as: for PUSCH over theper complete Total RSSI per cell TTI for channel bandwidth. PUSCH over the complete channel
This measurement provides the number of TTIs, in which the cellwide SINR values on PUCCH are in the range of 22 dB < x <= 24 dB. The SINR provides value is the This cell-wide measurement calculated as: number of TTIs, in which the cellTotal RSSI values per cellon perPUCCH TTI for are in wide SINR PUCCH over the configured the range of 24 dB < x <= 26 dB. PUCCH-bandwidth divided Total The cell-wide SINR provides value isby This measurement theTTI interference power per cell per calculated as: number of TTIs, in which the cellover the configured PUCCHTotal RSSI per cellon per TTI for are in wide SINR values PUCCH bandwidth. PUCCH thedB configured the rangeover of 26 < x <= 28 dB. PUCCH-bandwidth divided Total The cell-wide SINR value isby This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellover the configured PUCCHTotal RSSI per cellon per TTI for are in wide SINR values PUCCH bandwidth. PUCCH thedB configured the rangeover of 28 < x <= 30 dB. PUCCH-bandwidth divided Total The cell-wide SINR value isby This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellover the configured PUCCHTotal RSSI per cellon per TTI for are wide SINR values PUCCH bandwidth. PUCCH over30 thedB. configured greater than PUCCH-bandwidth divided Total The SINR provides value isby This cell-wide measurement theTTI interference power per cell per calculated minimum ofas: the cell-wide SINR over the configured PUCCHTotal RSSI per cellwhich per TTI value on PUSCH, is for bandwidth. PUCCH over calculated as:the configured PUCCH-bandwidth divided by Total Total RSSI per cell per TTI for This measurement provides theTTI interference power per cell per PUSCH over the cell-wide completeSINR channel maximum of the over the configured bandwidth divided which byPUCCHtheisTotal value on PUSCH, bandwidth. interference power per cell per TTI calculated as: for PUSCH over the complete Total RSSI per cell per TTI for This measurement provides the channel bandwidth. PUSCH over the complete channel arithmetic mean of the cell-wide bandwidth by thewhich Total is SINR valuedivided on PUSCH, interference power per cell per TTI calculated as: for PUSCH over the complete Total RSSI per cell per TTI for This measurement provides the channel bandwidth. PUSCH over the complete channel number of TTIs, in which the cellbandwidth by PUSCH the Totalare wide SINR divided values on interference powertoper less than or equal -10cell dB.per TTI for PUSCH over the complete The SINR provides value is the This cell-wide measurement channel bandwidth. calculated as: number of TTIs, in which the cellTotal RSSI values per cellon perPUSCH TTI for are in wide SINR PUSCH over the complete channel the range of -10 dB < x <= -8 dB. bandwidth divided by the Total The cell-wide SINR value is This measurement provides theTTI interference power per cell per calculated number of as: TTIs, in which the cellfor PUSCH over the complete Total RSSI values per cellon perPUSCH TTI for are in wide SINR channel bandwidth. PUSCH over the complete the range of -8 dB < x <= -6channel dB. bandwidth divided by the Total The cell-wide SINR value is This measurement provides theTTI interference power per cell per calculated number of as: TTIs, in which the cellfor PUSCH over the complete Total RSSI values per cellon perPUSCH TTI for are in wide SINR channel bandwidth. PUSCH over the complete the range of -6 dB < x <= -4channel dB. bandwidth divided the Total The cell-wide SINRby value is interference power per cell per TTI calculated as: for PUSCH over theper complete Total RSSI per cell TTI for channel bandwidth. PUSCH over the complete channel
bandwidth divided by the Total interference power per cell per TTI for PUSCH over the complete channel bandwidth.
bandwidth divided by the Total interference power per cell per TTI for PUSCH over the complete channel bandwidth.
This measurement provides the number of TTIs, in which the cellwide SINR values on PUSCH are in the range of -4 dB < x <= -2 dB. The SINR provides value is the This cell-wide measurement calculated as: number of TTIs, in which the cellTotal RSSI values per cellon perPUSCH TTI for are in wide SINR PUSCH over the complete the range of -2 dB < x <= 0 channel dB. bandwidth divided by the Total The cell-wide SINR value is This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellfor PUSCH overcell theper complete Total RSSI values per TTI for are in wide SINR on PUSCH channel bandwidth. PUSCH channel the rangeover of 0the dBcomplete < x <= 2 dB. bandwidth divided by the Total The SINR provides value is the This cell-wide measurement interference power per cell per TTI calculated as: number of TTIs, in which the cellfor PUSCH over the complete Total RSSI values per cellon perPUSCH TTI for are in wide SINR channel bandwidth. PUSCH channel the rangeover of 2the dBcomplete < x <= 4 dB. bandwidth divided by the Total The cell-wide SINR provides value is the This measurement interference power per cell per TTI calculated as: number of TTIs, in which the cellfor PUSCH over the complete Total RSSI values per cellon perPUSCH TTI for are in wide SINR channel bandwidth. PUSCH channel the rangeover of 4the dBcomplete < x <= 6 dB. bandwidth divided by the Total The SINR provides value is the This cell-wide measurement interference power per cell per TTI calculated as: number of TTIs, in which the cellfor PUSCH over the complete Total RSSI values per cellon perPUSCH TTI for are in wide SINR channel bandwidth. PUSCH channel the rangeover of 6the dBcomplete < x <= 8 dB. bandwidth divided by the Total The cell-wide SINR provides value is the This measurement interference power per cell per TTI calculated as: number of TTIs, in which the cellfor PUSCH over the complete Total RSSI values per cellon perPUSCH TTI for are in wide SINR channel bandwidth. PUSCH the rangeover of 8the dBcomplete < x <= 10channel dB. bandwidth divided by the Total The cell-wide SINR value is This measurement provides theTTI interference power per cell per calculated number of as: TTIs, in which the cellfor PUSCH over the complete Total RSSI values per cellon perPUSCH TTI for are in wide SINR channel bandwidth. PUSCH over the complete channel the range of 10 dB < x <= 12 dB. bandwidth divided by the Total The cell-wide SINR value is This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellfor PUSCH overcell theper complete Total RSSI values per TTI for are in wide SINR on PUSCH channel bandwidth. PUSCH thedB complete channel the rangeover of 12 < x <= 14 dB. bandwidth divided by the Total The cell-wide SINR value is This measurement provides theTTI interference power per cell per calculated number of as: TTIs, in which the cellfor PUSCH over the complete Total RSSI values per cellon perPUSCH TTI for are in wide SINR channel bandwidth. PUSCH over the complete channel the range of 14 dB < x <= 16 dB. bandwidth divided by the Total The cell-wide SINR value is This measurement provides theTTI interference power per cell per calculated number of as: TTIs, in which the cellfor PUSCH over the complete Total RSSI values per cellon perPUSCH TTI for are in wide SINR channel bandwidth. PUSCH over the complete channel the range of 16 dB < x <= 18 dB. bandwidth divided by the Total The cell-wide SINR value is This measurement provides theTTI interference power per cell per calculated number of as: TTIs, in which the cellfor PUSCH over the complete Total RSSI values per cellon perPUSCH TTI for are in wide SINR channel bandwidth. PUSCH over the complete channel the range of 18 dB < x <= 20 dB. bandwidth divided by the Total The cell-wide SINR value is interference power per cell per TTI calculated as: for PUSCH over theper complete Total RSSI per cell TTI for channel bandwidth. PUSCH over the complete channel
This measurement provides the number of TTIs, in which the cellwide SINR values on PUSCH are in the range of -4 dB < x <= -2 dB. The SINR provides value is the This cell-wide measurement calculated as: number of TTIs, in which the cellTotal RSSI values per cellon perPUSCH TTI for are in wide SINR PUSCH over the complete the range of -2 dB < x <= 0 channel dB. bandwidth divided by the Total The cell-wide SINR value is This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellfor PUSCH overcell theper complete Total RSSI values per TTI for are in wide SINR on PUSCH channel bandwidth. PUSCH channel the rangeover of 0the dBcomplete < x <= 2 dB. bandwidth divided by the Total The SINR provides value is the This cell-wide measurement interference power per cell per TTI calculated as: number of TTIs, in which the cellfor PUSCH over the complete Total RSSI values per cellon perPUSCH TTI for are in wide SINR channel bandwidth. PUSCH channel the rangeover of 2the dBcomplete < x <= 4 dB. bandwidth divided by the Total The cell-wide SINR provides value is the This measurement interference power per cell per TTI calculated as: number of TTIs, in which the cellfor PUSCH over the complete Total RSSI values per cellon perPUSCH TTI for are in wide SINR channel bandwidth. PUSCH channel the rangeover of 4the dBcomplete < x <= 6 dB. bandwidth divided by the Total The SINR provides value is the This cell-wide measurement interference power per cell per TTI calculated as: number of TTIs, in which the cellfor PUSCH over the complete Total RSSI values per cellon perPUSCH TTI for are in wide SINR channel bandwidth. PUSCH channel the rangeover of 6the dBcomplete < x <= 8 dB. bandwidth divided by the Total The cell-wide SINR provides value is the This measurement interference power per cell per TTI calculated as: number of TTIs, in which the cellfor PUSCH over the complete Total RSSI values per cellon perPUSCH TTI for are in wide SINR channel bandwidth. PUSCH the rangeover of 8the dBcomplete < x <= 10channel dB. bandwidth divided by the Total The cell-wide SINR value is This measurement provides theTTI interference power per cell per calculated number of as: TTIs, in which the cellfor PUSCH over the complete Total RSSI values per cellon perPUSCH TTI for are in wide SINR channel bandwidth. PUSCH over the complete channel the range of 10 dB < x <= 12 dB. bandwidth divided by the Total The cell-wide SINR value is This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellfor PUSCH overcell theper complete Total RSSI values per TTI for are in wide SINR on PUSCH channel bandwidth. PUSCH thedB complete channel the rangeover of 12 < x <= 14 dB. bandwidth divided by the Total The cell-wide SINR value is This measurement provides theTTI interference power per cell per calculated number of as: TTIs, in which the cellfor PUSCH over the complete Total RSSI values per cellon perPUSCH TTI for are in wide SINR channel bandwidth. PUSCH over the complete channel the range of 14 dB < x <= 16 dB. bandwidth divided by the Total The cell-wide SINR value is This measurement provides theTTI interference power per cell per calculated number of as: TTIs, in which the cellfor PUSCH over the complete Total RSSI values per cellon perPUSCH TTI for are in wide SINR channel bandwidth. PUSCH over the complete channel the range of 16 dB < x <= 18 dB. bandwidth divided by the Total The cell-wide SINR value is This measurement provides theTTI interference power per cell per calculated number of as: TTIs, in which the cellfor PUSCH over the complete Total RSSI values per cellon perPUSCH TTI for are in wide SINR channel bandwidth. PUSCH over the complete channel the range of 18 dB < x <= 20 dB. bandwidth divided by the Total The cell-wide SINR value is interference power per cell per TTI calculated as: for PUSCH over theper complete Total RSSI per cell TTI for channel bandwidth. PUSCH over the complete channel
bandwidth divided by the Total interference power per cell per TTI for PUSCH over the complete channel bandwidth.
bandwidth divided by the Total interference power per cell per TTI for PUSCH over the complete channel bandwidth.
This measurement provides the number of TTIs, in which the cellwide SINR values on PUSCH are in the range of 20 dB < x <= 22 dB. The SINR provides value is the This cell-wide measurement calculated as: number of TTIs, in which the cellTotal RSSI values per cellon perPUSCH TTI for are in wide SINR PUSCH over the complete channel the range of 22 dB < x <= 24 dB. bandwidth divided by the Total The cell-wide SINR value is This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellfor PUSCH overcell theper complete Total RSSI values per TTI for are in wide SINR on PUSCH channel bandwidth. PUSCH thedB complete channel the rangeover of 24 < x <= 26 dB. bandwidth divided by the Total The cell-wide SINR value is This measurement provides theTTI interference power per cell per calculated number of as: TTIs, in which the cellfor PUSCH over the complete Total RSSI values per cellon perPUSCH TTI for are in wide SINR channel bandwidth. PUSCH over the complete channel the range of 26 dB < x <= 28 dB. bandwidth divided by the Total The cell-wide SINR value is This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellfor PUSCH overcell theper complete Total RSSI values per TTI for are in wide SINR on PUSCH channel bandwidth. PUSCH thedB complete channel the rangeover of 28 < x <= 30 dB. bandwidth divided by the Total The cell-wide SINR value is This measurement provides theTTI interference power per cell per calculated number of as: TTIs, in which the cellfor PUSCH over the complete Total RSSI values per cellon perPUSCH TTI for are wide SINR channel bandwidth. PUSCH over the complete channel greater than 30 dB. bandwidth divided by the Total The cell-wide SINR provides value is the This measurement interference power per cell per TTI calculated as: average Received Total Wideband for PUSCH over the complete Total RSSI per cell perantenna TTI for 1 at Power (RTWP) for Rx channel bandwidth. PUSCH over complete channel the end of thethe collection interval. bandwidth divided by the Total This measurement provides theTTI interference power per cell per average Received Total Wideband for PUSCH over the complete Power for Rx antenna 2 at channel(RTWP) bandwidth. the end of the collection interval.
This measurement provides the number of TTIs, in which the cellwide SINR values on PUSCH are in the range of 20 dB < x <= 22 dB. The SINR provides value is the This cell-wide measurement calculated as: number of TTIs, in which the cellTotal RSSI values per cellon perPUSCH TTI for are in wide SINR PUSCH over the complete channel the range of 22 dB < x <= 24 dB. bandwidth divided by the Total The cell-wide SINR value is This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellfor PUSCH overcell theper complete Total RSSI values per TTI for are in wide SINR on PUSCH channel bandwidth. PUSCH thedB complete channel the rangeover of 24 < x <= 26 dB. bandwidth divided by the Total The cell-wide SINR value is This measurement provides theTTI interference power per cell per calculated number of as: TTIs, in which the cellfor PUSCH over the complete Total RSSI values per cellon perPUSCH TTI for are in wide SINR channel bandwidth. PUSCH over the complete channel the range of 26 dB < x <= 28 dB. bandwidth divided by the Total The cell-wide SINR value is This measurement provides theTTI interference power per cell per calculated as: number of TTIs, in which the cellfor PUSCH overcell theper complete Total RSSI values per TTI for are in wide SINR on PUSCH channel bandwidth. PUSCH thedB complete channel the rangeover of 28 < x <= 30 dB. bandwidth divided by the Total The cell-wide SINR value is This measurement provides theTTI interference power per cell per calculated number of as: TTIs, in which the cellfor PUSCH over the complete Total RSSI values per cellon perPUSCH TTI for are wide SINR channel bandwidth. PUSCH over the complete channel greater than 30 dB. bandwidth divided by the Total The cell-wide SINR provides value is the This measurement interference power per cell per TTI calculated as: average Received Total Wideband for PUSCH over the complete Total RSSI per cell perantenna TTI for 1 at Power (RTWP) for Rx channel bandwidth. PUSCH over the complete channel the end of collection interval. bandwidth divided by the Total This measurement provides theTTI interference power per cell per average Received Total Wideband for PUSCH over the complete Power for Rx antenna 2 at channel(RTWP) bandwidth. the end of collection interval.
This measurement provides the average Received Total Wideband Power (RTWP) for Rx antenna 3 at the end of the collection interval.
This measurement provides the average Received Total Wideband Power (RTWP) for Rx antenna 3 at the end of collection interval.
This measurement provides the average Received Total Wideband Power (RTWP) for Rx antenna 4 at the end of the collection interval.
This measurement provides the average Received Total Wideband Power (RTWP) for Rx antenna 4 at the end of collection interval.
This measurement provides the average Received Total Wideband Power (RTWP) for Rx antenna 5 at the end of the collection interval.
This measurement provides the average Received Total Wideband Power (RTWP) for Rx antenna 5 at the end of collection interval.
This measurement provides the average Received Total Wideband Power (RTWP) for Rx antenna 6 at the end of the collection interval.
This measurement provides the average Received Total Wideband Power (RTWP) for Rx antenna 6 at the end of collection interval.
This measurement provides the average Received Total Wideband Power (RTWP) for Rx antenna 7 at the end of the collection interval.
This measurement provides the average Received Total Wideband Power (RTWP) for Rx antenna 7 at the end of collection interval.
This measurement provides the average Received Total Wideband Power (RTWP) for Rx antenna 8 at the end of the collection interval.
This measurement provides the average Received Total Wideband Power (RTWP) for Rx antenna 8 at the end of collection interval.
This measurement provides the maximum Received Total Wideband Power (RTWP) at the end of collection interval.
This measurement provides the maximum Received Total Wideband Power (RTWP) at the end of collection interval.
This measurement provides the 50 percentile value of the uplink Interference Power over Thermal (IoT) Noise Power for the PUSCH Resource Block (RB) distribution This measurement provides the 50 bin 0. percentile value of the uplink To increase the granularity, the Interference Power over Thermal counter is reported in 10* dB units. (IoT) Noise Power for the PUSCH To support the PUSCH RB Resource Block (RB) distribution This measurement provides the 50 distribution, there are 9 bins (bin0 bin 1. percentile value of the uplink to bin8). To increase the granularity, the Interference Power over be Thermal The PUSCH RBs would evenly counter is reported in 10* dB units. (IoT) Noise(as Power foras the PUSCH distributed much possible) To support the PUSCH RB Resource distribution across theBlock 9there bins(RB) with 0 and This measurement provides the bin 50 distribution, are 9bin bins (bin0 bin 2. 8 having an equal number of percentile value of the uplink to bin8). To increase the granularity, the PUSCH RBs. Interference Power over be Thermal The PUSCH RBs would evenly counter is reported in 10* dB units. (IoT) Noise(as Power foras the PUSCH distributed much possible) To support the PUSCH RB Resource distribution across theBlock 9there bins(RB) with 0 and This measurement provides the bin 50 distribution, are 9bin bins (bin0 bin 3. 8 having an equal number of percentile value of the uplink to bin8). To increase the granularity, the PUSCH RBs. Interference Power over be Thermal The PUSCH RBs would evenly counter is reported in 10* dB units. (IoT) Noise(as Power foras the PUSCH distributed much possible) To support the PUSCH RB Resource distribution across theBlock 9there bins(RB) with 0 and This measurement provides the bin 50 distribution, are 9bin bins (bin0 bin 4. 8 having an equal number of percentile value of the uplink to bin8). To increase the granularity, the PUSCH RBs. Interference Power over be Thermal The PUSCH RBs would evenly counter is reported in 10* dB units. (IoT) Noise(as Power foras the PUSCH distributed much possible) To support the PUSCH RB Resource distribution across theBlock 9there bins(RB) with 0 and This measurement provides the bin 50 distribution, are 9bin bins (bin0 bin 5. 8 having an equal number of percentile value of the uplink to bin8). To increase the granularity, the PUSCH RBs. Interference Power over be Thermal The PUSCH RBs would evenly counter is reported in 10* dB units. (IoT) Noise(as Power foras the PUSCH distributed much possible) To support the PUSCH RB Resource distribution across theBlock 9there bins(RB) with 0 and This measurement provides the bin 50 distribution, are 9bin bins (bin0 bin 6. 8 having an equal number of percentile value of the uplink to bin8). To increase the granularity, the PUSCH RBs. Interference Power over be Thermal The PUSCH RBs would evenly counter is reported in 10* dB units. (IoT) Noise(as Power foras the PUSCH distributed much possible) To support the PUSCH RB Resource distribution across theBlock 9there bins(RB) with 0 and This measurement provides the bin 50 distribution, are 9bin bins (bin0 bin 7. 8 having an equal number of percentile value of the uplink to bin8). To increase the granularity, the PUSCH RBs. Interference Power over be Thermal The PUSCH RBs would evenly counter is reported in 10* dB units. (IoT) Noise(as Power foras the PUSCH distributed much possible) To support the PUSCH RB Resource distribution across theBlock 9there bins(RB) with 0 and bin distribution, are 9bin bins (bin0 bin 8. 8 having an equal number of to bin8). To increase the granularity, the PUSCH RBs. The PUSCH RBs would counter is reported in 10*bedBevenly units. distributed (as much as RB possible) To support the PUSCH across the 9there bins with 0 and bin distribution, are 9bin bins (bin0 8 having an equal number of to bin8). PUSCH RBs.RBs would be evenly The PUSCH distributed (as much as possible) across the 9 bins with bin 0 and bin
This measurement provides the 50 percentile value of the uplink Interference Power over Thermal (IoT) Noise Power for the PUSCH Resource Block (RB) distribution This measurement provides the 50 bin 0. percentile value of the uplink To increase the granularity, the Interference Power over Thermal counter is reported in 10* dB units. (IoT) Noise Power for the PUSCH To support the PUSCH RB Resource Block (RB) distribution This measurement provides the 50 distribution, there are 9 bins (bin0 bin 1. percentile value of the uplink to bin8). To increase the granularity, the Interference Power over be Thermal The PUSCH RBs would evenly counter is reported in 10* dB units. (IoT) Noise(as Power foras the PUSCH distributed much possible) To support the PUSCH RB Resource distribution across theBlock 9there bins(RB) with 0 and This measurement provides the bin 50 distribution, are 9bin bins (bin0 bin 2. 8 having an equal number of percentile value of the uplink to bin8). To increase the granularity, the PUSCH RBs. Interference Power over be Thermal The PUSCH RBs would evenly counter is reported in 10* dB units. (IoT) Noise(as Power foras the PUSCH distributed much possible) To support the PUSCH RB Resource distribution across theBlock 9there bins(RB) with 0 and This measurement provides the bin 50 distribution, are 9bin bins (bin0 bin 3. 8 having an equal number of percentile value of the uplink to bin8). To increase the granularity, the PUSCH RBs. Interference Power over be Thermal The PUSCH RBs would evenly counter is reported in 10* dB units. (IoT) Noise(as Power foras the PUSCH distributed much possible) To support the PUSCH RB Resource distribution across theBlock 9there bins(RB) with 0 and This measurement provides the bin 50 distribution, are 9bin bins (bin0 bin 4. 8 having an equal number of percentile value of the uplink to bin8). To increase the granularity, the PUSCH RBs. Interference Power over be Thermal The PUSCH RBs would evenly counter is reported in 10* dB units. (IoT) Noise(as Power foras the PUSCH distributed much possible) To support the PUSCH RB Resource distribution across theBlock 9there bins(RB) with 0 and This measurement provides the bin 50 distribution, are 9bin bins (bin0 bin 5. 8 having an equal number of percentile value of the uplink to bin8). To increase the granularity, the PUSCH RBs. Interference Power over be Thermal The PUSCH RBs would evenly counter is reported in 10* dB units. (IoT) Noise(as Power foras the PUSCH distributed much possible) To support the PUSCH RB Resource distribution across theBlock 9there bins(RB) with 0 and This measurement provides the bin 50 distribution, are 9bin bins (bin0 bin 6. 8 having an equal number of percentile value of the uplink to bin8). To increase the granularity, the PUSCH RBs. Interference Power over be Thermal The PUSCH RBs would evenly counter is reported in 10* dB units. (IoT) Noise(as Power foras the PUSCH distributed much possible) To support the PUSCH RB Resource distribution across theBlock 9there bins(RB) with 0 and This measurement provides the bin 50 distribution, are 9bin bins (bin0 bin 7. 8 having an equal number of percentile value of the uplink to bin8). To increase the granularity, the PUSCH RBs. Interference Power over be Thermal The PUSCH RBs would evenly counter is reported in 10* dB units. (IoT) Noise(as Power foras the PUSCH distributed much possible) To support the PUSCH RB Resource distribution across theBlock 9there bins(RB) with 0 and bin distribution, are 9bin bins (bin0 bin 8. 8 having an equal number of to bin8). To increase the granularity, the PUSCH RBs. The PUSCH RBs would counter is reported in 10*bedBevenly units. distributed (as much as RB possible) To support the PUSCH across the 9there bins with 0 and bin distribution, are 9bin bins (bin0 8 having an equal number of to bin8). PUSCH RBs.RBs would be evenly The PUSCH distributed (as much as possible) across the 9 bins with bin 0 and bin
This measurement provides the number of in-use PUSCH Resource Blocks (PRB) having an average Signal to Interference Ratio (SIR) value less than 1.0 provides dB. This measurement the
This measurement provides the number of in-use PUSCH Resource Blocks (PRB) having an average Signal to Interference Ratio (SIR) value less than 1.0 provides dB. This measurement the
number of in-use PUSCH Resource Blocks (PRB) having an average Signal to Interference Ratio (SIR) value from 1.0 dB toprovides less than This measurement the4.0 dB. number of in-use PUSCH Resource
number of in-use PUSCH Resource Blocks (PRB) having an average Signal to Interference Ratio (SIR) value from 1.0 dB toprovides less than This measurement the4.0 dB. number of in-use PUSCH Resource
Blocks (PRB) having an average Signal to Interference Ratio (SIR) value from 4.0 dB toprovides less than This measurement the7.0 dB. number of in-use PUSCH Resource
Blocks (PRB) having an average Signal to Interference Ratio (SIR) value from 4.0 dB toprovides less than This measurement the7.0 dB. number of in-use PUSCH Resource
Blocks (PRB) having an average Signal to Interference Ratio (SIR) value from 7.0 dB toprovides less than This measurement the10.0 dB. number of in-use PUSCH Resource
Blocks (PRB) having an average Signal to Interference Ratio (SIR) value from 7.0 dB toprovides less than This measurement the10.0 dB. number of in-use PUSCH Resource
Blocks (PRB) having an average Signal to Interference Ratio (SIR) value from 10.0 dB provides to less than This measurement the 13.0 dB. number of in-use PUSCH Resource
Blocks (PRB) having an average Signal to Interference Ratio (SIR) value from 10.0 dB provides to less than This measurement the 13.0 dB. number of in-use PUSCH Resource
Blocks (PRB) having an average Signal to Interference Ratio (SIR) value from 13.0 dB provides to less than This measurement the 16.0 dB. number of in-use PUSCH Resource
Blocks (PRB) having an average Signal to Interference Ratio (SIR) value from 13.0 dB provides to less than This measurement the 16.0 dB. number of in-use PUSCH Resource
Blocks (PRB) having an average Signal to Interference Ratio (SIR) value from 16.0 dB provides to less than This measurement the 19.0 dB. number of in-use PUSCH Resource
Blocks (PRB) having an average Signal to Interference Ratio (SIR) value from 16.0 dB provides to less than This measurement the 19.0 dB. number of in-use PUSCH Resource
Blocks (PRB) having an average Signal to Interference Ratio (SIR) value from 19.0 dB provides to less than This measurement the 22.0 dB. number of in-use PUSCH Resource
Blocks (PRB) having an average Signal to Interference Ratio (SIR) value from 19.0 dB provides to less than This measurement the 22.0 dB. number of in-use PUSCH Resource
Blocks (PRB) having an average Signal to Interference Ratio (SIR) value from 22.0 dB provides to less than This measurement the 25.0 dB. number of in-use PUSCH Resource
Blocks (PRB) having an average Signal to Interference Ratio (SIR) value from 22.0 dB provides to less than This measurement the 25.0 dB. number of in-use PUSCH Resource
Blocks (PRB) having an average Signal to Interference Ratio (SIR) value equal or than 25.0 The number ofgreater EPS bearer setup dB. attempts. Each bearer of the "E-
Blocks (PRB) having an average Signal to Interference Ratio (SIR) value equal or than 25.0 The number ofgreater EPS bearer setup dB. attempts. Each bearer of the "E-
RAB to Be Setup List" IE is counted.
RAB to Be Setup List" IE is counted.
The number of EPS bearer setup The number of EPS bearer setup completions. Each bearer of the "E- completions. Each bearer of the "ERAB Setup List" IE is counted. RAB Setup List" IE is counted.
The number of released Data Radio Bearers due to "normal release per call". Each bearer of the "E-RAB To Be Released List" IE has to be counted. In case of a UE context The number of EPC-initiated EPS release command, all established Bearer Release requests due to the EPS Bearers are counted. Detach procedure by the UE or
The number of released Data Radio Bearers due to "normal release per call". Each bearer of the "E-RAB To Be Released List" IE has to be counted. In case of a UE context The number of EPC-initiated EPS release command, all established Bearer Release requests due to the EPS Bearers are counted. Detach procedure by the UE or
MME (NAS cause). Each bearer of the Released List" The"E-RAB numberTo of Be EPC-initiated EPSIE has to be counted. In case of Bearer Release requests due atoUE the context release Layer command, allEach Radio Network cause. established Bearers bearer of theEPS "E-RAB to beare counted. Released List" is counted. The number of IE released Data-In case of a UE context release Radio Bearers due to Other command, all established EPS Reasons. Each bearer of the "EBearers are counted. RAB To Be Released List" IE has to be counted. In case of a UE context #N/A release command, all established EPS Bearer are counted.
MME (NAS cause). Each bearer of the Released List" The"E-RAB numberTo of Be EPC-initiated EPSIE has to be counted. In case of Bearer Release requests due atoUE the context release Layer command, allEach Radio Network cause. established Bearers bearer of theEPS "E-RAB to beare counted. Released List" is counted. The number of IE released Data-In case of a UE context release Radio Bearers due to Other command, all established EPS Reasons. Each bearer of the "EBearers are counted. RAB To Be Released List" IE has to be of a E-RABs UE context Thecounted. number In of case released release command, all established initiated by the eNB due to EPS Bearer are counted. Transport Layer reasons.
This measurement provides the sum of sampled values for measuring the number of simultaneous E-RABs with QCI 1 characteristics. Thisprovides counter,the This measurement divided by the denominator sum of sampled values for DENOM_SUM_SIMUL_ERAB, measuring the number of provides the average of2 simultaneous E-RABsnumber with QCI simultaneous QCI 1 E-RABs per characteristics. Thisprovides counter,the This measurement cell. divided by the denominator sum of sampled values for DENOM_SUM_SIMUL_ERAB, measuring the number of provides the average of3 simultaneous E-RABsnumber with QCI simultaneous QCI 2 E-RABs per characteristics. Thisprovides counter,the This measurement cell. divided by the denominator sum of sampled values for DENOM_SUM_SIMUL_ERAB, measuring the number of provides the average of4 simultaneous E-RABsnumber with QCI simultaneous QCI 3 E-RABs per characteristics. Thisprovides counter,the This measurement cell. divided by the denominator sum of sampled values for DENOM_SUM_SIMUL_ERAB, measuring the number of provides the average of5 simultaneous E-RABsnumber with QCI simultaneous QCI 4 E-RABs per characteristics. Thisprovides counter,the This measurement cell. divided by the denominator sum of sampled values for DENOM_SUM_SIMUL_ERAB, measuring the number of provides the average of6 simultaneous E-RABsnumber with QCI simultaneous QCI 5 E-RABs per characteristics. Thisprovides counter,the This measurement cell. divided by the denominator sum of sampled values for DENOM_SUM_SIMUL_ERAB, measuring the number of provides the average of7 simultaneous E-RABsnumber with QCI simultaneous QCI 6 E-RABs per characteristics. This counter, cell. divided by the denominator DENOM_SUM_SIMUL_ERAB, provides the average number of simultaneous QCI 7 E-RABs per cell.
This measurement provides the sum of sampled values for measuring the number of simultaneous E-RABs with QCI 1 characteristics. Thisprovides counter,the This measurement divided by the denominator sum of sampled values for DENOM_SUM_SIMUL_ERAB, measuring the number of provides the average of2 simultaneous E-RABsnumber with QCI simultaneous QCI 1 E-RABs per characteristics. Thisprovides counter,the This measurement cell. divided by the denominator sum of sampled values for DENOM_SUM_SIMUL_ERAB, measuring the number of provides the average of3 simultaneous E-RABsnumber with QCI simultaneous QCI 2 E-RABs per characteristics. Thisprovides counter,the This measurement cell. divided by the denominator sum of sampled values for DENOM_SUM_SIMUL_ERAB, measuring the number of provides the average of4 simultaneous E-RABsnumber with QCI simultaneous QCI 3 E-RABs per characteristics. Thisprovides counter,the This measurement cell. divided by the denominator sum of sampled values for DENOM_SUM_SIMUL_ERAB, measuring the number of provides the average of5 simultaneous E-RABsnumber with QCI simultaneous QCI 4 E-RABs per characteristics. Thisprovides counter,the This measurement cell. divided by the denominator sum of sampled values for DENOM_SUM_SIMUL_ERAB, measuring the number of provides the average of6 simultaneous E-RABsnumber with QCI simultaneous QCI 5 E-RABs per characteristics. Thisprovides counter,the This measurement cell. divided by the denominator sum of sampled values for DENOM_SUM_SIMUL_ERAB, measuring the number of provides the average of7 simultaneous E-RABsnumber with QCI simultaneous QCI 6 E-RABs per characteristics. This counter, cell. divided by the denominator DENOM_SUM_SIMUL_ERAB, provides the average number of simultaneous QCI 7 E-RABs per cell.
This measurement provides the sum of sampled values for measuring the number of simultaneous E-RABs with QCI 8 characteristics. Thisprovides counter,the This measurement divided by the denominator sum of sampled values for DENOM_SUM_SIMUL_ERAB, measuring the number of provides the average number of 9 simultaneously E-RABs with QCI simultaneous QCI 8 E-RABs per characteristics. Thisprovides counter,the This measurement cell. divided by the denominator number of samples, which were DENOM_SUM_SIMUL_ERAB, taken to determine the number of provides the average of simultaneous E-RABsnumber per QCI. simultaneous QCI 9 E-RABs per This cell. measurement provides the number of attempted modifications of QoS parameters for E-RABs of QCI1.
This measurement provides the sum of sampled values for measuring the number of simultaneous E-RABs with QCI 8 characteristics. Thisprovides counter,the This measurement divided by the denominator sum of sampled values for DENOM_SUM_SIMUL_ERAB, measuring the number of provides the average number of 9 simultaneously E-RABs with QCI simultaneous QCI 8 E-RABs per characteristics. Thisprovides counter,the This measurement cell. divided by the denominator number of samples, which were DENOM_SUM_SIMUL_ERAB, taken to determine the number of provides the average of simultaneous E-RABsnumber per QCI. simultaneous QCI 9 E-RABs per This cell. measurement provides the number of attempted modifications of QoS parameters for E-RABs of QCI1.
This measurement provides the number of attempted modifications of QoS parameters for E-RABs of QCI2.
This measurement provides the number of attempted modifications of QoS parameters for E-RABs of QCI2.
This measurement provides the number of attempted modifications of QoS parameters for E-RABs of QCI3.
This measurement provides the number of attempted modifications of QoS parameters for E-RABs of QCI3.
This measurement provides the number of attempted modifications of QoS parameters for E-RABs of QCI4.
This measurement provides the number of attempted modifications of QoS parameters for E-RABs of QCI4.
This measurement provides the number of attempted modifications of QoS parameters for E-RABs of QCI5.
This measurement provides the number of attempted modifications of QoS parameters for E-RABs of QCI5.
This measurement provides the number of attempted modifications of QoS parameters for E-RABs of QCI6.
This measurement provides the number of attempted modifications of QoS parameters for E-RABs of QCI6.
This measurement provides the number of attempted modifications of QoS parameters for E-RABs of QCI7.
This measurement provides the number of attempted modifications of QoS parameters for E-RABs of QCI7.
This measurement provides the number of attempted modifications of QoS parameters for E-RABs of QCI8.
This measurement provides the number of attempted modifications of QoS parameters for E-RABs of QCI8.
This measurement provides the number of attempted modifications of QoS parameters for E-RABs of QCI9.
This measurement provides the number of attempted modifications of QoS parameters for E-RABs of QCI9.
This measurement provides the number of successful modifications of QoS parameters for E-RABs of QCI1.
This measurement provides the number of successful modifications of QoS parameters for E-RABs of QCI1.
This measurement provides the number of successful modifications of QoS parameters for E-RABs of QCI2.
This measurement provides the number of successful modifications of QoS parameters for E-RABs of QCI2.
This measurement provides the number of successful modifications of QoS parameters for E-RABs of QCI3.
This measurement provides the number of successful modifications of QoS parameters for E-RABs of QCI3.
This measurement provides the number of successful modifications of QoS parameters for E-RABs of QCI4.
This measurement provides the number of successful modifications of QoS parameters for E-RABs of QCI4.
This measurement provides the number of successful modifications of QoS parameters for E-RABs of QCI5.
This measurement provides the number of successful modifications of QoS parameters for E-RABs of QCI5.
This measurement provides the number of successful modifications of QoS parameters for E-RABs of QCI6.
This measurement provides the number of successful modifications of QoS parameters for E-RABs of QCI6.
This measurement provides the number of successful modifications of QoS parameters for E-RABs of QCI7.
This measurement provides the number of successful modifications of QoS parameters for E-RABs of QCI7.
This measurement provides the number of successful modifications of QoS parameters for E-RABs of QCI8.
This measurement provides the number of successful modifications of QoS parameters for E-RABs of QCI8.
This measurement provides the number of successful modifications of QoS parameters for E-RABs of QCI9.
This measurement provides the number of successful modifications of QoS parameters for E-RABs of QCI9.
This measurement provides the number of failed E-RAB modifications in case of a timeout of the RRC Connection Reconfguration procedure since This measurement provides the the UE has not acknowledged the DRB number of failed E-RAB modification. modifications, for example in case
This measurement provides the number of failed E-RAB modifications in case of a timeout of the RRC Connection Reconfguration procedure since This measurement provides the the UE has not acknowledged the DRB number of failed E-RAB modification. modifications, for example in case
that the requested new QCI is not supported. This measurement provides the
that the requested new QCI is not supported. This measurement provides the
number of failed E-RAB modifications in case that a QoS modification is not supported, like for example the modification of a GBR DRB or the modifcation of a DRB being used for IMS signaling or the modification of a DRB with emergency ARP.
number of failed E-RAB modifications in case that a QoS modification is not supported, like for example the modification of a GBR DRB or the modifcation of a DRB being used for IMS signaling or the modification of a DRB with emergency ARP.
The number of EPC-initiated EPS Bearer Release requests for QCI1 due to normal release by UE. Each bearer of the E-RAB to be Released ListofIEEPC-initiated is counted. EPS The number
The number of EPC-initiated EPS Bearer Release requests for QCI1 due to normal release by UE. Each bearer of the E-RAB to be Released ListofIEEPC-initiated is counted. EPS The number
Bearer Release requests for QCI1 due to the Detach procedure by the UE or the MME. Each bearer of the E-RAB to be of Released List IEEPS is The number EPC-initiated counted. Bearer Release requests for QCI1
Bearer Release requests for QCI1 due to the Detach procedure by the UE or the MME. Each bearer of the E-RAB to be of Released List IEEPS is The number EPC-initiated counted. Bearer Release requests for QCI1
due to the Radio Network Layer cause. Each bearer of the E-RAB to be List IE is counted. TheReleased number of EPC-initiated EPS
due to the Radio Network Layer cause. Each bearer of the E-RAB to be List IE is counted. TheReleased number of EPC-initiated EPS
Bearer Release requests for QCI1 due to Other causes. Each bearer of the E-RAB to be Released List IE is counted. #N/A
Bearer Release requests for QCI1 due to Other causes. Each bearer of the E-RAB to be Released List IE is counted. The number of released QCI1 ERABs initiated by the eNB due to Transport Layer reasons.
This measurement provides the number of released active E-RABs (that is when there was user data in the queue at the time of release) with characteristics. The This QCI1 measurement provides the release is initiated by the eNB due number of released active E-RABs to radio connectivity problems. (that is when there was user data in
This measurement provides the number of released active E-RABs (that is when there was user data in the queue at the time of release) with characteristics. The This QCI1 measurement provides the release is initiated by the eNB due number of released active E-RABs to radio connectivity problems. (that is when there was user data in
the queue at the time of release) with characteristics. The This QCI2 measurement provides the release is initiated by the eNB due number of released active E-RABs to radio connectivity problems. (that is when there was user data in
the queue at the time of release) with characteristics. The This QCI2 measurement provides the release is initiated by the eNB due number of released active E-RABs to radio connectivity problems. (that is when there was user data in
the queue at the time of release) with characteristics. The This QCI3 measurement provides the release is initiated by the eNB due number of released active E-RABs to radio connectivity problems. (that is when there was user data in
the queue at the time of release) with characteristics. The This QCI3 measurement provides the release is initiated by the eNB due number of released active E-RABs to radio connectivity problems. (that is when there was user data in
the queue at the time of release) with characteristics. The This QCI4 measurement provides the release is initiated by the eNB due number of released active E-RABs to radio connectivity problems. (that is when there was user data in
the queue at the time of release) with characteristics. The This QCI4 measurement provides the release is initiated by the eNB due number of released active E-RABs to radio connectivity problems. (that is when there was user data in
the queue at the time of release) with characteristics This non-GBR measurement provides the (QCI5...9). The releaseactivity is initiated aggregated in-session time by the eNB due to radio in seconds for all E-RABs with connectivity problems.The E-RAB is QCI1 characteristics.
the queue at the time of release) with characteristics This non-GBR measurement provides the (QCI5...9). The releaseactivity is initiated aggregated in-session time by the eNB due to radio in seconds for all E-RABs with connectivity problems.The E-RAB is QCI1 characteristics.
said be "in session" if any the user This to measurement provides data has been transferred in or aggregated in-session activityUL time DL direction within the last in seconds for all E-RABs with 100msec. QCI2 characteristics. The E-RAB is
said be "in session" if any the user This to measurement provides data has been transferred in or aggregated in-session activityUL time DL direction within the last in seconds for all E-RABs with 100msec. QCI2 characteristics. The E-RAB is
said to be "in session" if any user data has been transferred in UL or DL direction within the last 100msec.
said to be "in session" if any user data has been transferred in UL or DL direction within the last 100msec.
This measurement provides the aggregated in-session activity time in seconds for all E-RABs with QCI3 characteristics. The E-RAB is said be "in session" if any the user This to measurement provides data has been transferred in or aggregated in-session activityUL time DL direction within the last in seconds for all E-RABs with 100msec. QCI4 characteristics. The E-RAB is
This measurement provides the aggregated in-session activity time in seconds for all E-RABs with QCI3 characteristics. The E-RAB is said be "in session" if any the user This to measurement provides data has been transferred in or aggregated in-session activityUL time DL direction within the last in seconds for all E-RABs with 100msec. QCI4 characteristics. The E-RAB is
said be "in session" if any the user This to measurement provides data has been transferred in or aggregated in-session activityUL time DL direction within the last in seconds for all E-RABs with non100msec. GBR (QCI5..9) characteristics. The
said be "in session" if any the user This to measurement provides data has been transferred in or aggregated in-session activityUL time DL direction within the last in seconds for all E-RABs with non100msec. GBR (QCI5..9) characteristics. The
E-RAB is saidoftoE-RAB be "in Setup session" if The number any user data has been transferred attempts (requests) for high priority in UL or DL direction within the last calls. 100msec. Each bearer of the "E-RAB to be
E-RAB is saidoftoE-RAB be "in Setup session" if The number any user data has been transferred attempts (requests) for high priority in UL or DL direction within the last calls. 100msec. Each bearer of the "E-RAB to be
Setup List" IEofisE-RAB counted. The number Setup completions for high priority calls. Each bearer of the "E-RAB Setup List" IE is counted.
Setup List" IEofisE-RAB counted. The number Setup completions for high priority calls. Each bearer of the "E-RAB Setup List" IE is counted.
This measurement provides the This measurement provides the number of setup attempts for initial number of setup attempts for initial E-RABs of QCI1. E-RABs of QCI1. This measurement provides the This measurement provides the number of setup attempts for initial number of setup attempts for initial E-RABs of QCI2. E-RABs of QCI2. This measurement provides the This measurement provides the number of setup attempts for initial number of setup attempts for initial E-RABs of QCI3. E-RABs of QCI3. This measurement provides the This measurement provides the number of setup attempts for initial number of setup attempts for initial E-RABs of QCI4. E-RABs of QCI4. This measurement provides the This measurement provides the number of setup attempts for initial number of setup attempts for initial E-RABs of QCI5. E-RABs of QCI5. This measurement provides the This measurement provides the number of setup attempts for initial number of setup attempts for initial E-RABs of QCI6. E-RABs of QCI6. This measurement provides the This measurement provides the number of setup attempts for initial number of setup attempts for initial E-RABs of QCI7. E-RABs of QCI7.
This measurement provides the This measurement provides the number of setup attempts for initial number of setup attempts for initial E-RABs of QCI8. E-RABs of QCI8. This measurement provides the This measurement provides the number of setup attempts for initial number of setup attempts for initial E-RABs of QCI9. E-RABs of QCI9. This measurement provides the number of setup attempts for additional E-RABs of QCI1.
This measurement provides the number of setup attempts for additional E-RABs of QCI1.
This measurement provides the number of setup attempts for additional E-RABs of QCI2.
This measurement provides the number of setup attempts for additional E-RABs of QCI2.
This measurement provides the number of setup attempts for additional E-RABs of QCI3.
This measurement provides the number of setup attempts for additional E-RABs of QCI3.
This measurement provides the number of setup attempts for additional E-RABs of QCI4.
This measurement provides the number of setup attempts for additional E-RABs of QCI4.
This measurement provides the number of setup attempts for additional E-RABs of QCI5.
This measurement provides the number of setup attempts for additional E-RABs of QCI5.
This measurement provides the number of setup attempts for additional E-RABs of QCI6.
This measurement provides the number of setup attempts for additional E-RABs of QCI6.
This measurement provides the number of setup attempts for additional E-RABs of QCI7.
This measurement provides the number of setup attempts for additional E-RABs of QCI7.
This measurement provides the number of setup attempts for additional E-RABs of QCI8.
This measurement provides the number of setup attempts for additional E-RABs of QCI8.
This measurement provides the number of setup attempts for additional E-RABs of QCI9.
This measurement provides the number of setup attempts for additional E-RABs of QCI9.
This measurement provides the This measurement provides the number of successfully established number of successfully established initial E-RABs of QCI1. initial E-RABs of QCI1.
This measurement provides the This measurement provides the number of successfully established number of successfully established initial E-RABs of QCI2. initial E-RABs of QCI2. This measurement provides the This measurement provides the number of successfully established number of successfully established initial E-RABs of QCI3. initial E-RABs of QCI3. This measurement provides the This measurement provides the number of successfully established number of successfully established initial E-RABs of QCI4. initial E-RABs of QCI4. This measurement provides the This measurement provides the number of successfully established number of successfully established initial E-RABs of QCI5. initial E-RABs of QCI5. This measurement provides the This measurement provides the number of successfully established number of successfully established initial E-RABs of QCI6. initial E-RABs of QCI6. This measurement provides the This measurement provides the number of successfully established number of successfully established initial E-RABs of QCI7. initial E-RABs of QCI7. This measurement provides the This measurement provides the number of successfully established number of successfully established initial E-RABs of QCI8. initial E-RABs of QCI8. This measurement provides the This measurement provides the number of successfully established number of successfully established initial E-RABs of QCI9. initial E-RABs of QCI9. This measurement provides the This measurement provides the number of successfully established number of successfully established additional E-RABs of QCI1. additional E-RABs of QCI1. This measurement provides the This measurement provides the number of successfully established number of successfully established additional E-RABs of QCI2. additional E-RABs of QCI2. This measurement provides the This measurement provides the number of successfully established number of successfully established additional E-RABs of QCI3. additional E-RABs of QCI3. This measurement provides the This measurement provides the number of successfully established number of successfully established additional E-RABs of QCI4. additional E-RABs of QCI4.
This measurement provides the This measurement provides the number of successfully established number of successfully established additional E-RABs of QCI5. additional E-RABs of QCI5. This measurement provides the This measurement provides the number of successfully established number of successfully established additional E-RABs of QCI6. additional E-RABs of QCI6. This measurement provides the This measurement provides the number of successfully established number of successfully established additional E-RABs of QCI7. additional E-RABs of QCI7. This measurement provides the This measurement provides the number of successfully established number of successfully established additional E-RABs of QCI8. additional E-RABs of QCI8. This measurement provides the This measurement provides the number of successfully established number of successfully established additional E-RABs of QCI9. additional E-RABs of QCI9. This measurement provides the maximum of sampled values for measuring the number of simultaneously established E-RABs with characteristics. This QCI1 measurement provides the
This measurement provides the maximum of sampled values for measuring the number of simultaneously established E-RABs with characteristics. This QCI1 measurement provides the
maximum of sampled values for measuring the number of simultaneously established E-RABs with characteristics. This QCI2 measurement provides the
maximum of sampled values for measuring the number of simultaneously established E-RABs with characteristics. This QCI2 measurement provides the
maximum of sampled values for measuring the number of simultaneously established E-RABs with characteristics. This QCI3 measurement provides the
maximum of sampled values for measuring the number of simultaneously established E-RABs with characteristics. This QCI3 measurement provides the
maximum of sampled values for measuring the number of simultaneously established E-RABs with characteristics. This QCI4 measurement provides the
maximum of sampled values for measuring the number of simultaneously established E-RABs with characteristics. This QCI4 measurement provides the
maximum of sampled values for measuring the number of simultaneously established E-RABs with characteristics. This QCI5 measurement provides the
maximum of sampled values for measuring the number of simultaneously established E-RABs with characteristics. This QCI5 measurement provides the
maximum of sampled values for measuring the number of simultaneously established E-RABs with characteristics. This QCI6 measurement provides the
maximum of sampled values for measuring the number of simultaneously established E-RABs with characteristics. This QCI6 measurement provides the
maximum of sampled values for measuring the number of simultaneously established E-RABs with QCI7 characteristics.
maximum of sampled values for measuring the number of simultaneously established E-RABs with QCI7 characteristics.
This measurement provides the maximum of sampled values for measuring the number of simultaneously established E-RABs with characteristics. This QCI8 measurement provides the
This measurement provides the maximum of sampled values for measuring the number of simultaneously established E-RABs with characteristics. This QCI8 measurement provides the
maximum of sampled values for measuring the number of simultaneously established E-RABs with characteristics. This QCI9 measurement provides the
maximum of sampled values for measuring the number of simultaneously established E-RABs with characteristics. This QCI9 measurement provides the
average number of non-GBR ERABs with a configured nominal bit rate in DL. The value provides is 100 times This reported measurement the higher than the actual value (for average number of non-GBR Eexample 1.00 is stored as 100). bit RABs with a configured nominal
average number of non-GBR ERABs with a configured nominal bit rate in DL. The value provides is 100 times This reported measurement the higher than the actual value (for average number of non-GBR Eexample 1.00 is stored as 100). bit RABs with a configured nominal
rate in UL. The value provides is 100 times This reported measurement the higher than the actual value (for average number of non-GBR Eexample 1.00 is stored as 100). bit RABs with a configured nominal
rate in UL. The value provides is 100 times This reported measurement the higher than the actual value (for average number of non-GBR Eexample 1.00 is stored as 100). bit RABs with a configured nominal
rate in DL. However, these nonGBR E-RABs do notprovides reach this This measurement the nominal bit rate. average number of non-GBR EThe reported value is 100 times bit RABs with a configured nominal higher than the actual value (for rate in UL. However, these nonexample 1.00 is stored as 100). GBR E-RABs do notprovides reach this This measurement the nominal bit rate. number of failed E-RAB The reported value 100 times modifications due tois"Radio higher than the actual (for Network Layer Cause -value Radio example 1.00 is stored as 100). resources not available" This measurement provides the
rate in DL. However, these nonGBR E-RABs do notprovides reach this This measurement the nominal bit rate. average number of non-GBR EThe reported value is 100 times bit RABs with a configured nominal higher than the actual value (for rate in UL. However, these nonexample 1.00 is stored as 100). GBR #N/A E-RABs do not reach this nominal bit rate. The reported value is 100 times higher than the actual value (for example 1.00 is stored as 100). #N/A
number of failed E-RAB modifications due to "Transport Layer cause - Transport Resource Unavailable" This measurement provides the
#N/A number of released active E-RABs (that is when there was user data in the queue at the time of release) with characteristics. The This QCI5 measurement provides the #N/A release is initiated by the eNB due number of released active E-RABs to radio connectivity problems. (that is when there was user data in the queue at the time of release) with characteristics. The This QCI6 measurement provides the #N/A release is initiated by the eNB due number of released active E-RABs to radio connectivity problems. (that is when there was user data in the queue at the time of release) with characteristics. The This QCI7 measurement provides the #N/A release is initiated by the eNB due number of released active E-RABs to radio connectivity problems. (that is when there was user data in the queue at the time of release) with QCI8 characteristics. The release is initiated by the eNB due to radio connectivity problems.
This measurement provides the #N/A number of released active E-RABs (that is when there was user data in the queue at the time of release) with characteristics. The This QCI9 measurement provides the #N/A release is initiated by the eNB due number of failed setup attempts for to radio connectivity initial E-RABs due toproblems. "Radio Network Layer Cause - Radio resources not available". This measurement provides the
#N/A number of failed setup attempts for initial E-RABs due to "Transport Network Layer Cause - Transport Resources Unavailable". This measurement provides the #N/A number of failed setup attempts for initial E-RABs due to "Radio Network Layer Cause - Radio Connection with UEprovides lost". the This measurement #N/A number of failed setup attempts for initial E-RABs due to "Radio Network Layer Cause - Failure in the Interface provides Procedure". ThisRadio measurement the #N/A number of failed setup attempts for additional E-RABs due to "Radio Network Layer Cause - Radio resources not available". This measurement provides the #N/A number of failed setup attempts for additional E-RABs due to "Transport Network Layer Cause Transport Resources Unavailable". This measurement provides the #N/A number of failed setup attempts for additional E-RABs due to "Radio Network Layer Cause - Radio Connection with UEprovides lost". the This measurement #N/A number of failed setup attempts for additional E-RABs due to "Radio Network Layer Cause - Failure in the Interface provides Procedure". ThisRadio measurement the #N/A number of failed setup attempts for additional E-RABs due to "Miscellaneous Cause - Not enough User Plane Processing Resources". This measurement provides the #N/A number of failed setup attempts for additional E-RABs due to mobility procedures like Handover, Redirect, or CSmeasurement Fallback. This provides the #N/A total number of eNB initiated ERAB releases regardless of the release cause and of the released bearers QCI.
This measurement provides the #N/A number of E-RABs released due to user inactivity. The counter is maintained regardless of the released bearers QCI. This measurement provides the #N/A number of E-RABs released if the connection to the UE is lost. The counter is maintained regardless of the bearers QCI. the Thisreleased measurement provides #N/A number of E-RABs released if the associated transport resources are not available anymore. The counter is maintained regardless of the This measurement provides the #N/A released bearers QCI. number of E-RABs released if the UE gets redirected to another cell. The counter is maintained regardless of the released bearers This measurement provides the #N/A QCI. number of E-RABs released due to E-UTRAN-generated reasons. The counter is maintained regardless of the bearers QCI. the Thisreleased measurement provides #N/A number of E-RABs released due to pre-emption if available radio resources are insufficient. The counter is maintained regardless This measurement provides the of #N/A the released bearers QCI. number of E-RABs released due to a partial HO. All E-RABs are counted, which are not admitted by the target duringprovides HO ThisHO measurement the #N/A preparation. The counter is number of E-RABs "attempted to maintained source cell release" dueintothe "intra-LTE HO", regardless of the bearers QCI. "inter-system HO to UTRAN", "SRVCC to UTRAN", or "SRVCC This measurement provides the to #N/A GSM". The counter is maintained in number of E-RABs released due to the source cell regardless of the the successful "intra-LTE HO", bearers QCI. HO to UTRAN", "inter-system "SRVCC to UTRAN", or "SRVCC This measurement provides the to #N/A GSM". The counter is maintained in number of E-RABs that are the source cell regardless of the abnormally released due to the bearers QCI. expiration of the HO Guard Timer for "intra-LTE HO", "inter-system Thisanmeasurement provides the #N/A HO to UTRAN", "SRVCC to number of EPC-initiated E-RAB UTRAN", or "SRVCC to GSM". releases, which are rejected by The the counter is maintained in the source eNB regardless of the reject cause. cell regardless of therequest bearers QCI. The release This E-RAB measurement provides may the be #N/A rejected, for example, due to total number of eNB-initiated an ongoing releases mobility of QCI1procedure. E-RABs regardless of the release cause.
This measurement provides the number of QCI1 E-RABs released due to user inactivity.
#N/A
This measurement provides the #N/A number of QCI1 E-RABs released if the connection to the UE is lost. This measurement provides the #N/A number of QCI1 E-RABs released if the associated transport resources are not available anymore. This measurement provides the #N/A number of QCI1 E-RABs released if the UE gets redirected to another cell. This measurement provides the number of QCI1 E-RABs released due to E-UTRAN-generated reasons.
#N/A
This measurement provides the number of QCI1 E-RABs released due to pre-emption if the available radio resources are insufficient.
#N/A
This measurement provides the #N/A number of QCI1 E-RABs released due to a partial HO. All QCI1 ERABs are counted, which are not admitted by the HOprovides target during This measurement the #N/A HO preparation. The counter is number of QCI1 E-RABs maintained in release" the source cell. "attempted to due to "intraLTE HO", "inter-system HO to UTRAN", "SRVCC to UTRAN", This measurement provides theor "SRVCC to GSM". The counter is number of QCI1 E-RABs released maintained in the source cell. due to the successful "intra-LTE
#N/A
HO", "inter-system HO to UTRAN", "SRVCC to UTRAN", or "SRVCC This measurement provides the to #N/A GSM". The counter is maintained number of QCI1 E-RABs that are in the source cell. abnormally released due to the expiration of the HO Guard Timer for "intra-LTE HO",Radio "inter-system Thean number of Data Bearers HO to UTRAN", "SRVCC to attempted to set up per cell. UTRAN", "SRVCC to GSM". The counter is maintained in the source It comprises also attempted Data cell. Radio Bearer setups up during an The number of successfully incoming Handover at the target established Data Radio Bearers per cell. cell. It comprises also the successfully established Data Radio Bearers due to an incoming Handover at the target cell.
The number of Data Radio Bearers attempted to set up per cell. It comprises also attempted Data Radio Bearerofsetups up during an The number successfully incoming Handover at target per established Data Radiothe Bearers cell. cell. It comprises also the successfully established Data Radio Bearers due to an incoming Handover at the target cell.
The number of Data Radio Bearers The number of Data Radio Bearers failed to setup per cell. failed to setup per cell. It comprises also the Data Radio Bearers failedoftoRadio setupBearer during an The number incoming Handover at the target Release requests due to Detach cell. procedure
It comprises also the Data Radio Bearers failedoftoRadio setupBearer during an The number incoming Handover at the target Release requests due to Detach cell. procedure
The number of Signaling Radio Bearer 1 setup attempts. SRB1 for most RRC messages using the DCCH.
The number of Signaling Radio Bearer 1 setup attempts. SRB1 for most RRC messages using the DCCH.
The number of Signaling Radio Note: Bearer 1 setup completions. SRB1 This counter not incremented in for most RRCismessages using the case of connection reDCCH. establishment or in case of The number of Signaling Radio incoming handover. Note: Bearer 1 setup failures. SRB1 for This is not incremented mostcounter RRC messages using the in case of connection reDCCH. establishment or in case of The number of Signaling Radio incoming handover. Bearer 2 setup attempts. SRB2 is for NAS messages using the DCCH (if AS security has been activated).
The number of Signaling Radio Note: Bearer 1 setup completions. SRB1 This counter not incremented in for most RRCismessages using the case of connection reDCCH. establishment or in case of The number of Signaling Radio incoming handover. Note: Bearer 1 setup failures. SRB1 for This is not incremented mostcounter RRC messages using the in case of connection reDCCH. establishment or in case of The number of Signaling Radio incoming handover. Bearer 2 setup attempts. SRB2 is for NAS messages using the DCCH (if AS security has been activated).
The number of Signaling Radio Note: Bearer 2 setup completions. SRB2 This is not incremented is forcounter NAS messages using the in case of connection reDCCH (if AS security has been establishment or in case of activated). The number of Signaling Radio incoming handover. Bearer 2 setup failures. SRB2 is for Note: NAS messages using the DCCH (if This counterhas is not incremented AS security been activated).in case of connection reThis measurement establishment or in provides case of the mean E-RAB setup incoming handover. time (3GPP TS 32.425, 36.413, 23.203).
The number of Signaling Radio Note: Bearer 2 setup completions. SRB2 This is not incremented is forcounter NAS messages using the in case of connection reDCCH (if AS security has been establishment or in case of activated). The number of Signaling Radio incoming handover. Bearer 2 setup failures. SRB2 is for Note: NAS messages using the DCCH (if This counterhas is not incremented AS security been activated).in case of connection reThis measurement establishment or in provides case of the mean E-RAB setup incoming handover. time (3GPP TS 32.425, 36.413, 23.203).
This measurement provides the This measurement provides the maximum E-RAB setup time (3GPP maximum E-RAB setup time (3GPP TS 32.425, 36.413, 23.203). TS 32.425, 36.413, 23.203). The number of rejected RRC Connection re-establishments.
The number of rejected RRC Connection re-establishments.
The number of RRC paging requests (records).
The number of RRC paging requests (records).
The number of discarded RRC paging requests (records).
The number of discarded RRC paging requests (records).
The number of transmitted RRC paging messages.
The number of transmitted RRC paging messages.
The number of attempted RRC Connection Re-establishment procedures.
The number of attempted RRC Connection Re-establishment procedures.
The number of successful RRC Connection Re-establishment procedures.
The number of successful RRC Connection Re-establishment procedures.
The number of RRC Connection Re-establishment attempts per cause (Handover Failure).
The number of RRC Connection Re-establishment attempts per cause (Handover Failure).
The number of successful RRC Connection Re-establishment procedures per cause (Handover Failure).
The number of successful RRC Connection Re-establishment procedures per cause (Handover Failure).
The number of RRC Connection Re-establishment attempts per cause (Other failure).
The number of RRC Connection Re-establishment attempts per cause (Other failure).
The number of successful RRC Connection Re-establishment procedures per cause (Other Failure).
The number of successful RRC Connection Re-establishment procedures per cause (Other Failure).
This counter provides the total number of attempts to retrieve the CGI of a neighbor cell from UE.
This counter provides the total number of attempts to retrieve the CGI of a neighbor cell from UE.
This counter provides the number of CGI measurement reports received from UE.
This counter provides the number of CGI measurement reports received from UE.
This counter provides the total number of attempts to retrieve the CGI of a UTRAN neighbor cell from UE.
This counter provides the total number of attempts to retrieve the CGI of a UTRAN neighbor cell from UE.
This counter provides the number of CGI measurement reports received from UE containing LAC and RAC.
This counter provides the number of CGI measurement reports received from UE containing LAC and RAC.
This counter provides the number of CGI measurement reports received from UE with missing LAC or RAC.
This counter provides the number of CGI measurement reports received from UE with missing LAC or RAC.
This counter provides the number of UEs attempted to redirect to Home eNB via RRC Connection Release.
This counter provides the number of UEs attempted to redirect to Home eNB via RRC Connection Release.
Number of RRC Pagings for ETWS Number of RRC Pagings for ETWS or CMAS. or CMAS.
This measurement provides the mean RRC connection setup time (3GPP TS 32.425, 36.331).
This measurement provides the mean RRC connection setup time (3GPP TS 32.425, 36.331).
This measurement provides the maximum RRC connection setup time (3GPP TS 32.425, 36.331).
This measurement provides the maximum RRC connection setup time (3GPP TS 32.425, 36.331).
The number of not started Handover preparations. The RRM receives an RRC Measurement Report (UE -> eNB), but the RRM decides not to a Handover The number ofstart positive Handover preparation phase. No cell decisions. In case of a target positive list will be handed over to the Handover decision, the RRM mobility (MM) transmitsmanagement a target cell list to unit. the
The number of not started Handover preparations. The RRM receives an RRC Measurement Report (UE -> eNB), but the RRM decides not to a Handover The number ofstart positive Handover preparation phase. No cell decisions. In case of a target positive list will be handed over to the Handover decision, the RRM mobility (MM) transmitsmanagement a target cell list to unit. the
mobility management (MM) unit. mobility management (MM) unit. The number of Intra-eNB Handover The number of Intra-eNB Handover preparations. preparations.
The number of failed Intra-eNB Handover preparations due to Admission Control. Includes failures to set up data forwarding in the target cell. of failed Intra-eNB The number
The number of failed Intra-eNB Handover preparations due to Admission Control. Includes failures to set up data forwarding in the target cell. of failed Intra-eNB The number
Handover preparations due to other Handover preparations due to other reasons. reasons. The number of Intra-eNB Handover The number of Intra-eNB Handover attempts. attempts.
The number of successful IntraeNB Handover completions.
The number of successful IntraeNB Handover completions.
The number of Intra-eNB Handover The number of Intra-eNB Handover failures due to the guarding timer failures due to the guarding timer THOoverall. THOoverall. UE reported (wideband) Channel Quality Indicator CQI class 00
UE reported (wideband) Channel Quality Indicator CQI class 00
UE reported (wideband) Channel Quality Indicator CQI class 01
UE reported (wideband) Channel Quality Indicator CQI class 01
UE reported (wideband) Channel Quality Indicator CQI class 02
UE reported (wideband) Channel Quality Indicator CQI class 02
UE reported (wideband) Channel Quality Indicator CQI class 03
UE reported (wideband) Channel Quality Indicator CQI class 03
UE reported (wideband) Channel Quality Indicator CQI class 04
UE reported (wideband) Channel Quality Indicator CQI class 04
UE reported (wideband) Channel Quality Indicator CQI class 05
UE reported (wideband) Channel Quality Indicator CQI class 05
UE reported (wideband) Channel Quality Indicator CQI class 06
UE reported (wideband) Channel Quality Indicator CQI class 06
UE reported (wideband) Channel Quality Indicator CQI class 07
UE reported (wideband) Channel Quality Indicator CQI class 07
UE reported (wideband) Channel Quality Indicator CQI class 08
UE reported (wideband) Channel Quality Indicator CQI class 08
UE reported (wideband) Channel Quality Indicator CQI class 09
UE reported (wideband) Channel Quality Indicator CQI class 09
UE reported (wideband) Channel Quality Indicator CQI class 10
UE reported (wideband) Channel Quality Indicator CQI class 10
UE reported (wideband) Channel Quality Indicator CQI class 11
UE reported (wideband) Channel Quality Indicator CQI class 11
UE reported (wideband) Channel Quality Indicator CQI class 12
UE reported (wideband) Channel Quality Indicator CQI class 12
UE reported (wideband) Channel Quality Indicator CQI class 13
UE reported (wideband) Channel Quality Indicator CQI class 13
UE reported (wideband) Channel Quality Indicator CQI class 14
UE reported (wideband) Channel Quality Indicator CQI class 14
UE reported (wideband) Channel Quality Indicator CQI class 15
UE reported (wideband) Channel Quality Indicator CQI class 15
Minimum CQI offset applied in link adaption process from outer loop link adaptation on the reported CQI values from UE
Minimum CQI offset applied in link adaption process from outer loop link adaptation on the reported CQI values from UE
Maximum CQI offset applied in link adaption process from outer loop link adaptation on the reported CQI values from UE
Maximum CQI offset applied in link adaption process from outer loop link adaptation on the reported CQI values from UE
Mean CQI offset applied in link adaption process from outer loop link adaptation on the reported CQI values from UE
Mean CQI offset applied in link adaption process from outer loop link adaptation on the reported CQI values from UE
The sum of MIMO Open Loop Diversity mode usage.
The sum of MIMO Open Loop Diversity mode usage.
The sum of MIMO Open Loop Spatial Multiplexing mode usage.
The sum of MIMO Open Loop Spatial Multiplexing mode usage.
The number of times when MIMO The number of times when MIMO Closed loop 1 Code Word mapping Closed loop 1 Code Word mode is to 1-layer mode is used. used. The number of times when MIMO The number of times when MIMO Closed loop 2 Code Word mapping Closed loop 2 Code Word mode is to 2-layer mode is used. used.
The number of Open Loop MIMO mode switches in downlink.
The number of Open Loop MIMO mode switches in downlink.
The number of MIMO Closed loop Code Word mode switchings.
The number of MIMO Closed loop Code Word mode switchings.
This counter provides the number of dedicated PDCCH resource allocations (eNB -> UE) for PDSCH transmissions with HARQ reporting; that this counter provides the This iscounter provides the number number of dedicated PDCCH of dedicated PDCCH resource resource allocations by which the allocations (eNB -> UE) for PDSCH eNB informs a dedicated UE on the transmissions with HARQ reporting PDCCH about the allocated in case that the eNBprovides was notfinal able This measurement PDSCH resources which are used to detect the HARQ response PDCCH power per RE perwith DCI in for PDSCH transmissions (ACK/NACK) fromconsidering the UE; that is each TTI without the HARQ reporting. This counter is of this counter provides the number cell/OFDM-symbol wide or updated irrespectively ofpositive that dedicated PDCCH resource negative adjustments. whether the eNB was able to detect This measurement allocations byvalue whichprovides the eNBthe The reported [in dBm] is 100 the HARQ response (ACK/NACK) average transmit power in milliwatts informs a dedicated UE on the times higher than the actual value from the UE or not. at the end of the interval. PDCCH about thecollection allocated (for example 1.00 is stored as 100). PDSCH resources which are used for PDSCH transmissions with This measurement provides the HARQ reporting in case maximum transmit powerthat in the eNB was not able to of detect milliwatts at the end the the HARQ response (ACK/NACK) from collection interval. the UE. This counter is only This counter parteNB of the updated whenis the was not histogram "UE Reported for able to detect the HARQ CQIs response Codeword 1" and (ACK/NACK) fromprovides the UE. the number of events the UE Therefore, either awhen transmission reports a wideband CQI error counter for the downlink This is part of PDCCH the(Channel Quality Information) level 0 for resource allocation (eNB CQIs -> UE)foror histogram "UE Reported Codeword 1 (3GPP TS 36.212, a transmission error for the the uplink Codeword 1" and provides 36.213, 36.331). HARQ response -> the eNB) number of events(UE when UEhas Only wideband CQI CQI reports for occurred. reports a wideband (Channel This counter is part of the wideband Codeword 1 are counted; Quality Information) levelCQIs 1 for for histogram "UE Reported CQI reports for Codeword 0 are not Codeword 1 (3GPP TS 36.212, Codeword 1" and provides the counted. 36.213, number 36.331). of events when the UE Only wideband CQI CQI reports for reports a wideband This counter is part of the(Channel Codeword 1 are counted; Quality Information) levelCQIs 2wideband for histogram "UE Reported CQI reports for Codeword 0 arefor not Codeword 1 (3GPP TS 36.212, Codeword 1" and provides the counted. 36.213, number 36.331). of events when the UE Only wideband CQI CQI reports for reports a wideband This counter is part of the(Channel Codeword 1 are counted; Quality Information) levelCQIs 3wideband for histogram "UE Reported CQI reports for Codeword 0 arefor not Codeword 1 (3GPP TS 36.212, Codeword 1" and provides the counted. 36.213, number 36.331). of events when the UE Only wideband CQI CQI reports for reports a wideband (Channel Codeword 1 are counted; wideband Quality Information) level 4 for CQI reports1 for Codeword 0 are not Codeword (3GPP TS 36.212, counted. 36.213, 36.331).
This counter provides the number of dedicated PDCCH resource allocations (eNB -> UE) for PDSCH transmissions with HARQ reporting; that this counter provides the This iscounter provides the number number of dedicated PDCCH of dedicated PDCCH resource resource allocations by which the allocations (eNB -> UE) for PDSCH eNB informs a dedicated UE on the transmissions with HARQ reporting PDCCH about the allocated in case that the eNBprovides was notfinal able This measurement PDSCH resources which are used to detect the HARQ response PDCCH power per RE perwith DCI in for PDSCH transmissions (ACK/NACK) fromconsidering the UE; that is each TTI without the HARQ reporting. This counter is of this counter provides the number cell/OFDM-symbol wide or updated irrespectively ofpositive that dedicated PDCCH resource negative adjustments. whether the eNB was able to detect This measurement allocations byvalue whichprovides the eNBthe The reported [in dBm] is 100 the HARQ response (ACK/NACK) average transmit power in milliwatts informs a dedicated UE on the times higher than the actual value from the UE or not. at the end of the interval. PDCCH about thecollection allocated (for example 1.00 is stored as 100). PDSCH resources which are used This measurement is supported for PDSCH transmissions with This measurement provides the only for the FRMr2.3 RF modules HARQ reporting in case maximum transmit powerthat in the and the Single-Technology eNB wasFujitsu not able to of detect the milliwatts at the end collection (ST-RRH), Multi-Technology (MTHARQ response (ACK/NACK) from interval. RRH), Multithe UE.and ThisNew-Design counter is only #N/A Technology (NDMT-RRH) Remote updated when the eNB was not This measurement is supported Radio Heads (RRH). able for to detect the HARQ response only the FRMr2.3 RF modules (ACK/NACK) from the UE. and the Fujitsu Single-Technology Therefore, either a transmission (ST-RRH), Multi-Technology (MTerror for the downlink PDCCH #N/A RRH), and New-Design Multiresource allocation (eNB -> UE) or Technology (NDMT-RRH) Remote a transmission error for the uplink Radio Heads (RRH). HARQ response (UE -> eNB) has occurred. #N/A
Only wideband CQI reports for Codeword 1 are counted; wideband CQI reports for Codeword 0 are not counted.
#N/A
#N/A
This counter is part of the histogram "UE Reported CQIs for Codeword 1" and provides the number of events when the UE reports a wideband This counter is part CQI of the(Channel Quality Information) levelCQIs 5 for for histogram "UE Reported Codeword 1 (3GPP TS 36.212, Codeword 1" and provides the 36.213, number 36.331). of events when the UE Only wideband CQI CQI reports for reports a wideband This counter is part of the(Channel Codeword 1 are counted; Quality Information) levelCQIs 6wideband for histogram "UE Reported CQI reports for Codeword 0 arefor not Codeword 1 (3GPP TS 36.212, Codeword 1" and provides the counted. 36.213, number 36.331). of events when the UE Only wideband CQI CQI reports for reports a wideband This counter is part of the(Channel Codeword 1 are counted; Quality Information) levelCQIs 7wideband for histogram "UE Reported CQI reports for Codeword 0 arefor not Codeword 1 (3GPP TS 36.212, Codeword 1" and provides the counted. 36.213, number 36.331). of events when the UE Only wideband CQI CQI reports for reports a wideband This counter is part of the(Channel Codeword 1 are counted; Quality Information) levelCQIs 8wideband for histogram "UE Reported CQI reports for Codeword 0 arefor not Codeword 1 (3GPP TS 36.212, Codeword 1" and provides the counted. 36.213, number 36.331). of events when the UE Only wideband CQI CQI reports for reports a wideband This counter is part of the(Channel Codeword 1 are counted; Quality Information) levelCQIs 9wideband for histogram "UE Reported CQI reports for Codeword 0 arefor not Codeword 1 (3GPP TS 36.212, Codeword 1" and provides the counted. 36.213, number 36.331). of events when the UE Only wideband CQI CQI reports for reports a wideband This counter is part of the(Channel Codeword 1 are counted; wideband Quality Information) levelCQIs 10 for histogram "UE Reported CQI reports for Codeword 0 arefor not Codeword 1 (3GPP TS 36.212, Codeword 1" and provides the counted. 36.213, number 36.331). of events when the UE Only wideband CQI CQI reports for reports a wideband This counter is part of the(Channel Codeword 1 are counted; wideband Quality Information) levelCQIs 11 for histogram "UE Reported CQI reports for Codeword 0 arefor not Codeword 1 (3GPP TS 36.212, Codeword 1" and provides the counted. 36.213, number 36.331). of events when the UE Only wideband CQI CQI reports for reports a wideband This counter is part of the(Channel Codeword 1 are counted; wideband Quality Information) levelCQIs 12 for histogram "UE Reported CQI reports for Codeword 0 arefor not Codeword 1 (3GPP TS 36.212, Codeword 1" and provides the counted. 36.213, number 36.331). of events when the UE Only wideband CQI CQI reports for reports a wideband This counter is part of the(Channel Codeword 1 are counted; wideband Quality Information) levelCQIs 13 for histogram "UE Reported CQI reports for Codeword 0 arefor not Codeword 1 (3GPP TS 36.212, Codeword 1" and provides the counted. 36.213, number 36.331). of events when the UE Only wideband CQI CQI reports for reports a wideband This counter is part of the(Channel Codeword 1 are counted; wideband Quality Information) levelCQIs 14 for histogram "UE Reported CQI reports for Codeword 0 arefor not Codeword 1 (3GPP TS 36.212, Codeword 1" and provides the counted. 36.213, number 36.331). of events when the UE Only wideband CQI CQI reports for reports a wideband (Channel The Physical Resource Block Codeword 1 are counted; wideband Quality Information) 15 for (PRB) utilization per level TTI. The CQI reports for Codeword 0 are not Codeword 1 (3GPP TS 36.212, utilization is defined by the rate of counted. 36.213, 36.331). used PRB per TTI. Utilization in the Only wideband CQI reports for range of <= 10% is updated to this Codeword 1 are counted; wideband counter. CQI reports for Codeword 0 are not counted.
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
The Physical Resource Block (PRB) utilization per TTI. The utilization is defined by the rate of used PRB per TTI. Utilization in the range of <= 10% is updated to this counter.
The Physical Resource Block (PRB) utilization per TTI. The utilization is defined by the rate of used PRB per TTI. Utilization in the range of 10% Resource < PRBUTIL < = 20% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
The Physical Resource Block (PRB) utilization per TTI. The utilization is defined by the rate of used PRB per TTI. Utilization in the range of 10% Resource < PRBUTIL < = 20% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 20% Resource < PRBUTIL < = 30% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 20% Resource < PRBUTIL < = 30% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 30% Resource < PRBUTIL < = 40% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 30% Resource < PRBUTIL < = 40% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 40% Resource < PRBUTIL < = 50% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 40% Resource < PRBUTIL < = 50% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 50% Resource < PRBUTIL < = 60% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 50% Resource < PRBUTIL < = 60% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 60% Resource < PRBUTIL < = 70% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 60% Resource < PRBUTIL < = 70% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 70% Resource < PRBUTIL < = 80% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 70% Resource < PRBUTIL < = 80% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 80% Resource < PRBUTIL < = 90% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 80% Resource < PRBUTIL < = 90% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 90%
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 90%
utilization per TTI. The utilization is defined by the rate of used PRB per TTI. The maximum value of the UL
utilization per TTI. The utilization is defined by the rate of used PRB per TTI. The maximum value of the UL
Physical Resource Block (PRB) utilization per TTI. The utilization is defined by the rate of used PRB per TTI. The mean value of the UL Physical
Physical Resource Block (PRB) utilization per TTI. The utilization is defined by the rate of used PRB per TTI. The mean value of the UL Physical
Resource Block (PRB) use per TTI. The use is defined by the rate of used PRB per TTI. The reported value is 10 times higher than the actual value (for example 5.4 is stored as 54).
Resource Block (PRB) use per TTI. The use is defined by the rate of used PRB per TTI. The reported value is 10 times higher than the actual value (for example 5.4 is stored as 54).
The Physical Resource Block (PRB) utilization per TTI. The utilization is defined by the rate of used PRB per TTI. Utilization in the range of <= 10% is updated The Physical Resource Blockto this counter. (PRB) utilization per TTI. The
The Physical Resource Block (PRB) utilization per TTI. The utilization is defined by the rate of used PRB per TTI. Utilization in the range of <= 10% is updated The Physical Resource Blockto this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 10% Resource < PRBUTIL < = 20% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 10% Resource < PRBUTIL < = 20% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 20% Resource < PRBUTIL < = 30% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 20% Resource < PRBUTIL < = 30% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilisation is defined by the rate of used PRB per TTI. Utilization in the range of 30% Resource < PRBUTIL < = 40% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilisation is defined by the rate of used PRB per TTI. Utilization in the range of 30% Resource < PRBUTIL < = 40% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 40% Resource < PRBUTIL < = 50% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 40% Resource < PRBUTIL < = 50% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 50% Resource < PRBUTIL < = 60% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 50% Resource < PRBUTIL < = 60% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 60% Resource < PRBUTIL < = 70% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 60% Resource < PRBUTIL < = 70% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 70% Resource < PRBUTIL < = 80% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 70% Resource < PRBUTIL < = 80% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 80% Resource < PRBUTIL < = 90% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 80% Resource < PRBUTIL < = 90% The Physical Block is updated to this counter. (PRB) utilization per TTI. The
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 90%
utilization is defined by the rate of used PRB per TTI. Utilization in the range of 90%
utilization per TTI. The utilization is defined by the rate of used PRB per TTI. The maximum value of the DL
utilization per TTI. The utilization is defined by the rate of used PRB per TTI. The maximum value of the DL
Physical Resource Block (PRB) utilization per TTI. The utilization is defined by the rate of used PRB per TTI.
Physical Resource Block (PRB) utilization per TTI. The utilization is defined by the rate of used PRB per TTI.
The mean value of the DL Physical Resource Block (PRB) use per TTI. The use is defined by the rate of used PRB per TTI. The is 10 times for Totalreported number value of CCEs available higher than the actual value active TTIs when at least one(for example is stored 54). PDCCH is5.4 going to beas scheduled.
The mean value of the DL Physical Resource Block (PRB) use per TTI. The use is defined by the rate of used PRB per TTI. The is 10 times for Totalreported number value of CCEs available higher than the actual value active TTIs when at least one(for example is stored 54). PDCCH is5.4 going to beas scheduled.
Total number of AGG1 used for PDCCH scheduling over the measurement period.
Total number of AGG1 used for PDCCH scheduling over the measurement period.
Total number of AGG2 used for PDCCH scheduling over the measurement period.
Total number of AGG2 used for PDCCH scheduling over the measurement period.
Total number of AGG4 used for PDCCH scheduling over the measurement period.
Total number of AGG4 used for PDCCH scheduling over the measurement period.
Total number of AGG8 used for PDCCH scheduling over the measurement period.
Total number of AGG8 used for PDCCH scheduling over the measurement period.
Total number of AGG1 blocked for PDCCH scheduling over the measurement period.
Total number of AGG1 blocked for PDCCH scheduling over the measurement period.
Total number of AGG2 blocked for PDCCH scheduling over the measurement period.
Total number of AGG2 blocked for PDCCH scheduling over the measurement period.
Total number of AGG4 blocked for PDCCH scheduling over the measurement period.
Total number of AGG4 blocked for PDCCH scheduling over the measurement period.
The total number of AGG8 blocked The total number of AGG8 blocked for PDCCH scheduling over the for PDCCH scheduling over the measurement period. measurement period. Total number of PRBs used for UL transmissions on PUSCH, PUCCH and PRACH over the measurement period is updated to this counter. A PRB pair of used resource Total covers numberthe of PRBs for blocks of two consecutive slots in a PUCCH over the measurement subframe. period is updated to this counter. A
Total number of PRBs used for UL transmissions on PUSCH, PUCCH and PRACH over the measurement period is updated to this counter. A PRB pair of used resource Total covers numberthe of PRBs for blocks of two consecutive slots in a PUCCH over the measurement subframe. period is updated to this counter. A
PRB covers the pair of resource PRB covers the pair of resource blocks of two consecutive slots in a blocks of two consecutive slots in a subframe. subframe.
Total number of PRBs used for UL transmissions on PUSCH over the measurement period is updated to this counter. A PRB covers the pair of resource blocks of two Total number of PRBs used for DL consecutive slots in a subframe. transmissions over the
Total number of PRBs used for UL transmissions on PUSCH over the measurement period is updated to this counter. A PRB covers the pair of resource blocks of two Total number of PRBs used for DL consecutive slots in a subframe. transmissions over the
measurement period is updated to this counter. A PRB covers the pair of resource blocks of two Total number of PRBs used for consecutive slots in a subframe. PDSCH over the measurement
measurement period is updated to this counter. A PRB covers the pair of resource blocks of two Total number of PRBs used for consecutive slots in a subframe. PDSCH over the measurement
period is updated to this counter. A PRB covers the pair of resource blocks ofvalue two consecutive slotsper in a Average of UEs served subframe. TTI on uplink during a
period is updated to this counter. A PRB covers the pair of resource blocks ofvalue two consecutive slotsper in a Average of UEs served subframe. TTI on uplink during a
measurement period. Counter unit is 0.1 UE. For example, counter value 100 value represents tenserved UEs. per Maximum of UEs
measurement period. Counter unit is 0.1 UE. For example, counter value 100 value represents tenserved UEs. per Maximum of UEs
TTI on uplink during a measurement period.
TTI on uplink during a measurement period.
Average value of UEs served per TTI on downlink during a measurement period. Counter unit is 0.1 UE. For example, counter value 100 value represents tenserved UEs. per Maximum of UEs
Average value of UEs served per TTI on downlink during a measurement period. Counter unit is 0.1 UE. For example, counter value 100 value represents tenserved UEs. per Maximum of UEs
TTI on downlink during a measurement period.
TTI on downlink during a measurement period.
This counter provides the number of subframes when only 1 OFDM symbol is allocated to the PDCCH (3GPP TS 36.211, 36.300).
This counter provides the number of subframes when only 1 OFDM symbol is allocated to the PDCCH (3GPP TS 36.211, 36.300).
This counter provides the number of subframes when 2 OFDM symbols are allocated to the PDCCH (3GPP TS 36.211, 36.300).
This counter provides the number of subframes when 2 OFDM symbols are allocated to the PDCCH (3GPP TS 36.211, 36.300).
This counter provides the number of subframes when 3 OFDM symbols are allocated to the PDCCH (3GPP TS 36.211, 36.300).
This counter provides the number of subframes when 3 OFDM symbols are allocated to the PDCCH (3GPP TS 36.211, 36.300).
The measurement provides the average number of UEs in TTI Bundling mode per sample. Each instance of a UE entering TTI Bundling Mode Total number of during grants the for TTI measurement interval is included in Bundling. the average. Thus if, for example, a single UE is placed in TTI Bundling mode three times during the measurement interval, all of the three instances will be included in the average. The reported value is 100 times higher than the actual value (for example 1.00 is stored as 100).
The measurement provides the average number of UEs in TTI Bundling mode per sample. Each instance of a UE entering TTI Bundling Mode Total number of during grants the for TTI measurement interval is included in Bundling. the average. Thus if, for example, a single UE is placed in TTI Bundling mode three times during the measurement interval, all of the three instances will be included in the average. The reported value is 100 times higher than the actual value (for example 1.00 is stored as 100).
The measurement represents the number of UEs that are in TTI Bundling mode for only a short period of time, which is defined as less than t1 seconds, i.e. retention The measurement represents the time in TTI Bundling mode < t1 sec. number of UEs that are in TTI
The measurement represents the number of UEs that are in TTI Bundling mode for only a short period of time, which is defined as less than t1 seconds, i.e. retention The measurement represents the time in TTI Bundling mode < t1 sec. number of UEs that are in TTI
Bundling mode for a medium period of time. This time period is defined by lower bound ofrepresents t1 secondsthe and Thea measurement an upper bound of t2 seconds, that number of UEs that are in TTI is retention timefor in TTI Bundling Bundling mode a long period of mode: t1 <= x <= t2 sec. time, which is defined as longer
Bundling mode for a medium period of time. This time period is defined by lower bound ofrepresents t1 secondsthe and Thea measurement an upper bound of t2 seconds, that number of UEs that are in TTI is retention timefor in TTI Bundling Bundling mode a long period of mode: t1 <= x <= t2 sec. time, which is defined as longer
than t2 seconds, i.e. retention time This counter provides the number in TTI Bundling mode > t2 sec. of SCell configuration attempts.
than t2 seconds, i.e. retention time This counter provides the number in TTI Bundling mode > t2 sec. of SCell configuration attempts.
This counter provides the number of successful SCell configuration attempts.
This counter provides the number of successful SCell configuration attempts.
This counter indicates the occurrence that the cell is in the active Load Balancing state for inter-frequency load balancing. When the cellofisTTIs in the Load The number in active which cell Balancing state, the Load resource group 1 is scheduled in Balancing algorithm tries to reduce UL. the serving cell load by shifting the cell traffic to neighbor cells (Load The number of TTIs in which cell Balancing handover). resource groupvalue 2 is scheduled in The maximum of this counter UL. depends on the length of the measurement period. If the measurement 15 minutes The number ofperiod TTIs iniswhich cell (that is, 900 sec), the maximumin resource group 3 is scheduled value UL. of this counter is 900 sec/1 sec = 900 (every 1 second, the eNB checks whether the cell is in the The number of TTIs in state). which cell active Load Balancing resource group 4 is scheduled in UL.
This counter indicates the occurrence that the cell is in the active Load Balancing state. When the cell is in the active Load Balancing state, the Load The number of TTIs in which cell Balancing algorithm tries to reduce resource group 1 is scheduled in the UL. serving cell load by shifting cell traffic to neighbor cells (Load Balancing handover). The number of value TTIs in cell maximum ofwhich this counter resource group is scheduled depends on the 2length of the in UL. measurement period. If the measurement period is 15 minutes (thatnumber is 900 sec), thein maximum The of TTIs which cell value of this counter is 900 sec/1 resource group 3 is scheduled in sec UL. = 900 (every 1 second the eNB checks whether the cell is in the active Load Balancing state). The number of TTIs in which cell resource group 4 is scheduled in UL.
The number of TTIs in which PUSCH could be scheduled.
The number of TTIs in which PUSCH could be scheduled.
The number of TTIs in which cell resource group 1 is scheduled in DL.
The number of TTIs in which cell resource group 1 is scheduled in DL.
The number of TTIs in which cell resource group 2 is scheduled in DL.
The number of TTIs in which cell resource group 2 is scheduled in DL.
The number of TTIs in which cell resource group 3 is scheduled in DL.
The number of TTIs in which cell resource group 3 is scheduled in DL.
The number of TTIs in which cell resource group 4 is scheduled in DL.
The number of TTIs in which cell resource group 4 is scheduled in DL.
The number of TTIs in which PDSCH could be scheduled.
The number of TTIs in which PDSCH could be scheduled.
This counter is a part of the histogram "Cell DL Composite Available Capacity (DL CAC)" and provides the number of events when the measured This counter is a partdownlink of the CAC of the cell was zero (DL CAC = 0). histogram "Cell DL Composite Load balancing is activated to and shift Available Capacity (DL CAC)" traffic from the high-loaded LTE provides the number of events serving cell to the lower-loaded LTE when the measured CAC This counter is afavoring partdownlink of the neighbor cell by handovers of the cell was the range 0 < DL histogram "CellinDL from the serving cellComposite to the neighbor CAC <= 20. Available Capacity (DL CAC)" and cell (by applying neighbor-cellLoad balancing is activated to shift provides the number of events related handover thresholds which traffic from the high-loaded LTE when the measured downlink favor handovers to the neighbor This counter a part of the CAC serving cellwas toisthe lower-loaded of the cell in the range 20
This counter is a part of the histogram "Cell DL Composite Available Capacity (DL CAC)" and provides the number of events when the measured This counter is a partdownlink of the CAC of the cell was zero (DL CAC = 0). histogram "Cell DL Composite Load balancing is activated to and shift Available Capacity (DL CAC)" traffic from the high-loaded LTE provides the number of events serving cell to the lower-loaded LTE when the measured CAC This counter is afavoring partdownlink of the neighbor cell by handovers of the cell was the range 0 < DL histogram "CellinDL from the serving cellComposite to the neighbor CAC <= 20. Available Capacity (DL CAC)" and cell (by applying neighbor-cellLoad balancing is activated to shift provides the number of events related handover thresholds which traffic from the high-loaded LTE when the measured downlink favor handovers to the neighbor This counter a part of the CAC serving cellwas toisthe lower-loaded of the cell in the range 20
The counter provides the number of The counter provides the number of times when the preferred resources times when the preferred resources are changed. are changed. This counter is a part of the histogram "Cell DL Available Capacity for PDCCH" and provides the number of events when the measured PDCCH ACofofthe the cell This counter is a part was zero (PDCCH AC = 0). histogram "Cell DL Available Load balancing is for activated to shift Capacity (DL AC) PDCCH" and traffic from the high-loaded LTE provides the number of events serving cell to the lower-loaded when the measured ACLTE of This counter is afavoring partPDCCH of the neighbor cell by handovers the cell was in the range 0 < histogram "Cell DL from the AC serving cellAvailable to the neighbor PDCCH 20. Capacity (DL<= AC) for PDCCH" and cell (by applying neighbor-cellLoad balancing is activated to shift provides the number of events related handover thresholds that traffic from the high-loaded LTE when the measured PDCCH AC of favor handovers to the neighbor This counter is a part of the serving cell to the lower-loaded LTE the cell was in the range 20 < cell). histogram "Cell DL Available neighbor cell by favoring handovers PDCCH AC 40. The PDCCH AC of the cell is and Capacity (DL<= AC) for PDCCH" from the serving cell to the neighbor Load balancing is activated to shift measured by the eNB internally and provides the number of events cell (byfrom applying neighbor-celltraffic the high-loaded LTE is used by the eNB in the context when the measured PDCCH AC ofof related handover thresholds that This counter isthe a part of the serving cell to lower-loaded cell load measurements for load the cell was in the 40 < LTE favor handovers torange the neighbor histogram "Cell DL Available neighbor cell by favoring handovers balancing between cells (3GPP TS PDCCH AC <= 60. and cell). Capacity (DL AC)" provides the from the serving cell to the neighbor 36.423). A PDCCH AC value of "0" Load balancing is activated to shift The PDCCH AC neighbor-cellofwhen the cell number ofno events theis and cell (by applying indicates available capacity, traffic fromby thethe high-loaded LTE measured eNB internally measured PDCCH ACof ofthe the celland related handover thresholds that a value of "100" maximum This counter isthe aindicates part serving cell to lower-loaded LTE is used by the eNB in the context of was inhandovers thecapacity rangeDL 60
This counter is a part of the histogram "Cell DL Available Capacity for PDCCH" and provides the number of events when the measured PDCCH ACofofthe the cell This counter is a part was zero (PDCCH AC = 0). histogram "Cell DL Available Load balancing is for activated to shift Capacity (DL AC) PDCCH" and traffic from the high-loaded LTE provides the number of events serving cell to the lower-loaded when the measured ACLTE of This counter is afavoring partPDCCH of the neighbor cell by handovers the cell was in the range 0 < histogram "Cell DL from the AC serving cellAvailable to the neighbor PDCCH 20. Capacity (DL<= AC) for PDCCH" and cell (by applying neighbor-cellLoad balancing is activated to shift provides the number of events related handover thresholds that traffic from the high-loaded LTE when the measured PDCCH AC of favor handovers to the neighbor This counter is a part of the serving cell to the lower-loaded LTE the cell was in the range 20 < cell). histogram "Cell DL Available neighbor cell by favoring handovers PDCCH AC 40. The PDCCH AC of the cell is and Capacity (DL<= AC) for PDCCH" from the serving cell to the neighbor Load balancing is activated to shift measured by the eNB internally and provides the number of events cell (byfrom applying neighbor-celltraffic the high-loaded LTE is used by the eNB in the context when the measured PDCCH AC ofof related handover thresholds that This counter isthe a part of the serving cell to lower-loaded cell load measurements for load the cell was in the 40 < LTE favor handovers torange the neighbor histogram "Cell DL Available neighbor cell by favoring handovers balancing between cells (3GPP TS PDCCH AC <= 60. and cell). Capacity (DL AC)" provides the from the serving cell to the neighbor 36.423). A PDCCH AC value of "0" Load balancing is activated to shift The PDCCH AC neighbor-cellofwhen the cell number ofno events theis and cell (by applying indicates available capacity, traffic fromby thethe high-loaded LTE measured eNB internally measured PDCCH ACof ofthe the celland related handover thresholds that a value of "100" maximum This counter isthe aindicates part serving cell to lower-loaded LTE is used by the eNB in the context of was inhandovers thecapacity rangeDL 60
This counter is a part of the histogram "Cell DL Available Capacity (DL AC) for GBR bearers" and provides the number of events when the measured This counter is a partdownlink of the AC for GBR bearers of the cell was in histogram "Cell DL Available the range 80 < DL GBR AC <= 100. Capacity (DL AC) for non-GBR Load balancing is activated to shift bearers" and provides the number traffic from the high-loaded LTE of events when measured This counter athe part of the DL serving cell toisof the lower-loaded LTE non-GBR AC the cell was zero histogram "Cell DL Available neighbor cell by favoring handovers (DL non-GBR AC = Capacity (DL AC) for0). non-GBR from the serving cell to the neighbor Load balancing is activated to shift bearers" and provides the number cell (by applying neighbor-celltraffic from the high-loaded LTE of events when measured DL related handover thresholds This counter athe part of the that serving cell toisof the lower-loaded LTE non-GBR AC the cell was in the favor handovers to the neighbor histogram "Cell DL Available neighbor cell by favoring handovers range 0 <(DL DL AC) non-GBR AC <= 20. cell). Capacity for to non-GBR from the serving cell the neighbor Load balancing is activated to shift The DL applying GBR of thethe cellnumber is bearers" and AC provides cell (by neighbor-celltraffic from the high-loaded LTE measured by the eNB internally of events when measured DLand related handover thresholds that This counter isthe athe part of the serving cell to lower-loaded LTE is used by the eNB in the context of non-GBR AC of DL the cellneighbor was in the favor handovers to Available the histogram "Cell neighbor cell by favoring handovers cell load measurements for load range 20 (DL < DLAC) non-GBR AC <= 40. cell). Capacity for non-GBR from the serving cell to the neighbor balancing between cells (3GPP TS Load balancing is activated to The DL non-GBR AC of the cellshift is bearers" and provides the number cell (by applying neighbor-cell36.423). A DL GBR AC value of "0" traffic from the high-loaded LTE measured by the eNB internally and of events when measured related handover thresholds thatand indicates no available capacity, This counter isthe athe part of the serving cell to lower-loaded LTE is used by the eNB in the context downlink AC for DL non-GBR bearersof favor handovers to Available the neighbor a value ofmeasurements "100" indicates maximum histogram "Cell neighbor cell byinfavoring handovers cell load for load of the cell was the range 40 < DL cell). available capacity incells the cell (see Capacity (DL AC)cell for non-GBR from the serving to the neighbor balancing between (3GPP non-GBR AC <= 60. The DLTS non-GBR AC ofthe thenumber cell TS is 3GPP 36.423). bearers" and provides cell (by applying neighbor-cell36.423). A DL non-GBR AC value of Load balancing iseNB activated to shift measured by the internally and of events when the measured related handover thresholds that "0" indicates no available capacity, This counter is a part of the traffic from the high-loaded LTE of is used byAC the in the context downlink foreNB non-GBR bearers favor tolower-loaded the neighbor and ahandovers value of "100" indicates histogram "Cell DL Available serving cell to the LTE cell load measurements for load of the cell(DL was in the range 60 DL cell). maximum available capacity in
This counter is a part of the histogram "Cell DL Available Capacity (DL AC) for GBR bearers" and provides the number of events when the measured This counter is a partdownlink of the AC for GBR bearers of the cell was in histogram "Cell DL Available the range 80 < DL GBR AC <= 100. Capacity (DL AC) for non-GBR Load balancing is activated to shift bearers" and provides the number traffic from the high-loaded LTE of events when measured This counter athe part of the DL serving cell toisof the lower-loaded LTE non-GBR AC the cell was zero histogram "Cell DL Available neighbor cell by favoring handovers (DL non-GBR AC = Capacity (DL AC) for0). non-GBR from the serving cell to the neighbor Load balancing is activated to shift bearers" and provides the number cell (by applying neighbor-celltraffic from the high-loaded LTE of events when measured DL related handover thresholds This counter athe part of the that serving cell toisof the lower-loaded LTE non-GBR AC the cell was in the favor handovers to the neighbor histogram "Cell DL Available neighbor cell by favoring handovers range 0 <(DL DL AC) non-GBR AC <= 20. cell). Capacity for to non-GBR from the serving cell the neighbor Load balancing is activated to shift The DL applying GBR of thethe cellnumber is bearers" and AC provides cell (by neighbor-celltraffic from the high-loaded LTE measured by the eNB internally of events when measured DLand related handover thresholds that This counter isthe athe part of the serving cell to lower-loaded LTE is used by the eNB in the context of non-GBR AC of DL the cellneighbor was in the favor handovers to Available the histogram "Cell neighbor cell by favoring handovers cell load measurements for load range 20 (DL < DLAC) non-GBR AC <= 40. cell). Capacity for non-GBR from the serving cell to the neighbor balancing between cells (3GPP TS Load balancing is activated to The DL non-GBR AC of the cellshift is bearers" and provides the number cell (by applying neighbor-cell36.423). A DL GBR AC value of "0" traffic from the high-loaded LTE measured by the eNB internally and of events when measured related handover thresholds thatand indicates no available capacity, This counter isthe athe part of the serving cell to lower-loaded LTE is used by the eNB in the context downlink AC for DL non-GBR bearersof favor handovers to Available the neighbor a value ofmeasurements "100" indicates maximum histogram "Cell neighbor cell byinfavoring handovers cell load for load of the cell was the range 40 < DL cell). available capacity incells the cell (see Capacity (DL AC)cell for non-GBR from the serving to the neighbor balancing between (3GPP non-GBR AC <= 60. The DLTS non-GBR AC ofthe thenumber cell TS is 3GPP 36.423). bearers" and provides cell (by applying neighbor-cell36.423). A DL non-GBR AC value of Load balancing iseNB activated to shift measured by the internally and of events when the measured related handover thresholds that "0" indicates no available capacity, This counter is a part of the traffic from the high-loaded LTE of is used byAC the in the context downlink foreNB non-GBR bearers favor tolower-loaded the neighbor and ahandovers value of "100" indicates histogram "Cell DL Available serving cell to the LTE cell load measurements for load of the cell(DL was in the range 60 DL cell). maximum available capacity in
This counter provides the accumulated time of muting pattern 6 activation in the macro cell of an eICIC scenario.
This counter provides the accumulated time of muting pattern 6 activation in the macro cell of an eICIC scenario.
This counter provides the number of ABS sub-frames without user plane traffic of CRE UEs. The PRB utilization is defined as the ratio of used PRB perprovides ABS sub-frame This counter the number compared to the total of of ABS sub-frames of number CRE UEs PRBs for dynamic scheduling of with a PRB utilization range of 0 % user plane traffic the utilization same TTI.is < x <= 10 %. The in PRB Note: "CRE UEs" are UEs located defined as the ratio of the used PRB This counter provides number in the range expansion area ofto the per ABS sub-frame compared of ABScell. sub-frames of CRE UEs small the number of PRBs forof 10 % withtotal a PRB utilization range dynamic scheduling of user planeis < x <= 20 %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of ABSrange sub-frames of CRE UEs in the expansion area of the the total number of PRBs for with acell. PRB utilization range of 20 % small dynamic of user planeis < x <= 30scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of ABSrange sub-frames of CRE UEs in the expansion area of the the total number of PRBs for with acell. PRB utilization range of 30 % small dynamic of user planeis < x <= 40scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of ABSrange sub-frames of CRE UEs in the expansion area of the the total number of PRBs for with acell. PRB utilization range of 40 % small dynamic of user planeis < x <= 50scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of ABSrange sub-frames of CRE UEs in the expansion area of the the total number of PRBs for with acell. PRB utilization range of 50 % small dynamic of user planeis < x <= 60scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of ABSrange sub-frames of CRE UEs in the expansion area of the the total number of PRBs for with acell. PRB utilization range of 60 % small dynamic of user planeis < x <= 70scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of ABSrange sub-frames of CRE UEs in the expansion area of the the total number of PRBs for with acell. PRB utilization range of 70 % small dynamic of user planeis < x <= 80scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of ABSrange sub-frames of CRE UEs in the expansion area of the the total number of PRBs for with acell. PRB utilization range of 80 % small dynamic of user planeis < x <= 90scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of ABSrange sub-frames of CRE UEs in the expansion area of the the total number of PRBs for with acell. PRB utilization range of 90 % small dynamic of user plane is < x <=100scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of used PRB Note: "CRE UEs" are UEs located per ABS sub-frame compared to in the range expansion area the total number of PRBs forof the small cell.scheduling of user plane dynamic traffic in the same TTI. Note: "CRE UEs" are UEs located in the range expansion area of the small cell.
This counter provides the number of ABS sub-frames without user plane traffic of CRE UEs. The PRB utilization is defined as the ratio of used PRB perprovides ABS sub-frame This counter the number compared to the total of of ABS sub-frames of number CRE UEs PRBs for dynamic scheduling of with a PRB utilization range of 0 % user plane traffic the utilization same TTI.is < x <= 10 %. The in PRB Note: "CRE UEs" are UEs located defined as the ratio of the used PRB This counter provides number in the range expansion area ofto the per ABS sub-frame compared of ABScell. sub-frames of CRE UEs small the number of PRBs forof 10 % withtotal a PRB utilization range dynamic scheduling of user planeis < x <= 20 %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of ABSrange sub-frames of CRE UEs in the expansion area of the the total number of PRBs for with acell. PRB utilization range of 20 % small dynamic of user planeis < x <= 30scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of ABSrange sub-frames of CRE UEs in the expansion area of the the total number of PRBs for with acell. PRB utilization range of 30 % small dynamic of user planeis < x <= 40scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of ABSrange sub-frames of CRE UEs in the expansion area of the the total number of PRBs for with acell. PRB utilization range of 40 % small dynamic of user planeis < x <= 50scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of ABSrange sub-frames of CRE UEs in the expansion area of the the total number of PRBs for with acell. PRB utilization range of 50 % small dynamic of user planeis < x <= 60scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of ABSrange sub-frames of CRE UEs in the expansion area of the the total number of PRBs for with acell. PRB utilization range of 60 % small dynamic of user planeis < x <= 70scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of ABSrange sub-frames of CRE UEs in the expansion area of the the total number of PRBs for with acell. PRB utilization range of 70 % small dynamic of user planeis < x <= 80scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of ABSrange sub-frames of CRE UEs in the expansion area of the the total number of PRBs for with acell. PRB utilization range of 80 % small dynamic of user planeis < x <= 90scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of ABSrange sub-frames of CRE UEs in the expansion area of the the total number of PRBs for with acell. PRB utilization range of 90 % small dynamic of user plane is < x <=100scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of used PRB Note: "CRE UEs" are UEs located per ABS sub-frame compared to in the range expansion area the total number of PRBs forof the small cell.scheduling of user plane dynamic traffic in the same TTI. Note: "CRE UEs" are UEs located in the range expansion area of the small cell.
This counter provides the number of ABS sub-frames without user plane traffic of CRE UEs. The PRB utilization is defined as the ratio of used PRB perprovides ABS sub-frame This counter the number compared to the total of of ABS sub-frames of number CRE UEs PRBs for dynamic scheduling of with a PRB utilization range of 0 % user plane%. traffic the utilization same TTI.is < x <=10 The in PRB Note: "CRE UEs" are UEs located defined as the ratio of the used PRB This counter provides number in the range expansion area ofto the per ABS sub-frame compared of ABScell. sub-frames of CRE UEs small the number of PRBs forof 10 % withtotal a PRB utilization range dynamic scheduling of user planeis < x <=20 %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of the ABSrange sub-frames of CRE UEs in expansion area of the the total number of PRBs for with acell. PRB utilization range of 20 % small dynamic of user plane is < x <= 30scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of ABSrange sub-frames of CRE UEs in the expansion area of the the total number of PRBs for with acell. PRB utilization range of 30 % small dynamic of user plane is < x <= 40scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of the ABSrange sub-frames of CRE UEs in expansion area of the the total number of PRBs for with acell. PRB utilization range of 40 % small dynamic of user plane is < x <= 50scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of ABSrange sub-frames of CRE UEs in the expansion area of the the total number of PRBs for with acell. PRB utilization range of 50 % small dynamic of user plane is < x <= 60scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of the ABSrange sub-frames of CRE UEs in expansion area of the the total number of PRBs for with acell. PRB utilization range of 60 % small dynamic of user plane is < x <= 70scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of ABSrange sub-frames of CRE UEs in the expansion area of the the total number of PRBs for with acell. PRB utilization range of 70 % small dynamic of user plane is < x <= 80scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of the ABSrange sub-frames of CRE UEs in expansion area of the the total number of PRBs for with acell. PRB utilization range of 80 % small dynamic of user plane is < x <= 90scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of ABSrange sub-frames of CRE UEs in the expansion area of the the total number of PRBs for with acell. PRB utilization range of 90 % small dynamic scheduling of user plane is < x <=100 %. The PRB utilization traffic in the same TTI. defined as the ratio provides of used PRB This measurement the Note: "CRE UEs" are UEs located per ABS sub-frame compared to percentage usage of uplink in the range expansion area of the the total number of PRBs for Physical Blocks (PRB) small cell.Resource dynamic scheduling of user plane (partially/fully) for DTCH traffic for traffic in the same TTI. SAEB QoS level 1. The maximum Note: "CRE UEs" are UEs located counter value 1000 represents in the range expansion of the 100% and the minimumarea counter small cell. value 1 represents 0.1%.
This counter provides the number of ABS sub-frames without user plane traffic of CRE UEs. The PRB utilization is defined as the ratio of used PRB perprovides ABS sub-frame This counter the number compared to the total of of ABS sub-frames of number CRE UEs PRBs for dynamic scheduling of with a PRB utilization range of 0 % user plane%. traffic the utilization same TTI.is < x <=10 The in PRB Note: "CRE UEs" are UEs located defined as the ratio of the used PRB This counter provides number in the range expansion area ofto the per ABS sub-frame compared of ABScell. sub-frames of CRE UEs small the number of PRBs forof 10 % withtotal a PRB utilization range dynamic scheduling of user planeis < x <=20 %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of the ABSrange sub-frames of CRE UEs in expansion area of the the total number of PRBs for with acell. PRB utilization range of 20 % small dynamic of user plane is < x <= 30scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of ABSrange sub-frames of CRE UEs in the expansion area of the the total number of PRBs for with acell. PRB utilization range of 30 % small dynamic of user plane is < x <= 40scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of the ABSrange sub-frames of CRE UEs in expansion area of the the total number of PRBs for with acell. PRB utilization range of 40 % small dynamic of user plane is < x <= 50scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of ABSrange sub-frames of CRE UEs in the expansion area of the the total number of PRBs for with acell. PRB utilization range of 50 % small dynamic of user plane is < x <= 60scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of the ABSrange sub-frames of CRE UEs in expansion area of the the total number of PRBs for with acell. PRB utilization range of 60 % small dynamic of user plane is < x <= 70scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of ABSrange sub-frames of CRE UEs in the expansion area of the the total number of PRBs for with acell. PRB utilization range of 70 % small dynamic of user plane is < x <= 80scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of the ABSrange sub-frames of CRE UEs in expansion area of the the total number of PRBs for with acell. PRB utilization range of 80 % small dynamic of user plane is < x <= 90scheduling %. The PRB utilization traffic in the same TTI. defined as the ratio of the used PRB This counter provides Note: "CRE UEs" are UEsnumber located per ABS sub-frame compared to of ABSrange sub-frames of CRE UEs in the expansion area of the the total number of PRBs for with acell. PRB utilization range of 90 % small dynamic scheduling of user plane is < x <=100 %. The PRB utilization traffic in the same TTI. defined as the ratio provides of used PRB This measurement the Note: "CRE UEs" are UEs located per ABS sub-frame compared to percentage usage of uplink in the range expansion area of the the total number of PRBs for Physical Blocks (PRB) small cell.Resource dynamic scheduling of user plane (partially/fully) for DTCH traffic for traffic in the same TTI. SAEB QoS level 1. The maximum Note: "CRE UEs" are UEs located counter value 1000 represents in the range expansion of the 100% and the minimumarea counter small cell. value 1 represents 0.1%.
This measurement provides the percentage usage of uplink Physical Resource Blocks (PRB) (partially/fully) for DTCH traffic for SAEB QoS level 2. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents uplink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
This measurement provides the percentage usage of uplink Physical Resource Blocks (PRB) (partially/fully) for DTCH traffic for SAEB QoS level 2. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents uplink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
SAEB QoS level 3. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents uplink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
SAEB QoS level 3. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents uplink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
SAEB QoS level 4. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents uplink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
SAEB QoS level 4. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents uplink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
SAEB QoS level 5. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents uplink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
SAEB QoS level 5. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents uplink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
SAEB QoS level 6. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents uplink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
SAEB QoS level 6. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents uplink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
SAEB QoS level 7. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents uplink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
SAEB QoS level 7. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents uplink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
SAEB QoS level 8. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents uplink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
SAEB QoS level 8. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents uplink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
SAEB QoS level 9. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents uplink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
SAEB QoS level 9. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents uplink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
currently supported provides SAEB QoS This measurement the levels within the range of 10-255. percentage usage of uplink The maximum counter value 1000 Physical Resource Blocks (PRB) represents 100% and the minimum (partially/fully) for DCCH and CCCH counter value 1 represents data. The maximum counter0.1%. value This measurement provides the 10000 represents 100% and percentage usage of downlinkthe minimum counter value 1 (PRB) Physical Resource Blocks represents 0.01%. (partially/fully) for DTCH traffic for SAEB QoS level 1. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents downlink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
currently supported provides SAEB QoS This measurement the levels within the range of 10-255. percentage usage of uplink The maximum counter value 1000 Physical Resource Blocks (PRB) represents 100% and the minimum (partially/fully) for DCCH and CCCH counter value 1 represents data. The maximum counter0.1%. value This measurement provides the 10000 represents 100% and percentage usage of downlinkthe minimum counter value 1 (PRB) Physical Resource Blocks represents 0.01%. (partially/fully) for DTCH traffic for SAEB QoS level 1. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents downlink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
SAEB QoS level 2. The maximum counter value 1000 represents 100% and the minimum counter value 1 represents 0.1%.
SAEB QoS level 2. The maximum counter value 1000 represents 100% and the minimum counter value 1 represents 0.1%.
This measurement provides the percentage usage of downlink Physical Resource Blocks (PRB) (partially/fully) for DTCH traffic for SAEB QoS level 3. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents downlink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
This measurement provides the percentage usage of downlink Physical Resource Blocks (PRB) (partially/fully) for DTCH traffic for SAEB QoS level 3. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents downlink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
SAEB QoS level 4. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents downlink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
SAEB QoS level 4. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents downlink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
SAEB QoS level 5. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents downlink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
SAEB QoS level 5. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents downlink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
SAEB QoS level 6. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents downlink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
SAEB QoS level 6. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents downlink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
SAEB QoS level 7. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents downlink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
SAEB QoS level 7. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents downlink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
SAEB QoS level 8. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents downlink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
SAEB QoS level 8. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents downlink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
SAEB QoS level 9. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents downlink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
SAEB QoS level 9. provides The maximum This measurement the counter value 1000 percentage usage ofrepresents downlink 100% and the minimum counter Physical Resource Blocks (PRB) value 1 represents 0.1%. (partially/fully) for DTCH traffic for
currently supported provides SAEB QoS This measurement the levels within the range of 10-255. percentage usage of downlink The maximum counter value 1000 Physical Resource Blocks (PRB) represents 100% and the minimum (partially/fully) for DCCH and CCCH counter value 1 represents 0.1%. data. The maximum counter This counter indicates the value 10000 represents the occurrence that the100% cell isand in the minimum counter value 1 active load balancing state for load represents balancing to0.01%. UTRAN. When the cell is in thethe active load This counter provides balancing state, the load balancing accumulated time of muting pattern algorithm tries to reduce the 0 activation in the macro cell LTE of an serving cell load"Muting by shifting the cell eICIC scenario. pattern 0" traffic toaUTRAN neighbor cells means muting pattern with no This counter provides the number (load balancing handover). muted TTIs. of successful The maximumSCell valueconfigurations of this counterif an SCell is byofanother depends onswapped the length the one due to an period. Event A6 measurement If the measurement result received periodthat is 15is minutes from the UE. (that is 900 s), the maximum value of this counter is 900 s/1 s+F3 = 900 (every 1 second, the eNB checks whether the cell is in the active load balancing state for load balancing to UTRAN).
currently supported provides SAEB QoS This measurement the levels within the range of 10-255. percentage usage of downlink The maximum counter value 1000 Physical Resource Blocks (PRB) represents 100% and the minimum (partially/fully) for DCCH and CCCH counter value 1 represents 0.1%. data. #N/A The maximum counter value 10000 represents 100% and the minimum counter value 1 represents 0.01%. This counter provides the accumulated time of muting pattern 0 activation in the macro cell of an eICIC scenario. "Muting pattern 0" means #N/A a muting pattern with no muted TTIs.
This counter provides the blocking rate for SCell scheduling with PUCCH format 1b with channel selection (1bwcs). The rate is defined as the This blocking counter provides the blocking ratio of the number of blocked rate for SCell scheduling with PUCCH attempts to PUCCH format format 1bwcs 3. the total number of PUCCH The blocking rate is defined format as the 1bwcs attempts. ratio of the number of blocked The volume of originally transmitted PUCCH format 3on attempts to the transport blocks DL-SCH. The value is 100 times3 total reported number of PUCCH format higher than the actual value (for attempts. example, 1.00 is stored as 100). volume ofvalue re-received transport The reported is 100 times blocks on UL-SCH. higher than the actual value (for example, 1.00 is stored as 100).
#N/A
The volume of re-transmitted transport blocks on DL-SCH.
The volume of re-transmitted transport blocks on DL-SCH.
#N/A
The volume of originally transmitted transport blocks on DL-SCH.
The volume of re-received transport blocks on UL-SCH.
The volume of original receptions of The volume of original receptions of transport blocks on UL-SCH. transport blocks on UL-SCH.
The measurement gives indication of the eUu interface traffic load by reporting the sum of transmitted RLC related traffic volumes on DL DCCH. The measurement gives indication
The measurement gives indication of the eUu interface traffic load by reporting the sum of transmitted RLC related traffic volumes on DL DCCH. The measurement gives indication
of the eUu interface traffic load by reporting the sum of transmitted RLC related traffic volumes on UL DCCH. The volume of UL RLC PDUs
of the eUu interface traffic load by reporting the sum of transmitted RLC related traffic volumes on UL DCCH. The volume of UL RLC PDUs
received
received
The volume of DL RLC PDUs transmitted
The volume of DL RLC PDUs transmitted
The measurement gives an indication of the eUu interface traffic load by reporting the total received PDCP SDU-related traffic volume. The measurement gives an
The measurement gives an indication of the eUu interface traffic load by reporting the total received PDCP SDU-related traffic volume. The measurement gives an
indication of the eUu interface traffic load by reporting the total transmitted PDCP SDU-related traffic volume.
indication of the eUu interface traffic load by reporting the total transmitted PDCP SDU-related traffic volume.
The measurement gives indication of the eUu interface traffic load by reporting Max UL PDCP traffic throughput.
The measurement gives indication of the eUu interface traffic load by reporting Max UL PDCP traffic throughput.
The measurement gives indication of the eUu interface traffic load by reporting Mean UL PDCP traffic throughput.
The measurement gives indication of the eUu interface traffic load by reporting Mean UL PDCP traffic throughput.
The measurement gives indication of the eUu interface traffic load by reporting Max DL PDCP traffic throughput.
The measurement gives indication of the eUu interface traffic load by reporting Max DL PDCP traffic throughput.
The measurement gives indication of the eUu interface traffic load by reporting Mean DL PDCP traffic throughput.
The measurement gives indication of the eUu interface traffic load by reporting Mean DL PDCP traffic throughput.
The size of transport blocks scheduled on PDSCH using MCS0 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
The size of transport blocks scheduled on PDSCH using MCS0 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS1 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS1 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS2 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS2 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS3 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS3 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS4 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS4 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS5 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS5 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS6 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS6 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS7 Modulation and Coding Scheme. The volume of MAC PDUs is considered.
scheduled on PDSCH using MCS7 Modulation and Coding Scheme. The volume of MAC PDUs is considered.
The size of transport blocks scheduled on PDSCH using MCS8 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
The size of transport blocks scheduled on PDSCH using MCS8 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS9 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS9 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS10 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS10 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS11 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS11 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS12 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS12 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS13 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS13 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS14 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS14 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS15 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS15 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS16 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS16 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS17 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS17 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS18 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS18 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS19 Modulation and Coding Scheme. The volume of MAC PDUs is considered.
scheduled on PDSCH using MCS19 Modulation and Coding Scheme. The volume of MAC PDUs is considered.
The size of transport blocks scheduled on PDSCH using MCS20 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
The size of transport blocks scheduled on PDSCH using MCS20 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered.
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered.
The size of transport blocks scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
The size of transport blocks scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. MAC SDU volume on UL-CCCH.
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. MAC SDU volume on UL-CCCH.
(Note: MAC SDU and RLC SDU volume are the same in TM used for this channel.)
(Note: MAC SDU and RLC SDU volume are the same in TM used for this channel.)
MAC SDU volume on UL-DCCH
MAC SDU volume on UL-DCCH
MAC SDU volume on UL-DTCH
MAC SDU volume on UL-DTCH
MAC SDU volume on DL-CCCH. (Note: MAC SDU and RLC SDU volume are the same in TM used for this channel.)
MAC SDU volume on DL-CCCH. (Note: MAC SDU and RLC SDU volume are the same in TM used for this channel.)
MAC SDU volume on DL-DCCH
MAC SDU volume on DL-DCCH
MAC SDU volume on DL-DTCH
MAC SDU volume on DL-DTCH
RRC Signaling data volume on eUu RRC Signaling data volume on eUu Interface uplink. Interface uplink.
RRC Signaling data volume on eUu RRC Signaling data volume on eUu Interface downlink Interface downlink
Received RLC SDU traffic volume on UL-DTCH
Received RLC SDU traffic volume on UL-DTCH
Transmitted RLC SDU traffic volume on DL-DTCH
Transmitted RLC SDU traffic volume on DL-DTCH
The size of transport blocks scheduled on PDSCH using MCS21 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
The size of transport blocks scheduled on PDSCH using MCS21 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS22 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS22 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS23 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS23 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS24 Modulation and Coding Scheme. The volume of MAC PDUs is considered.
scheduled on PDSCH using MCS24 Modulation and Coding Scheme. The volume of MAC PDUs is considered.
The size of transport blocks scheduled on PDSCH using MCS25 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
The size of transport blocks scheduled on PDSCH using MCS25 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS26 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS26 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS27 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS27 Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PDSCH using MCS28 Modulation and Coding Scheme. The volume of MAC PDUs is considered. This counter provides the number
scheduled on PDSCH using MCS28 Modulation and Coding Scheme. The volume of MAC PDUs is considered. This counter provides the number
of active TTIs in UL, that is those TTIs with at least one UE scheduled to transmit user plane data. This counter provides the number
of active TTIs in UL, that is those TTIs with at least one UE scheduled to transmit user plane data. This counter provides the number
of active TTIs in DL, that is those TTIs with at least one UE scheduled to receive user plane data. This measurement provides IP
of active TTIs in DL, that is those TTIs with at least one UE scheduled to receive user plane data. This measurement provides IP
throughput volume on QCI 1 throughput volume on QCI 1 bearers in uplink as experienced by bearers in uplink as experienced by the UE. the UE. This measurement provides IP throughput time on QCI 1 bearers in uplink.
This measurement provides IP throughput time on QCI 1 bearers in uplink.
This measurement provides IP throughput volume on QCI 2 bearers in uplink as experienced by the UE.
This measurement provides IP throughput volume on QCI 2 bearers in uplink as experienced by the UE.
This measurement provides IP throughput time on QCI 2 bearers in uplink.
This measurement provides IP throughput time on QCI 2 bearers in uplink.
This measurement provides IP throughput volume on QCI 3 bearers in uplink as experienced by the UE.
This measurement provides IP throughput volume on QCI 3 bearers in uplink as experienced by the UE.
This measurement provides IP throughput time on QCI 3 bearers in uplink.
This measurement provides IP throughput time on QCI 3 bearers in uplink.
This measurement provides IP throughput volume on QCI 4 bearers in uplink as experienced by the UE.
This measurement provides IP throughput volume on QCI 4 bearers in uplink as experienced by the UE.
This measurement provides IP throughput time on QCI 4 bearers in uplink.
This measurement provides IP throughput time on QCI 4 bearers in uplink.
This measurement provides IP throughput volume on QCI 5 bearers in uplink as experienced by the UE.
This measurement provides IP throughput volume on QCI 5 bearers in uplink as experienced by the UE.
This measurement provides IP throughput time on QCI 5 bearers in uplink.
This measurement provides IP throughput time on QCI 5 bearers in uplink.
This measurement provides IP throughput volume on QCI 6 bearers in uplink as experienced by the UE.
This measurement provides IP throughput volume on QCI 6 bearers in uplink as experienced by the UE.
This measurement provides IP throughput time on QCI 6 bearers in uplink.
This measurement provides IP throughput time on QCI 6 bearers in uplink.
This measurement provides IP throughput volume on QCI 7 bearers in uplink as experienced by the UE.
This measurement provides IP throughput volume on QCI 7 bearers in uplink as experienced by the UE.
This measurement provides IP throughput time on QCI 7 bearers in uplink.
This measurement provides IP throughput time on QCI 7 bearers in uplink.
This measurement provides IP throughput volume on QCI 8 bearers in uplink as experienced by the UE.
This measurement provides IP throughput volume on QCI 8 bearers in uplink as experienced by the UE.
This measurement provides IP throughput time on QCI 8 bearers in uplink.
This measurement provides IP throughput time on QCI 8 bearers in uplink.
This measurement provides IP throughput volume on QCI 9 bearers in uplink as experienced by the UE.
This measurement provides IP throughput volume on QCI 9 bearers in uplink as experienced by the UE.
This measurement provides IP throughput time on QCI 9 bearers in uplink.
This measurement provides IP throughput time on QCI 9 bearers in uplink.
Mean PDCP Data Throughput on eUu Interface uplink for QCI 1
Mean PDCP Data Throughput on eUu Interface uplink for QCI 1
This measurement provides IP throughput volume on QCI 1 bearers in downlink as experienced by the UE.
This measurement provides IP throughput volume on QCI 1 bearers in downlink as experienced by the UE.
This measurement provides IP throughput time on QCI 1 bearers in downlink.
This measurement provides IP throughput time on QCI 1 bearers in downlink.
This measurement provides IP throughput volume on QCI 2 bearers in downlink as experienced by the UE.
This measurement provides IP throughput volume on QCI 2 bearers in downlink as experienced by the UE.
This measurement provides IP throughput time on QCI 2 bearers in downlink.
This measurement provides IP throughput time on QCI 2 bearers in downlink.
This measurement provides IP throughput volume on QCI 3 bearers in downlink as experienced by the UE.
This measurement provides IP throughput volume on QCI 3 bearers in downlink as experienced by the UE.
This measurement provides IP throughput time on QCI 3 bearers in downlink.
This measurement provides IP throughput time on QCI 3 bearers in downlink.
This measurement provides IP throughput volume on QCI 4 bearers in downlink as experienced by the UE.
This measurement provides IP throughput volume on QCI 4 bearers in downlink as experienced by the UE.
This measurement provides IP throughput time on QCI 4 bearers in downlink.
This measurement provides IP throughput time on QCI 4 bearers in downlink.
This measurement provides IP throughput volume on QCI 5 bearers in downlink as experienced by the UE.
This measurement provides IP throughput volume on QCI 5 bearers in downlink as experienced by the UE.
This measurement provides IP throughput time on QCI 5 bearers in downlink.
This measurement provides IP throughput time on QCI 5 bearers in downlink.
This measurement provides IP throughput volume on QCI 6 bearers in downlink as experienced by the UE.
This measurement provides IP throughput volume on QCI 6 bearers in downlink as experienced by the UE.
This measurement provides IP throughput time on QCI 6 bearers in downlink.
This measurement provides IP throughput time on QCI 6 bearers in downlink.
This measurement provides IP throughput volume on QCI 7 bearers in downlink as experienced by the UE.
This measurement provides IP throughput volume on QCI 7 bearers in downlink as experienced by the UE.
This measurement provides IP throughput time on QCI 7 bearers in downlink.
This measurement provides IP throughput time on QCI 7 bearers in downlink.
This measurement provides IP throughput volume on QCI 8 bearers in downlink as experienced by the UE.
This measurement provides IP throughput volume on QCI 8 bearers in downlink as experienced by the UE.
This measurement provides IP throughput time on QCI 8 bearers in downlink.
This measurement provides IP throughput time on QCI 8 bearers in downlink.
This measurement provides IP throughput volume on QCI 9 bearers in downlink as experienced by the UE.
This measurement provides IP throughput volume on QCI 9 bearers in downlink as experienced by the UE.
This measurement provides IP throughput time on QCI 9 bearers in downlink.
This measurement provides IP throughput time on QCI 9 bearers in downlink.
Mean PDCP Data Throughput on eUu Interface downlink for QCI 1
Mean PDCP Data Throughput on eUu Interface downlink for QCI 1
The size of transport blocks scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
The size of transport blocks scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered. The size of transport blocks
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered.
scheduled on PUSCH per Modulation and Coding Scheme. The volume of MAC PDUs is considered.
This counter provides the DL volume (in this cell with PCell role) that is transmitted via SCell's PHY.
This counter provides the DL volume (in this cell with PCell role) that is transmitted via SCell's PHY.
This measurement provides the IP throughput time on QCI 1 bearers in uplink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
This measurement provides the IP throughput time on QCI 1 bearers in uplink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 2 bearers in uplink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 2 bearers in uplink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 3 bearers in uplink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 3 bearers in uplink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 4 bearers in uplink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 4 bearers in uplink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 5 bearers in uplink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 5 bearers in uplink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 6 bearers in uplink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 6 bearers in uplink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 7 bearers in uplink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 7 bearers in uplink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 8 bearers in uplink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 8 bearers in uplink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 9 bearers in uplink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 9 bearers in uplink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 1 bearers in downlink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 1 bearers in downlink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 2 bearers in downlink. It excludes TTIs in that there was data in the buffer but the UE was not scheduled.
throughput time on QCI 2 bearers in downlink. It excludes TTIs in that there was data in the buffer but the UE was not scheduled.
This measurement provides the IP throughput time on QCI 3 bearers in downlink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
This measurement provides the IP throughput time on QCI 3 bearers in downlink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 4 bearers in downlink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 4 bearers in downlink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 5 bearers in downlink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 5 bearers in downlink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 6 bearers in downlink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 6 bearers in downlink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 7 bearers in downlink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 7 bearers in downlink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 8 bearers in downlink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 8 bearers in downlink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the IP
throughput time on QCI 9 bearers in downlink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the
throughput time on QCI 9 bearers in downlink. It excludes TTIs in that there was data in the buffer but the UE not scheduled. Thiswas measurement provides the
number of successful RRC Connection Setups.
number of successful RRC Connection Setups.
The number of Signaling Connection Establishment failures due to a missing RRC CONNECTION SETUP COMPLETE message. The UE has The number of Signaling not reached the ECMConnection Establishment failures CONNECTED state. or incomplete due to the Erroneous
The number of Signaling Connection Establishment failures due to a missing RRC CONNECTION SETUP COMPLETE message. The UE has The number of Signaling not reached the ECMConnection Establishment failures CONNECTED state. or incomplete due to the Erroneous
RRC CONNECTION SETUP COMPLETE message. The UE has The number of EPC-initiated not reached the ECMtransitions to the ECM-IDLE state CONNECTED state. due to a Normal release by the UE .
RRC CONNECTION SETUP COMPLETE message. The UE has The number of EPC-initiated not reached the ECMtransitions to the ECM-IDLE state CONNECTED state. due to a Normal release by the UE .
The number of EPC-initiated transitions to the ECM-IDLE state due to the Detach procedure by the UE or the MME .
The number of EPC-initiated transitions to the ECM-IDLE state due to the Detach procedure by the UE or the MME .
The number of EPC initiated transitions to ECM-IDLE state due to Radio Network Layer cause. The UE-associated logical S1connection The numberisofreleased. EPC-initiated
The number of EPC initiated transitions to ECM-IDLE state due to Radio Network Layer cause. The UE-associated logical S1connection The numberisofreleased. EPC-initiated
transitions to the ECM-IDLE state due to Other causes.
transitions to the ECM-IDLE state due to Other causes.
The number of eNB-initiated transitions from the ECMCONNECTED to ECM-IDLE state due to "User Inactivity" or "Redirect". UE-associated The numberThe of eNB initiated logical S1-connection is released. transitions from the ECM-
The number of eNB-initiated transitions from the ECMCONNECTED to ECM-IDLE state due to "User Inactivity" or "Redirect". UE-associated The numberThe of eNB initiated logical S1-connection is released. transitions from the ECM-
CONNECTED to ECM-IDLE state when the Radio Connection to the UE lost. The Theisnumber of UE-associated eNB-initiated logical S1-connection is released. transitions from the ECM-
CONNECTED to ECM-IDLE state when the Radio Connection to the UE lost. The Theisnumber of UE-associated eNB-initiated logical S1-connection is released. transitions from the ECM-
CONNECTED to ECM-IDLE state due to Other causes than "User Inactivity", "Redirect" or "Radio The number of Signaling Connection Lost". Connection Establishment attempts
CONNECTED to ECM-IDLE state due to Other causes than "User Inactivity", "Redirect" or "Radio The number of Signaling Connection Lost". Connection Establishment attempts
for mobile originated signaling. From UE's point of view, the transition from The number of ECM-IDLE Signaling to ECMCONNECTED has started. attempts Connection Establishment
for mobile originated signaling. From UE's point of view, the transition from The number of ECM-IDLE Signaling to ECMCONNECTED has started. attempts Connection Establishment
for mobile terminated connections. From UE's point of view, the transition from The number of ECM-IDLE Signaling to ECMCONNECTED is started. attempts Connection Establishment
for mobile terminated connections. From UE's point of view, the transition from The number of ECM-IDLE Signaling to ECMCONNECTED is started. attempts Connection Establishment
for mobile originated data connections. From UE's point of view, theof transition from ECM-IDLE Number Signaling Connection to ECM-CONNECTED is started. Establishment attempts for
for mobile originated data connections. From UE's point of view, theof transition from ECM-IDLE Number Signaling Connection to ECM-CONNECTED is started. Establishment attempts for
emergency calls.
emergency calls.
The number of subframes, when UE is DRX Active.
The number of subframes, when UE is DRX Active.
The number of subframes, when UE is DRX Sleep (that is not DRX Active).
The number of subframes, when UE is DRX Sleep (that is not DRX Active).
The number of Signaling Connection Establishment completions for emergency calls
The number of Signaling Connection Establishment completions for emergency calls
The number of Signaling Connection Establishment failures for emergency calls due to missing RB (Radio Bearer) resources
The number of Signaling Connection Establishment failures for emergency calls due to missing RB (Radio Bearer) resources
This measurement provides the number of UE contexts being released due to lack of radio resources.
This measurement provides the number of UE contexts being released due to lack of radio resources.
This measurement provides the total number of rejected RRC Connection Establishment Requests for any establishment cause except for "emergency" This measurement provides the irrespective rejection reason, total numberofofthe rejected RRC which might be for example, Connection Establishment lack of radio resources, overload orcause any Requests for establishment other reason. "emergency" irrespective The number of Signaling of the rejection reason, which might be for Connection Establishment attempts example, lack of radio resources, for highPriorityAccess connections. overload any of other reason. From UE'sorpoint view, the transition from ECM-IDLE The number of Signaling to ECMCONNECTED is started. Connection Establishment
This measurement provides the total number of rejected RRC Connection Establishment Requests for any establishment cause except for "emergency" This measurement provides the irrespective rejection reason, total numberofofthe rejected RRC which might be for example, Connection Establishment lack of radio resources, overload orcause any Requests for establishment other reason. "emergency" irrespective The number of Signaling of the rejection reason, which might be for Connection Establishment attempts example, lack of radio resources, for highPriorityAccess connections. overload any of other reason. From UE'sorpoint view, the transition from ECM-IDLE The number of Signaling to ECMCONNECTED is started. Connection Establishment
completions for highPriorityAccess calls.
completions for highPriorityAccess calls.
This measurement provides the total number of rejected Signaling Connection Establishment Requests for establishment cause "highPriorityAccess" irrespective of The number of Signaling the rejection reason, whichattempts might Connection Establishment be for example, lack of radio for delayTolerantAccess resources, overload or any other connections. reason. From UE's point of view, the The number of Signaling transition from ECM-IDLE Connection Establishment to ECMCONNECTED started. completions forismobile originating signaling.
This measurement provides the total number of rejected Signaling Connection Establishment Requests for establishment cause "highPriorityAccess" irrespective of The number of Signaling the rejection reason, whichattempts might Connection Establishment be for example, lack of radio for delayTolerantAccess resources, overload or any other connections. reason. From UE's point of view, the The number of Signaling transition from ECM-IDLE Connection Establishment to ECMCONNECTED started. completions forismobile originating signaling.
The number of Signaling Connection Establishment completions for mobile originating calls.
The number of Signaling Connection Establishment completions for mobile originating calls.
The number of Signaling Connection Establishment completions for mobile terminating access.
The number of Signaling Connection Establishment completions for mobile terminating access.
The number of Signaling Connection Establishment completions for delay tolerant access.
The number of Signaling Connection Establishment completions for delay tolerant access.
This measurement provides the total number of rejected Signaling Connection Establishment Requests for establishment cause "mo-Signalling" irrespective This measurement provides of thethe rejection reason, which might be for total number of rejected Signaling example, lack of radio resources, Connection Establishment overload, other reason. Requests or forany establishment cause
This measurement provides the total number of rejected Signaling Connection Establishment Requests for establishment cause "mo-Signalling" irrespective This measurement provides of thethe rejection reason, which might be for total number of rejected Signaling example, lack of radio resources, Connection Establishment overload, other reason. Requests or forany establishment cause
"mo-Data" irrespective of thethe This measurement provides rejection reason, which be for total number of rejectedmight Signaling example, lack of radio resources, Connection Establishment overload, other reason. Requests or forany establishment cause
"mo-Data" irrespective of thethe This measurement provides rejection reason, which be for total number of rejectedmight Signaling example, lack of radio resources, Connection Establishment overload, other reason. Requests or forany establishment cause
"mt-Access" irrespective of the This measurement provides the rejection reason, which might be for total number of rejected Signaling example, lack of radio resources, Connection Establishment overload, other reason. Requests or forany establishment cause
"mt-Access" irrespective of the This measurement provides the rejection reason, which might be for total number of rejected Signaling example, lack of radio resources, Connection Establishment overload, other reason. Requests or forany establishment cause
"delayTolerantAccess" irrespective This measurement provides the of the rejection reason, which S1 might number of UE-specific logical be for example, lack of radio Signaling Connection resources, overload, or any other Establishment attempts being used reason. for subsequent UE-specific S1 This measurement provides the signaling. number of UE-specific logical S1 Signaling Connection Establishment completions being used for subsequentprovides UE-specific This measurement the S1 signaling. number of UE Context Setup
"delayTolerantAccess" irrespective This measurement provides the of the rejection reason, which S1 might number of UE-specific logical be for example, lack of radio Signaling Connection resources, overload, or any other Establishment attempts being used reason. for subsequent UE-specific S1 This measurement provides the signaling. number of UE-specific logical S1 Signaling Connection Establishment completions being used for subsequentprovides UE-specific This measurement the S1 signaling. number of UE Context Setup
attempts. It includes also the UE Contexts that are subject to CS Fallback. This measurement provides the
attempts. It includes also the UE Contexts that are subject to CS Fallback. This measurement provides the
number of UE Context Setup attempts. Only the UE Contexts that are subject to CS Fallback are counted. This measurement provides the
number of UE Context Setup attempts. Only the UE Contexts that are subject to CS Fallback are counted. This measurement provides the
number of successfully established UE Contexts. It includes also the UE Contexts that are subject to CS Fallback. This measurement provides the
number of successfully established UE Contexts. It includes also the UE Contexts that are subject to CS Fallback. This measurement provides the
number of successfully established UE Contexts. Only those UE Contexts that are subject to CS Fallback are counted. This measurement provides the
number of successfully established UE Contexts. Only those UE Contexts that are subject to CS Fallback are counted. This measurement provides the
number of failed UE Context Setups caused by a failed radio interface procedure, which is, for example the timeoutprovides of the UE This measurement the Capability Enquiry or RRC number of attempted of UEthe Context Connection Reconfiguration Modifications. It includes also the procedure and also case that the UE Contexts that areinsubject to CS start of the AS security at the UE Fallback. has not been successful.
number of failed UE Context Setups caused by a failed radio interface procedure, which is, for example the timeoutprovides of the UE This measurement the Capability Enquiry or RRC number of attempted of UEthe Context Connection Reconfiguration Modifications. It includes also the procedure and also case that the UE Contexts that areinsubject to CS start of the AS security at the UE Fallback. has not been successful.
This measurement provides the number of attempted UE Context Modifications. Only those UE Contexts that are subject to CS Fallback are counted. This measurement provides the
This measurement provides the number of attempted UE Context Modifications. Only those UE Contexts that are subject to CS Fallback are counted. This measurement provides the
number of successful UE Context Modifications. It includes also the UE Contexts that are subject to CS Fallback. This measurement provides the
number of successful UE Context Modifications. It includes also the UE Contexts that are subject to CS Fallback. This measurement provides the
number of successful UE Context Modifications. Only those UE Contexts that are subject to CS Fallback are counted. This counter provides the number
number of successful UE Context Modifications. Only those UE Contexts that are subject to CS Fallback are counted. This counter provides the number
of released UE contexts initiated by the eNB irrespective of the release cause.
of released UE contexts initiated by the eNB irrespective of the release cause.
This counter provides the number of released UE contexts initiated by the eNB due to User Inactivity (normal release).
This counter provides the number of released UE contexts initiated by the eNB due to User Inactivity (normal release).
This counter provides the number of released UE contexts initiated by the eNB in case that the radio connection between the eNB and the is lost.provides the number ThisUE counter
This counter provides the number of released UE contexts initiated by the eNB in case that the radio connection between the eNB and the is lost.provides the number ThisUE counter
of released UE contexts initiated by of released UE contexts initiated by the eNB due to a failure in the radio the eNB due to a failure in the radio interface procedure. interface procedure. This counter provides the number of released UE contexts initiated by the eNB due to E-UTRAN generated reasons.
This counter provides the number of released UE contexts initiated by the eNB due to E-UTRAN generated reasons.
This counter provides the number of released UE contexts initiated by the eNB due to missing radio resources.
This counter provides the number of released UE contexts initiated by the eNB due to missing radio resources.
This counter provides the number of released UE contexts initiated by the eNB with the release cause "RNL Unspecified". It is used e.g. in case of AS Security problems or in This counter provides the number case of abnormal handover of released UE contexts initiated conditions. by the eNB due to a failed
This counter provides the number of released UE contexts initiated by the eNB with the release cause "RNL Unspecified". It is used e.g. in case of AS Security problems or in This counter provides the number case of abnormal handover of released UE contexts initiated conditions. by the eNB due to a failed
handover execution/completion phase. This measurement provides the
handover execution/completion phase. #N/A
number of successfully established UE Contexts. It includes also the UE Contexts that are subject to CS Fallback. This counter is only updated for 3GPP Release 11 (or higher) UEs. This counter is used by the LTEUTRAN-MRO (Mobility Robustness Optimization) algorithm (LTE1749). The LTE1749: MRO Inter-RAT UTRAN feature works with UEs, which are compliant to 3GPP Release 11 or higher and with UEs
This measurement provides the total number of Signaling Connection Establishment Requests rejected due to Control Plane overload. This measurement provides the
#N/A
#N/A
total number of Signaling Connection Establishment Requests rejected due to User Plane overload. This measurement provides the
#N/A
total number of Signaling Connection Establishment Requests rejected due to lack of PUCCH resources. provides the This measurement
#N/A
total number of Signaling Connection Establishment Requests rejected in case that the maximum number of RRC the This measurement provides Connected UEs is reached. total number of Signaling
#N/A
Connection Establishment Requests rejected due to overload indicated by the MME. X2-based The number of Inter-eNB X2-based The number of Inter-eNB Handover preparations. The Handover preparations. The Mobility management (MM) Mobility management (MM) receives a list with target cells from receives a list with target cells from the andofdecides to start anX2- the andofdecides to start anX2TheRRM number failed Inter-eNB TheRRM number failed Inter-eNB Inter-eNB X2-based Handover. Inter-eNB X2-based Handover. based Handover preparations due based Handover preparations due to timer TX2RELOCprep.
to timer TX2RELOCprep.
The number of failed Inter-eNB X2based Handover preparations due to the target eNB's admission control reasons.
The number of failed Inter-eNB X2based Handover preparations due to the target eNB's admission control reasons.
The number of failed Inter-eNB X2- The number of failed Inter-eNB X2based Handover preparations due based Handover preparations due to the target eNB's other reasons. to the target eNB's other reasons. The number of Inter-eNB X2-based The number of Inter-eNB X2-based Handover attempts. Handover attempts.
The number of successful IntereNB X2-based Handover completions.
The number of successful IntereNB X2-based Handover completions.
Number of Inter eNB Handover failures due to expiration of guarding timer TX2RELOCoverall
Number of Inter eNB Handover failures due to expiration of guarding timer TX2RELOCoverall
The number of Inter eNB S1-based The number of Inter eNB S1-based Handover preparations Handover preparations
The number of failed Inter eNB S1based Handover preparations due to the expiry of the guarding timer TS1RELOCprep.
The number of failed Inter eNB S1based Handover preparations due to the expiry of the guarding timer TS1RELOCprep.
The number of failed Inter eNB S1based Handover preparations with cause "No Radio Resources Available in Target Cell".
The number of failed Inter eNB S1based Handover preparations with cause "No Radio Resources Available in Target Cell".
The number of failed Inter eNB S1based Handover preparations due to the reception of an S1AP: HANDOVER PREPARATION FAILURE message cause The number of Interwith eNBaS1-based other than "No Radio Resources Handover attempts Available in Target Cell."
The number of failed Inter eNB S1based Handover preparations due to the reception of an S1AP: HANDOVER PREPARATION FAILURE message cause The number of Interwith eNBaS1-based other than "No Radio Resources Handover attempts Available in Target Cell."
The number of successful Inter eNB S1-based Handover completions
The number of successful Inter eNB S1-based Handover completions
The number of Inter eNB S1-based The number of Inter eNB S1-based Handover failures Handover failures
This measurement indicates how #N/A often dynamic handover blacklisting was applied in the source cell. The number of failed Intra-eNB Handover preparations per neighbor cell relationship.
The number of failed Intra-eNB Handover preparations per neighbor cell relationship.
The number of Intra-eNB Handover The number of Intra-eNB Handover attempts per neighbor cell attempts per neighbor cell relationship. relationship. The number of successful IntraeNB Handover completions per neighbor cell relationship.
The number of successful IntraeNB Handover completions per neighbor cell relationship.
The number of failed Inter eNB Handover preparations per cause per neighbor cell relationship. Note: Parts of the Handover preparation will be executed in the target eNB.
The number of failed Inter eNB Handover preparations per cause per neighbor cell relationship. Note: Parts of the Handover preparation will be executed in the target eNB.
The number of failed Inter eNB Handover preparations per neighbor cell relationship due to the expiration of the respective guarding timer. Note: Inter PartseNB of the The number of failed Handover preparation will be Handover preparations per executed in the target eNB. neighbor cell relationship due to
The number of failed Inter eNB Handover preparations per neighbor cell relationship due to the expiration of the respective guarding timer. Note: Inter PartseNB of the The number of failed Handover preparation will be Handover preparations per executed in the target eNB. neighbor cell relationship due to
failures in the HO preparation on the side, for example caused Thetarget number of Inter-eNB Handover by "No Radio Resource Available in attempts per neighbor cell Target cell". Note: Parts of the relationship. Handover preparation will be executed in the target eNB. The number of successful IntereNB Handover completions per neighbor cell relationship.
failures in the HO preparation on the side, for example caused Thetarget number of Inter-eNB Handover by "No Radio Resource Available in attempts per neighbor cell Target cell". Note: Parts of the relationship. Handover preparation will be executed in the target eNB. The number of successful IntereNB Handover completions per neighbor cell relationship.
The number of Inter-eNB Handover The number of Inter-eNB Handover failures per cause per neighbor cell failures per cause per neighbor cell relationship. relationship. The number of Intra-eNB Handover failures due to the expiration of the guarding timer THOoverall. The counter is updated in the source cell per neighbor This counter provides thecell number relationship. of Late Handovers per neighbor cell
The number of Intra-eNB Handover failures due to the expiration of the guarding timer THOoverall. The counter is updated in the source cell per neighbor This counter provides thecell number relationship. of Late Handovers per neighbor cell
relationship. A Late Handover is a sequence of a missed HO attempt (instead of HO: This counter provides the number RLF on UE side and optionally of Early Handover Type 1 per recoverable on eNB side) in neighbor cellRLF relationship. one cell followed byType RRC1 is a An Early Handover connection re-establishment sequence of a failed HO attempt This counter provides request inbyanother cell.the number followed RRC connection reof Early Handovers Type 2 per establishment in the HO source neighbor cell relationship. cell. An Early Handover Type 2 is recognized in the following This measurement providescases: the Case 1: number of Ping Pong handovers An Handover Type 2 is a per Early neighbor cell relationship. sequence of a successful connection HO A Ping Pongestablishment handover is ain the This measurement provides target cell (attempted HO sequence handovers whereby number of of inter-frequency load a completed) followed by RRC UE is handed over from an LTE cell balancing handover attempts connection re-establishment inper A to an LTE neighbor cell B and neighbor cellarelationship. another cell short time after "HO finally returns to the same cell A It comprises the intraand intercompletion". This measurement provides the within a short time period (defined eNB handover scenarios. Case 2:parameter number of successful interby thebalancing tPingPong). Load handovers are An Early Handover Type 2handover is a used frequency load balancing to shift the cell traffic from a high sequence of per a successful random completions neighbor cell This measurement consists of loaded serving cell to neighbor access in HO target followed by relationship. neighbor cell related handover cells. failed Msg3 reception (attempted It comprises the intraand intercounters; that is, for each handover HO not completed) followed by reeNB handover scenarios. neighbor cell relationship between This measurement consists of establishment request in another Load handovers cell A balancing and its neighbor cellsare (forused neighbor handover cell. to shift thecell-related cellB), traffic from a high example, cell a separate Ping counters; that is, fortoeach neighbor loaded serving cell neighbor Pong handover counter is provided. cell cells.relationship between the handover source cell and its Remark: handover target cells, a separate This consists of If themeasurement first handover event between counter is provided. neighbor cell A andcell-related a neighbor handover cell B leads to
relationship. A Late Handover is a sequence of a missed HO attempt (instead of HO: This counter provides the number RLF on UE side and optionally of Early Handover Type 1 per recoverable on eNB side) in neighbor cellRLF relationship. one cell followed byType RRC1 is a An Early Handover connection re-establishment sequence of a failed HO attempt This counter provides request inbyanother cell.the number followed RRC connection reof Early Handovers Type 2 per establishment in the HO source neighbor cell relationship. cell. An Early Handover Type 2 is recognized in the following This measurement providescases: the Case 1: number of Ping Pong handovers An Handover Type 2 is a per Early neighbor cell relationship. sequence of a successful connection A Ping Pongestablishment handover is ain HO #N/A target cell (attempted HOwhereby a sequence of handovers completed) followed by UE is handed over fromRRC an LTE cell connection in A to an LTEre-establishment neighbor cell B and another cell a short time after finally returns to the same cell"HO A completion". #N/A within a short time period (defined Case by the2:parameter tPingPong). An Early Handover Type 2 is a sequence of a successful random This measurement consists of access in HO target followed neighbor cell related handoverby failed Msg3 reception (attempted counters; that is, for each handover HO not completed) followed by reneighbor cell relationship between establishment request in another cell A and its neighbor cells (for cell. example, cell B), a separate Ping Pong handover counter is provided. Remark: If the first handover event between cell A and a neighbor cell B leads to
The number of CS Fallback The number of CS Fallback attempts with or without redirection attempts with or without redirection via the RRC Connection Release. via the RRC Connection Release. The number of CS Fallback attempts (UE in Connected Mode) with or without redirection via the RRC Connection Release.
The number of CS Fallback attempts (UE in Connected Mode) with or without redirection via the RRC Connection Release.
The number of CS Fallback attempts for emergency call reason with or without redirection via the RRC Connection Release.
The number of CS Fallback attempts for emergency call reason with or without redirection via the RRC Connection Release.
Number of Inter System Handover preparations.
Number of Inter System Handover preparations.
Number of failed Inter System Handover preparations due to expiration of guarding timer.
Number of failed Inter System Handover preparations due to expiration of guarding timer.
Number of failed Inter System Handover preparations due to admission control of target cell.
Number of failed Inter System Handover preparations due to admission control of target cell.
Number of failed Inter System Number of failed Inter System Handover preparations due to other Handover preparations due to other reasons of target cell. reasons of target cell. Number of Inter System Handover attempts.
Number of PS-HO attempts to UTRAN.
Number of successful Inter System Number of successful PS-HO Handover completions. completions to UTRAN.
Number of failed Inter System Handover attempts.
Number of failed PS-HO attempts to UTRAN.
This measurement provides the This measurement provides the number of NACC from LTE to GSM number of NACC from LTE to GSM attempts attempts This measurement provides the number of Inter System Handover attempts to UTRAN with SRVCC (Single Radio Voice Call Continuity, 3GPP TS 23.216).
This measurement provides the number of Inter System Handover attempts to UTRAN with SRVCC (Single Radio Voice Call Continuity, 3GPP TS 23.216).
This measurement provides the number of successful Inter System Handover completions to UTRAN with SRVCC (Single Radio Voice Call 3GPP TS 23.216). This Continuity, measurement provides the
This measurement provides the number of successful Inter System Handover completions to UTRAN with SRVCC (Single Radio Voice Call 3GPP TS 23.216). This Continuity, measurement provides the
number of failed Inter System Handover attempts to UTRAN with SRVCC (Single Radio Voice Call Continuity, 3GPP TS 23.216).the This measurement provides
number of failed Inter System Handover attempts to UTRAN with SRVCC (Single Radio Voice Call Continuity, 3GPP TS 23.216).the This measurement provides
number of CS Fallback attempts to UTRAN with PS Handover (Circuit Switched Fallback in Evolved Packet System, 3GPP TS 23.272). This measurement provides the
number of CS Fallback attempts to UTRAN with PS Handover (Circuit Switched Fallback in Evolved Packet System, 3GPP TS 23.272). This measurement provides the
number of Inter System Handover attempts to GERAN with SRVCC (Single Radio Voice Call Continuity, 3GPP TS 23.216). provides the This measurement
number of Inter System Handover attempts to GERAN with SRVCC (Single Radio Voice Call Continuity, 3GPP TS 23.216). provides the This measurement
number of successful Inter System Handover completions to GERAN with SRVCC (Single Radio Voice Call 3GPP TS 23.216). This Continuity, measurement provides the
number of successful Inter System Handover completions to GERAN with SRVCC (Single Radio Voice Call 3GPP TS 23.216). This Continuity, measurement provides the
number of failed Inter System Handover attempts to GERAN with SRVCC (Single Radio Voice Call Continuity, 3GPP TS 23.216).the This measurement provides
number of failed Inter System Handover attempts to GERAN with SRVCC (Single Radio Voice Call Continuity, 3GPP TS 23.216). #N/A
number of inter-system handover preparations to 1xRTT/CDMA2000 with Single Radio Voice Call Continuity (SRVCC,provides 3GPP TS This measurement the 23.216). number of failed inter-system The counter is updated to in the handover preparations source cell (LTE cell) of inter1xRTT/CDMA2000 with the Single system handover. Radio Voice Call Continuity This measurement provides the (SRVCC, 23.216) due to number of3GPP failed TS inter-system the expiration of the guarding timer handover preparations to 1xRTT TUlHoPrepTransfer1xSrvcc. with Single Radio Voice Call The counter is updated in the Continuity (SRVCC, 3GPP TS This measurement provides the source cell (LTE cell) of the inter23.216) due to the expiration number handover. of failed inter-system of the system guarding timer handover to 1xRTT The timer preparations is started when the eNB TC2KRelocPrep1xSrvcc. with Single Radio Voice Call sends an The counter is updated in the Continuity (SRVCC, 3GPP TS RRC:HandoverFromEUTRAPrepar This measurement provides the source cell (LTE cell) of the inter23.216) due to the reception of TS an ationRequest messageinter-system (3GPP number of successful system handover. S1AP:DOWNLINK S1 CDMA2000 36.331) to the UE if this message handover to 1xRTT The timer preparations is started when the eNBis TUNNELING (3GPP TS 36.413) sent to prepare an inter-system with Single Radio Voice Call sends an by S1AP:UPLINK S1the message the eNBwith from handover to 1xRTT SRVCC. Continuity (SRVCC, 3GPP TS CDMA2000 TUNNELING message This measurement provides the MME, which indicates a the failed HO The timer expires when eNB 23.216). (3GPP TS 36.413) to the MME if number of inter-system handover preparation to 1xRTT with SRVCC. has not received the corresponding The counter is updated in the this message is sent to prepare an attempts to 1xRTT with Single The counter is updated in the response source cell (LTE cell) of the interinter-system handover to 1xRTT Radio Voice Call cell) Continuity source cell (LTE of the interRRC:ULHandoverPreparationTrans system handover. with SRVCC (CDMA2000 HO (SRVCC, 3GPP TS 23.216). system handover. fer message (3GPP TS 36.331) Required Indication is set to The counter is updated in theTRUE). from the UE on time. The timer expires when the eNB source cell (LTE cell) of the interhas not received the corresponding system handover. response S1AP:DOWNLINK S1 CDMA2000 TUNNELING message (3GPP TS 36.413) from the MME on time.
#N/A
#N/A
#N/A
#N/A
#N/A
This measurement provides the number of eNB initiated UE context releases due to inter-system handover to 1xRTT with Single Radio Voice Call Continuity This measurement provides the (SRVCC, TS 23.216). number of3GPP load balancing handover The eNB to initiates the UE context attempts UTRAN. release after thehandovers expiration from of the Load balancing handover execution timer LTE to UTRAN are provides used to shift This measurement the the TC2KRelocExec1xSrvcc. cell traffic from a high loaded LTE number of successful The counter isUTRAN updatedload in the serving cell to neighbor balancing source cellhandover (LTE cell)completions of the inter-to cells. UTRAN. system handover. The counter is updated in the LTE Load balancing handovers from The is started when the eNB This timer measurement provides the cell. LTE to an UTRAN sends number of RRC:are used to shift the cell traffic from a high loaded LTE RRC:MobilityFromEUTRAComman CSFBParametersRequestCDMA20 serving cell to 36.331) UTRAN neighbor d message the UE (3GPP TS 00 (3GPP TS messages cells. 36.331) if this message is eNB sent for which are received by the from This measurement provides The counter is updated in to thethe LTE an inter-system handover 1xRTT the UEs. number of RRC: cell. with SRVCC. The counter is updated in the LTE CSFBParametersResponseCDMA2 After the expiration of the timer, the cell. 000 (3GPP TS S1AP: 36.331)UE messages eNBUE sends an An initiates thethe CSFB toto1x which are sent by eNB the CONTEXT RELEASE REQUEST This measurement provides the Parameter transfer procedure by UEs. message (3GPP TS 36.413) to the number of CS Fallback sending the RRC: The counter is updated in the LTE MME. preparations to 1xRTT/CDMA2000. CSFBParametersRequestCDMA20 cell. The counter is updated the eNB LTE 00 message to the CSFB eNB.inThe An UE initiates the to 1x cell. responds by sending the RRC: This measurement provides the Parameter transfer procedure by CSFBParametersResponseCDMA2 number of RRC: sending the RRC: 000 message to the UE (3GPP TS ULHandoverPreparationTransfer CSFBParametersRequestCDMA20 36.331). The purpose of this (3GPP TS 36.331) which 00 message to the messages eNB. The eNB procedure is to transfer the are received by the eNB from the responds by sending the RRC: This measurement theto CDMA2000 1xRTT provides parameters UEs for CS Fallback preparations CSFBParametersResponseCDMA2 number of Failed CS Fallback the UE so thattothe register to 1xRTT/CDMA2000. 000 message theUE UEcan (3GPP TS preparations to 1xRTT/CDMA2000 with the CDMA2000 1xRTT The counter is updated in the LTE 36.331). The purposeofofanthisnetwork due to the reception to support CS to cell. procedure is toFallback transfer the S1AP:DOWNLINK S1 System CDMA2000 CDMA2000 1xRTT. Number of failed Inter CDMA2000 1xRTT parameters to TUNNELING (3GPP TSto36.413) Handover preparations UTRAN the UE so that the UE can register message by the eNB from the MME due to expiration of the guarding with the CDMA2000 1xRTT network which indicates a "HO Failure" for timer per neighbor cell relationship. to support CS Fallback to the CS Fallback preparation to CDMA2000 1xRTT. Number of failed Inter System 1xRTT. Handover preparations The counter is updated to in UTRAN the LTE due cell. to admission control of target cell per neighbor cell relationship.
#N/A
Number of failed Inter System Handover preparations to UTRAN due to other reasons of target cell per neighbor cell relationship.
Number of failed Inter System Handover preparations to UTRAN due to other reasons of target cell per neighbor cell relationship.
Number of Inter System Handover attempts to UTRAN per neighbor cell relationship.
Number of PS-HO attempts to UTRAN per neighbor cell relationship.
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
Number of failed Inter System Handover preparations to UTRAN due to expiration of the guarding timer per neighbor cell relationship. Number of failed Inter System Handover preparations to UTRAN due to admission control of target cell per neighbor cell relationship.
Number of successful Inter System Number of successful PS-HO Handover completions to UTRAN completions to UTRAN per per neighbor cell relationship. neighbor cell relationship. This measurement provides the number of failed Inter System Handover attempts to UTRAN per neighbor cell relationship.
This measurement provides the number of failed PS-HO attempts to UTRAN per neighbor cell relationship.
Number of Inter System Handover preparations to UTRAN per neighbor cell relationship.
Number of Inter System Handover preparations to UTRAN per neighbor cell relationship.
This measurement provides the number of Inter System Handover attempts to UTRAN with SRVCC (Single Radio Voice Call Continuity, 3GPP TS 23.216) per neighbor This measurement provides thecell relationship. number of successful Inter System
This measurement provides the number of Inter System Handover attempts to UTRAN with SRVCC (Single Radio Voice Call Continuity, 3GPP TS 23.216) per neighbor This measurement provides thecell relationship. number of successful Inter System
Handover completions to UTRAN with SRVCC (Single Radio Voice Call 3GPP TS 23.216) This Continuity, measurement provides the per neighbor cell relationship. number of failed Inter System
Handover completions to UTRAN with SRVCC (Single Radio Voice Call 3GPP TS 23.216) This Continuity, measurement provides the per neighbor cell relationship. number of failed Inter System
Handover attempts to UTRAN with SRVCC (Single Radio Voice Call Continuity, 3GPP TS 23.216) The average number of activeper UEs neighbor cell relationship. per eNB. A UE is defined as "active"
Handover attempts to UTRAN with SRVCC (Single Radio Voice Call Continuity, 3GPP TS 23.216) The average number of activeper UEs neighbor cell relationship. per eNB. A UE is defined as "active"
if at least a single non-GBR DRB has been successfully configured for Theit.maximum number of active
if at least a single non-GBR DRB has been successfully configured for Theit.maximum number of active
UEs per eNB. A UE is defined as "active" if at least a single non-GBR DRB has been successfully configured The numberforofit.UE contexts being
UEs per eNB. A UE is defined as "active" if at least a single non-GBR DRB has been successfully configured The numberforofit.UE contexts being
released due to S1 Reset procedure initiated by eNB (all released UE contexts are counted RRC Connected with or The number of active UEwithout contexts DRB). Number is updated once by being released due to S1 Reset the number of affected UEs. procedure initiated by eNB (all
released due to S1 Reset procedure initiated by eNB (all released UE contexts are counted RRC Connected with or The number of active UEwithout contexts DRB). Number is updated once by being released due to S1 Reset the number of affected UEs. procedure initiated by eNB (all
released active UE contexts are counted RRCofConnected with at The number UE contexts being least one DRB). Number is updated released due to S1 Reset once by theinitiated numberbyofMME affected procedure (All UEs. released UE contexts are counted
released active UE contexts are counted RRCofConnected with at The number UE contexts being least one DRB). Number is updated released due to S1 Reset once by theinitiated numberbyofMME affected procedure (All UEs. released UE contexts are counted
RRC Connected with or The number of active UEwithout contexts DRB.). Number is updated once by being released due to S1 Reset the number of affected UEs. procedure initiated by MME (all
RRC Connected with or The number of active UEwithout contexts DRB.). Number is updated once by being released due to S1 Reset the number of affected UEs. procedure initiated by MME (all
released active UE contexts are counted RRC Connected with at least one DRB). Number is updated once by the number of affected UEs.
released active UE contexts are counted RRC Connected with at least one DRB). Number is updated once by the number of affected UEs.
This measurement provides the sum of sampled values for measuring the number of simultaneously Active UEs. This counter, divided by the denominator The number of samples taken for DENOM_ACTIVE_UE_ENB, counter SUM_ACTIVE_UE_ENB provides average number of used as athe denominator for average Active UEs per eNB. calculation. A UE is active if at least a single This measurement the non-GBR DRB has provides been number of NACC from LTE to successfully configured for it. GSM attempts per neighbor cell relationship.
This measurement provides the sum of sampled values for measuring the number of simultaneously Active UEs. This counter, divided by the denominator The number of samples taken for DENOM_ACTIVE_UE_ENB, counter SUM_ACTIVE_UE_ENB provides average number of used as athe denominator for average Active UEs per eNB. calculation. A UE is active if at least a single This measurement the non-GBR DRB has provides been number of NACC from LTE to successfully configured for it. GSM attempts per neighbor cell relationship.
This measurement provides the number of Inter System Handover attempts to GERAN with SRVCC (Single Radio Voice Call Continuity, 3GPP TS 23.216) per neighbor This measurement provides thecell relationship. number of successful Inter System
This measurement provides the number of Inter System Handover attempts to GERAN with SRVCC (Single Radio Voice Call Continuity, 3GPP TS 23.216) per neighbor This measurement provides thecell relationship. number of successful Inter System
Handover completions to GERAN with SRVCC (Single Radio Voice Call 3GPP TS 23.216) This Continuity, measurement provides the per neighbor cell relationship. number of failed Inter System
Handover completions to GERAN with SRVCC (Single Radio Voice Call 3GPP TS 23.216) This Continuity, measurement provides the per neighbor cell relationship. number of failed Inter System
Handover attempts to GERAN with SRVCC (Single Radio Voice Call Continuity, TS changes 23.216) per Number of 3GPP cell state to neighbor cell relationship. "cell is available"
Handover attempts to GERAN with SRVCC (Single Radio Voice Call Continuity, TS changes 23.216) per Number of 3GPP cell state to neighbor cell relationship. "cell is available"
This counter indicates the number of cell state changes to "planned unavailable".
Number of cell state changes to "cell is planned unavailable"
This counter indicates the number Number of cell state changes to of cell state changes to "unplanned "cell is unplanned unavailable" unavailable". The number of samples when the cell is available.
The number of samples when the cell is available.
This counter indicates the number of samples when the cell is in the "planned unavailable" state.
The number of samples when the cell is planned unavailable.
This counter indicates the number of samples when the cell is in the "unplanned unavailable" state.
The number of samples when the cell is unplanned unavailable.
The number of samples when cell availability is checked. This counter is used as a denominator for the cell availability calculation
The number of samples when cell availability is checked. This counter is used as a denominator for the cell availability calculation
This counter indicates the number of samples when the cell is in the "power saving mode" state.
#N/A
This counter indicates the number of cell state changes to "power saving mode".
#N/A
The number of intra LTE interThe number of intra LTE interfrequency Handover attempts. It frequency Handover attempts. It comprises the intra- and inter-eNB. comprises the intra- and inter-eNB. The number of intra LTE interfrequency Handover attempts when measurement gaps are configured for the UE. It comprises the intraand The inter-eNB number ofHandover successfulscenario. intra LTE
The number of intra LTE interfrequency Handover attempts when measurement gaps are configured for the UE. It comprises the intraand The inter-eNB number ofHandover successfulscenario. intra LTE
inter-frequency Handover inter-frequency Handover completions. It comprises the intra- completions. It comprises the intraand inter-eNB Handover scenario. and inter-eNB Handover scenario. The number of successful intra LTE inter-frequency Handover completions when measurement gaps are configured for the UE. It comprises the and inter-eNB The number ofintrainter-frequency Handover scenario. Handover failures
The number of successful intra LTE inter-frequency Handover completions when measurement gaps are configured for the UE. It comprises the and inter-eNB The number ofintrainter-frequency Handover scenario. Handover failures
The number of inter-frequency Handover failures if measurement gaps were configured for the UE.
The number of inter-frequency Handover failures if measurement gaps were configured for the UE.
The number of Handover preparations for IMS Emergency Sessions. It comprises the intra and inter eNB Handover scenario.
The number of Handover preparations for IMS Emergency Sessions. It comprises the intra and inter eNB Handover scenario.
This measurement provides the number of service-based handover attempts. It comprises the intra- and intereNB handover scenario. This measurement provides the
This measurement provides the number of service-based handover attempts. It comprises the intra- and intereNB handover scenario. This measurement provides the
number of successful serviceService-based handovers are used based handover completions. It to hand over the UEs with ongoing comprises the intra- and inter-eNB VoLTE services (QCI1) to specific handover scenario. cells. Only service-based handover Service-based handovers are used events with cause "resource to hand over the UEs with ongoing optimization handover" (3GPP TS VoLTE services (QCI1) to specific 36.413, 36.423) (or with equivalent cells. eNB-internal cause for resource Only service-based handover optimization handovers) are events with cause "resource counted. Handover events withTS optimization handover" (3GPP radio-related causes ("handover 36.413, 36.423) (or with equivalent desirable for radio reasons", "time
number of successful serviceService-based handovers are used based handover completions. It to hand over the UEs with ongoing comprises the intra- and inter-eNB VoLTE services (QCI1) to specific handover scenario. cells. Only service-based handover Service-based handovers are used events with cause "resource to hand over the UEs with ongoing optimization handover" (3GPP TS VoLTE services (QCI1) to specific 36.413, 36.423) (or with equivalent cells. eNB-internal cause for resource Only service-based handover optimization handovers) are events with cause "resource counted. Handover events withTS optimization handover" (3GPP radio-related causes ("handover 36.413, 36.423) (or with equivalent desirable for radio reasons", "time
The number of failed Handover preparations for IMS Emergency Sessions. It comprises the intra and inter eNB Handover scenario.
The number of failed Handover preparations for IMS Emergency Sessions. It comprises the intra and inter eNB Handover scenario.
The number of Handover attempts for IMS Emergency Sessions. It comprises the intra- and inter-eNB Handover scenario.
The number of Handover attempts for IMS Emergency Sessions. It comprises the intra- and inter-eNB Handover scenario.
The number of successful Handover completions for IMS Emergency Sessions. It comprises the intra and inter eNB Handover scenario. This measurement provides the
The number of successful Handover completions for IMS Emergency Sessions. It comprises the intra and inter eNB Handover scenario. This measurement provides the
number of Handover attempts for UEs running in DRX mode.
number of Handover attempts for UEs running in DRX mode.
This measurement provides the number of successful Handover completions for UEs running in DRX mode.
This measurement provides the number of successful Handover completions for UEs running in DRX mode.
This counter provides the number of Late Handovers. A Late Handover is a sequence of a missed HO attempt (instead of HO: on UE side and This RLF counter provides the optionally number recoverable RLF on eNB of Early Handover Type 1.side) in one cell followed byType RRC1 is a An Early Handover connection re-establishment sequence of a failed HO attempt request inbyanother cell. followed RRC connection reThis counter provides the number establishment in the HO source of Early Handover Type 2. cell. An Early Handover Type 2 is recognized in the following cases: Case 1: This measurement provides the An Early Type 2Handover is a number ofHandover load balancing sequence of a successful attempts. It comprises the intraconnection establishment in HO and inter-eNB Handover scenario. target cell (attempted HO Load balancing handovers are This measurement provides theused completed) followed byaRRC to shift cell traffic from high number of successful load in connection re-establishment loaded serving cell tocompletions. neighbor balancing Handover another cell a short time after 'HO It cells. comprises completion'.the intra- and inter-eNB Handover Case 2: scenario.provides the This measurement Load balancing handovers are An EarlyofHandover Type 2 is a used number incoming handover to shift cell traffic from a high sequence of a successful random preparation attempts irrespective of loaded serving cell to followed neighborby access in HOcause. target the handover cells. failed Msg3 reception (attempted The counter is updated in thethe This measurement provides HO not completed) followed bythe rehandover target cell for which number of incoming handover establishment request in another incoming handover preparation preparation attempts caused by the cell. request was received. handover cause Time Critical The counter is not updated in case Handover. of ancounter intra-cell The is handover. updated in the The counter is not in case handover target cellupdated for which the of a RLF (Radio Link Failure) incoming handover preparation triggered incoming handover. request was received.
This counter provides the number of Late Handovers. A Late Handover is a sequence of a missed HO attempt (instead of HO: on UE side and This RLF counter provides the optionally number recoverable RLF on eNB of Early Handover Type 1.side) in one cell followed byType RRC1 is a An Early Handover connection re-establishment sequence of a failed HO attempt request inbyanother cell. followed RRC connection reThis counter provides the number establishment in the HO source of Early Handover Type 2. cell. An Early Handover Type 2 is recognized in the following cases: Case 1: This measurement provides the An Early Type 2Handover is a number ofHandover load balancing sequence of a successful attempts. It comprises the intraconnection establishment in HO and inter-eNB Handover scenario. target cell (attempted HO Load balancing handovers are This measurement provides theused completed) followed byaRRC to shift cell traffic from high number of successful load in connection re-establishment loaded serving cell tocompletions. neighbor balancing Handover another cell a short time after 'HO It cells. comprises completion'.the intra- and inter-eNB Handover Case 2: scenario.provides the This measurement Load balancing handovers are An EarlyofHandover Type 2 is a used number incoming handover to shift cell traffic from a high sequence of a successful random preparation attempts irrespective of loaded serving cell to followed neighborby access in HOcause. target the handover cells. failed Msg3 reception (attempted The counter is updated in thethe This measurement provides HO not completed) followed bythe rehandover target cell for which number of incoming handover establishment request in another incoming handover preparation preparation attempts caused by the cell. request was received. handover cause Time Critical The counter is not updated in case Handover. of ancounter intra-cell The is handover. updated in the The counter is not in case handover target cellupdated for which the of a RLF (Radio Link Failure) incoming handover preparation triggered incoming handover. request was received.
The counter is not updated in case Remark: of an intra-cell handover. The of not incoming handover The number counter is updated in case preparation attempts might be of a RLF (Radio Link Failure) greater the sum of successful triggeredthan incoming handover. and failed handover preparations
The counter is not updated in case Remark: of an intra-cell handover. The of not incoming handover The number counter is updated in case preparation attempts might be of a RLF (Radio Link Failure) greater the sum of successful triggeredthan incoming handover. and failed handover preparations
This measurement provides the number of incoming handover preparation attempts caused by the handover cause Handover desirable for Radio provides Reasons.the This measurement The counter is updated in the number of incoming handover handover target cell for which thethe preparation attempts caused by incoming handover preparation handover cause Reduce Load in request was Serving Cell.received. This measurement providesinthe The counter is updated The counter is not updated in the case number of incoming handover of an intra-cell handover. handover target cell for whichby thethe preparation attempts caused The counter is not updated in case incoming handover preparation handover cause Link Resource of a RLFwas (Radio Failure) request received. Optimization Handover. triggered incoming handover. This counter measurement providesinthe The is updated The counter is not updated in the case number of successful incoming of an intra-cell handover. handover target cell for irrespective which the handover preparations The counter is not updated in case incoming handover preparation of the handover cause. a RLF (Radio Link Failure) request was is received. The counter updated in thethe triggered incoming handover. This measurement provides The counter is not updated in case handover target cell for which number of successful incomingthe of an intra-cell handover. incoming handover preparation handover preparations caused by The counter is not updated in case request was received. the handover cause Time Critical of a RLF (Radio Link Failure) The counter is not updated in case Handover. triggered incoming handover. This measurement provides the of an intra-cell handover. The counter is updated in the number of successful incoming The counter is not updated in case handover target cell for which handover preparations causedthe by of a RLF (Radio Link Failure) incoming handover preparation the handover causehandover. Handover triggered incoming request was desirable for received. Radio provides Reasons.the This measurement The counter is not updated in case The counter is updated in the number of successful incoming of an intra-cell handover. handover target cell for caused which the handover preparations by The counter is not updated in case incoming handover preparation the handover cause Reduce Load of a RLF (Radio Link Failure) request was received. in Serving Cell. triggered incoming handover. This measurement providesinthe The counter is not updated The counter is updated in the case number of successful incoming of an intra-cell handover. handover target cell for caused which the handover preparations by The counter is not updated in case incoming handover preparation the handover cause Resource of a RLF (Radio Link Failure) request was received. Optimization Handover. triggered incoming handover. This measurement providesinthe The counter is not updated The counter is updated in the case number of incoming handover of an intra-cell handover. handover target cell caused for which the preparation failures bycase the The counter is not updated in incoming handover preparation missing Radio Resources. of a RLF (Radio Link Failure) request was is received. The updated in thethe triggered incoming handover. This counter measurement provides The counter is not updated in case handover target cell for which number of incoming handover the of an intra-cell handover. incoming handover preparation preparation failures caused in bycase the The counter is not updated request was received. missing Transport Resources of a RLF (Radio Link Failure) The counter is not updated in TAC). case (Transport Admission Control triggered incoming handover. This measurement provides the of an intra-cell handover. The counter is updated in the number of inter-frequency handover The counter is not updated in case handover target cell forQCI1. which the attempts for UEs with of a RLF (Radio Link Failure) incoming handover preparation Only event A3/A5 radio related triggered incoming handover. request was received. handovers are counted. Event A4 This counter measurement provides The is handovers not updated inthe case service-based and event number of successful interof an intra-cell handover. A4 load-based handovers are notfor frequency handover completions The counter is not updated in counted (3GPP TS 36.331, TScase UEs with (Radio QCI1. Link Failure) of a RLF 36.413, TS A3/A5 36.423). Only event radio related triggered incoming handover. It comprises thecounted. intraand interhandovers are Event A4 eNB handover scenarios. The service-based handovers and event counter is updated in the source A4 load-based handovers are not cell of the handover. counted (3GPP TS 36.331, TS 36.413, TS 36.423). It comprises the intra- and intereNB handover scenarios. The counter is updated in the source cell of the handover.
This measurement provides the number of incoming handover preparation attempts caused by the handover cause Handover desirable for Radio provides Reasons.the This measurement The counter is updated in the number of incoming handover handover target cell for which thethe preparation attempts caused by incoming handover preparation handover cause Reduce Load in request was Serving Cell.received. This measurement providesinthe The counter is updated The counter is not updated in the case number of incoming handover of an intra-cell handover. handover target cell for whichby thethe preparation attempts caused The counter is not updated in case incoming handover preparation handover cause Link Resource of a RLFwas (Radio Failure) request received. Optimization Handover. triggered incoming handover. This counter measurement providesinthe The is updated The counter is not updated in the case number of successful incoming of an intra-cell handover. handover target cell for irrespective which the handover preparations The counter is not updated in case incoming handover preparation of the handover cause. a RLF (Radio Link Failure) request was is received. The counter updated in thethe triggered incoming handover. This measurement provides The counter is not updated in case handover target cell for which number of successful incomingthe of an intra-cell handover. incoming handover preparation handover preparations caused by The counter is not updated in case request was received. the handover cause Time Critical of a RLF (Radio Link Failure) The counter is not updated in case Handover. triggered incoming handover. This measurement provides the of an intra-cell handover. The counter is updated in the number of successful incoming The counter is not updated in case handover target cell for which handover preparations causedthe by of a RLF (Radio Link Failure) incoming handover preparation the handover causehandover. Handover triggered incoming request was desirable for received. Radio provides Reasons.the This measurement The counter is not updated in case The counter is updated in the number of successful incoming of an intra-cell handover. handover target cell for caused which the handover preparations by The counter is not updated in case incoming handover preparation the handover cause Reduce Load of a RLF (Radio Link Failure) request was received. in Serving Cell. triggered incoming handover. This measurement providesinthe The counter is not updated The counter is updated in the case number of successful incoming of an intra-cell handover. handover target cell for caused which the handover preparations by The counter is not updated in case incoming handover preparation the handover cause Resource of a RLF (Radio Link Failure) request was received. Optimization Handover. triggered incoming handover. This measurement providesinthe The counter is not updated The counter is updated in the case number of incoming handover of an intra-cell handover. handover target cell caused for which the preparation failures bycase the The counter is not updated in incoming handover preparation missing Radio Resources. of a RLF (Radio Link Failure) request was is received. The updated in thethe triggered incoming handover. This counter measurement provides The counter is not updated in case handover target cell for which number of incoming handover the of an intra-cell handover. incoming handover preparation preparation failures caused in bycase the The counter is not updated request was received. missing Transport Resources of a RLF (Radio Link Failure) The counter is not updated in TAC). case (Transport Admission Control triggered incoming handover. #N/A of an intra-cell handover. The counter is updated in the The counter is not in case handover target cellupdated for which the of a RLF (Radio Link Failure) incoming handover preparation triggered incoming handover. request was received. #N/A The counter is not updated in case of an intra-cell handover. The counter is not updated in case of a RLF (Radio Link Failure) triggered incoming handover.
This counter provides the number of X2 Setup procedures triggered by eNB.
This counter provides the number of X2 Setup procedures triggered by eNB.
This counter provides the number This counter provides the number of X2 Setup procedures which were of X2 Setup procedures which were triggered by eNB and then failed. triggered by eNB and then failed. The measurement gives an indication of the eUu interface traffic load by reporting the total received PDCP SDU-related traffic volume for all UEs assigned The measurement gives an to QCI Counter Group 1. indication of the eUu interface
The measurement gives an indication of the eUu interface traffic load by reporting the total received PDCP SDU-related traffic volume for all UEs assigned The measurement gives an to QCI Counter Group 1. indication of the eUu interface
traffic load by reporting the total Note: QCIPDCP Counter Group as traffic such received SDU-related is applicable for Operator Specific volume for all UEs assigned The measurement an to QCI QCIs introduced in gives RL30/RL25TD Counter Group 2. indication ofOperator-specific the eUu interfaceQCI by LTE518: traffic loadon, byinreporting the total and later RL60/RL45TD, Note: QCIPDCP Counter Group as traffic such received SDU-related extended by LTE1231: Operatoris applicable for Operator Specific volume for all QCIs. UEs assigned to QCI specific GBR These The measurement ancounters QCIs introduced in gives RL30/RL25TD Counter Group 3. are not related to generic QCI1indication ofOperator-specific the eUu interfaceQCI by LTE518: QCI9. trafficlater loadon, byinreporting the total and RL60/RL45TD, Note: QCIPDCP Counter Group as traffic such received SDU related extended by LTE1231: Operatoris applicable for Operator Specific volume for all QCIs. UEs assigned to QCI specific GBR These The measurement ancounters QCIs introduced in gives RL30/RL25TD Counter Group 4. are not related to generic QCI1indication ofOperator-specific the eUu interfaceQCI by LTE518: QCI9. traffic loadon, byinreporting the total and later RL60/RL45TD, Note: QCIPDCP Counter Group as traffic such received SDU-related extended by LTE1231: Operatoris applicable for Operator Specific volume for all QCIs. UEs assigned to QCI specific GBR These The measurement ancounters QCIs introduced in gives RL30/RL25TD Counter Group 5. are not related to generic QCI1indication ofOperator-specific the eUu interfaceQCI by LTE518: QCI9. trafficlater loadon, byinreporting the total and RL60/RL45TD, Note: QCIPDCP Counter Group as traffic such received SDU-related extended by LTE1231: Operatoris applicable for Operator Specific volume for all QCIs. UEs assigned to QCI specific GBR These The measurement ancounters QCIs introduced in gives RL30/RL25TD Counter Group 6. are not related to generic QCI1indication ofOperator-specific the eUu interfaceQCI by LTE518: QCI9. traffic load by the total and later inreporting RL60/RL45TD, Note: QCIon, Counter Group as such transmitted PDCP SDU-related extended by LTE1231: Operatoris applicable for Specific traffic volume forOperator allgives UEs an assigned specific GBR QCIs. These counters The measurement QCIs introduced in RL30/RL25TD to QCI Counter Group 1. are not related to generic QCI1indication ofOperator-specific the eUu interfaceQCI by LTE518: QCI9. traffic loadon, byinreporting the total and later RL60/RL45TD, Note: QCI Counter Group as such transmitted PDCP SDU-related extended by LTE1231: Operatoris applicable for Specific traffic volume forOperator allgives UEs an assigned specific GBR QCIs. These counters The measurement QCIs introduced in RL30/RL25TD to QCI Counter Group 2. QCI1are not related to generic indication of the eUu interface by LTE518: Operator-specific QCI QCI9. traffic load byinreporting the total and later RL60/RL45TD, Note: QCIon, Counter Group as such transmitted PDCP SDU-related extended by LTE1231: Operatoris applicable for Specific traffic volume forOperator allgives UEs an assigned specific GBR QCIs. These counters The measurement QCIs introduced in RL30/RL25TD to QCI Counter Group 3. are not related to generic QCI1indication ofOperator-specific the eUu interfaceQCI by LTE518: QCI9. traffic loadon, byinreporting the total and later RL60/RL45TD, Note: QCI Counter Group as such transmitted PDCP SDU-related extended by LTE1231: Operatoris applicable for Specific traffic volume forOperator all These UEs assigned specific GBR QCIs. counters QCIs introduced in RL30/RL25TD to QCI Counter Group 4. QCI1are not related to generic by LTE518: Operator-specific QCI QCI9. and in RL60/RL45TD, Note:later QCIon, Counter Group as such extended by LTE1231: Operatoris applicable for Operator Specific specific GBR QCIs. These counters QCIs introduced in RL30/RL25TD are not related to generic QCI1by LTE518: Operator-specific QCI QCI9. and later on, in RL60/RL45TD, extended by LTE1231: Operatorspecific GBR QCIs. These counters
traffic load by reporting the total Note: QCIPDCP Counter Group as traffic such received SDU-related is applicable for Operator Specific volume for all UEs assigned The measurement an to QCI QCIs introduced in gives RL30/RL25TD Counter Group 2. indication ofOperator-specific the eUu interfaceQCI by LTE518: traffic loadon, byinreporting the total and later RL60/RL45TD, Note: QCIPDCP Counter Group as traffic such received SDU-related extended by LTE1231: Operatoris applicable for Operator Specific volume for all QCIs. UEs assigned to QCI specific GBR These The measurement ancounters QCIs introduced in gives RL30/RL25TD Counter Group 3. are not related to generic QCI1indication ofOperator-specific the eUu interfaceQCI by LTE518: QCI9. trafficlater loadon, byinreporting the total and RL60/RL45TD, Note: QCIPDCP Counter Group as traffic such received SDU related extended by LTE1231: Operatoris applicable for Operator Specific volume for all QCIs. UEs assigned to QCI specific GBR These The measurement ancounters QCIs introduced in gives RL30/RL25TD Counter Group 4. are not related to generic QCI1indication ofOperator-specific the eUu interfaceQCI by LTE518: QCI9. traffic loadon, byinreporting the total and later RL60/RL45TD, Note: QCIPDCP Counter Group as traffic such received SDU-related extended by LTE1231: Operatoris applicable for Operator Specific volume for all QCIs. UEs assigned to QCI specific GBR These The measurement ancounters QCIs introduced in gives RL30/RL25TD Counter Group 5. are not related to generic QCI1indication ofOperator-specific the eUu interfaceQCI by LTE518: QCI9. trafficlater loadon, byinreporting the total and RL60/RL45TD, Note: QCIPDCP Counter Group as traffic such received SDU-related extended by LTE1231: Operatoris applicable for Operator Specific volume for all QCIs. UEs assigned to QCI specific GBR These The measurement ancounters QCIs introduced in gives RL30/RL25TD Counter Group 6. are not related to generic QCI1indication ofOperator-specific the eUu interfaceQCI by LTE518: QCI9. traffic load by the total and later inreporting RL60/RL45TD, Note: QCIon, Counter Group as such transmitted PDCP SDU-related extended by LTE1231: Operatoris applicable for Specific traffic volume forOperator allgives UEs an assigned specific GBR QCIs. These counters The measurement QCIs introduced in RL30/RL25TD to QCI Counter Group 1. are not related to generic QCI1indication ofOperator-specific the eUu interfaceQCI by LTE518: QCI9. traffic loadon, byinreporting the total and later RL60/RL45TD, Note: QCI Counter Group as such transmitted PDCP SDU-related extended by LTE1231: Operatoris applicable for Specific traffic volume forOperator allgives UEs an assigned specific GBR QCIs. These counters The measurement QCIs introduced in RL30/RL25TD to QCI Counter Group 2. QCI1are not related to generic indication of the eUu interface by LTE518: Operator-specific QCI QCI9. traffic load byinreporting the total and later RL60/RL45TD, Note: QCIon, Counter Group as such transmitted PDCP SDU-related extended by LTE1231: Operatoris applicable for Specific traffic volume forOperator allgives UEs an assigned specific GBR QCIs. These counters The measurement QCIs introduced in RL30/RL25TD to QCI Counter Group 3. are not related to generic QCI1indication ofOperator-specific the eUu interfaceQCI by LTE518: QCI9. traffic loadon, byinreporting the total and later RL60/RL45TD, Note: QCI Counter Group as such transmitted PDCP SDU-related extended by LTE1231: Operatoris applicable for Specific traffic volume forOperator all These UEs assigned specific GBR QCIs. counters QCIs introduced in RL30/RL25TD to QCI Counter Group 4. QCI1are not related to generic by LTE518: Operator-specific QCI QCI9. and in RL60/RL45TD, Note:later QCIon, Counter Group as such extended by LTE1231: Operatoris applicable for Operator Specific specific GBR QCIs. These counters QCIs introduced in RL30/RL25TD are not related to generic QCI1by LTE518: Operator-specific QCI QCI9. and later on, in RL60/RL45TD, extended by LTE1231: Operatorspecific GBR QCIs. These counters
The measurement gives an indication of the eUu interface traffic load by reporting the total transmitted PDCP SDU-related traffic volume for allgives UEs an assigned The measurement to QCI Counter Group 5. indication of the eUu interface
The measurement gives an indication of the eUu interface traffic load by reporting the total transmitted PDCP SDU-related traffic volume for allgives UEs an assigned The measurement to QCI Counter Group 5. indication of the eUu interface
traffic load by reporting the total Note: QCI Counter Group as such transmitted PDCP SDU-related is applicable for Operator Specific traffic volumeprovides for all UEs This counter theassigned average QCIs introduced in RL30/RL25TD to QCI Counter Group 6. cell number of active UEs per by LTE518: Operator-specific QCI assigned to Mobility Profile 1. and later on, in RL60/RL45TD, Note: QCI Counter Group as such A UE is defined as "active" if SRB extended by LTE1231: Operatoris applicable for Operator Specific and least DRB have been specific GBRone QCIs. These counters This at counter provides the average QCIs introduced in RL30/RL25TD established. An ongoing data are not related to generic QCI1number of active UEs per cell QCI by LTE518: Operator-specific transfer istonot mandatory to2. belong QCI9. assigned Mobility Profile and later on, in RL60/RL45TD, to this group of UEs. A UE is defined as "active" if SRB extended by LTE1231: Operatorand at least one DRB have been specific GBRprovides QCIs. These counters This counter the average established. An ongoing data are not related to generic QCI1number of active UEs per cell transfer mandatory to3. belong QCI9. assignedistonot Mobility Profile to this group of UEs. A UE is defined as "active" if SRB and least one DRB have been This at counter provides the average established. An ongoing data number of active UEs per cell transfer mandatory to4. belong assignedistonot Mobility Profile to this group of UEs. A UE is defined as "active" if SRB
traffic load by reporting the total Note: QCI Counter Group as such transmitted PDCP SDU-related is applicable for Operator Specific traffic volumeprovides for all UEs This counter theassigned average QCIs introduced in RL30/RL25TD to QCI Counter Group 6. cell number of active UEs per by LTE518: Operator-specific QCI assigned to Mobility Profile 1. and later on, in RL60/RL45TD, Note: QCI Counter Group as such A UE is defined as "active" if SRB extended by LTE1231: Operatoris applicable for Operator Specific and least DRB have been specific GBRone QCIs. These counters This at counter provides the average QCIs introduced in RL30/RL25TD established. An ongoing data are not related to generic QCI1number of active UEs per cell QCI by LTE518: Operator-specific transfer istonot mandatory to2. belong QCI9. assigned Mobility Profile and later on, in RL60/RL45TD, to this group of UEs. A UE is defined as "active" if SRB extended by LTE1231: Operatorand at least one DRB have been specific GBRprovides QCIs. These counters This counter the average established. An ongoing data are not related to generic QCI1number of active UEs per cell transfer mandatory to3. belong QCI9. assignedistonot Mobility Profile to this group of UEs. A UE is defined as "active" if SRB and least one DRB have been This at counter provides the average established. An ongoing data number of active UEs per cell transfer mandatory to4. belong assignedistonot Mobility Profile to this group of UEs. A UE is defined as "active" if SRB
and least one DRB have been This at counter provides the average established. An ongoing data number of active UEs per cell transfer mandatory to5. belong assignedistonot Mobility Profile to this group of UEs. A UE is defined as "active" if SRB
and least one DRB have been This at counter provides the average established. An ongoing data number of active UEs per cell transfer mandatory to5. belong assignedistonot Mobility Profile to this group of UEs. A UE is defined as "active" if SRB
and least one DRB have been This at counter provides the average established. An ongoing data number of active UEs per cell transfer mandatory to6. belong assignedistonot Mobility Profile to this group of UEs. A UE is defined as "active" if SRB
and least one DRB have been This at counter provides the average established. An ongoing data number of active UEs per cell transfer mandatory to6. belong assignedistonot Mobility Profile to this group of UEs. A UE is defined as "active" if SRB
and least one DRB have been This at counter provides the average established. An ongoing data number of active UEs per cell transfer mandatory to7. belong assignedistonot Mobility Profile to this group of UEs. A UE is defined as "active" if SRB
and least one DRB have been This at counter provides the average established. An ongoing data number of active UEs per cell transfer mandatory to7. belong assignedistonot Mobility Profile to this group of UEs. A UE is defined as "active" if SRB
and least one DRB have been This at counter provides the average established. An ongoing data number of active UEs per cell transfer mandatory to8. belong assignedistonot Mobility Profile to this group of UEs. A UE is defined as "active" if SRB
and least one DRB have been This at counter provides the average established. An ongoing data number of active UEs per cell transfer mandatory to8. belong assignedistonot Mobility Profile to this group of UEs. A UE is defined as "active" if SRB
and least one DRB have been This at counter provides the average established. An ongoing data number of active UEs per cell transfer to belong assignedistonot themandatory Default Mobility to this group of UEs. Profile.
and least one DRB have been This at counter provides the average established. An ongoing data number of active UEs per cell transfer to belong assignedistonot themandatory Default Mobility to this group of UEs. Profile.
A UEcounter is defined as "active" if SRB This provides the average and at least one DRB have been number of active UEs per cell for established. An ongoing data operator-specific QCIs assigned to transfer not mandatory to belong Counter is Group 1. to this group of UEs. A UE is defined as "active" if SRB
A UEcounter is defined as "active" if SRB This provides the average and at least one DRB have been number of active UEs per cell for established. An ongoing data operator-specific QCIs assigned to transfer not mandatory to belong Counter is Group 1. to this group of UEs. A UE is defined as "active" if SRB
and at least one DRB have been established. An ongoing data transfer is not mandatory to belong to this group of UEs.
and at least one DRB have been established. An ongoing data transfer is not mandatory to belong to this group of UEs.
The reported value is 100 times higher than the actual value (for example, 1.00 is stored as 100).
The reported value is 100 times higher than the actual value (for example, 1.00 is stored as 100).
This counter provides the average number of active UEs per cell for operator-specific QCIs assigned to Counter Group 2. A UEcounter is defined as "active" if SRB This provides the average and at least one DRB have been number of active UEs per cell for established. An ongoing data operator-specific QCIs assigned to transfer not mandatory to belong Counter is Group 3. to this group of UEs. A UEcounter is defined as "active" if SRB This provides the average and at least one DRB have been number of active UEs per cell for The reported value is 100 times established. An ongoing data operator-specific QCIsvalue assigned to higher than the actual (for transfer is not mandatory belong Counter Group 4.stored asto100). example, 1.00 is to thisisgroup of UEs. A UE defined as "active" if SRB This counter provides the average and at least one DRB have been number of active UEs per cell for The reported value is 100 times established. An ongoing data operator-specific QCIsvalue assigned to higher than the actual (for transfer is not mandatory belong Counter Group 5.stored asto100). example, 1.00 is to thisisgroup of UEs. A UE defined as "active" if SRB This counter provides the average and at least one DRB have been number of active UEs per cell for The reported value is 100 times established. An ongoing data operator-specific QCIsvalue assigned to higher than the actual (for transfer is not mandatory belong Counter Group 6.stored asto100). example, 1.00 is to thisisgroup of UEs. A UE defined as "active" if SRB This counter provides the number and at least one DRB have been of inconsistent QCI is Counter Group The reportedAn value 100data times established. ongoing assignments. higher than the actual value (for transfer is not mandatory to belong example, 1.00 stored as 100). to this group ofisUEs. This counter provides the average number of active UEs per cell The reported value is 100 times assigned to the Mobility Profile higher than actual value9.(for A UE is defined if SRB example, 1.00 is"active" stored as 100).and at least one DRB have been This counter provides the average established. An ongoing number of active UEs perdata cell transfer is not mandatory to10. belong assigned to Mobility Profile to this group of UEs. A UE is defined "active" if SRB and
This counter provides the average number of active UEs per cell for operator-specific QCIs assigned to Counter Group 2. A UEcounter is defined as "active" if SRB This provides the average and at least one DRB have been number of active UEs per cell for established. An ongoing data operator-specific QCIs assigned to transfer not mandatory to belong Counter is Group 3. to this group of UEs. A UEcounter is defined as "active" if SRB This provides the average and at least one DRB have been number of active UEs per cell for The reported value is 100 times established. An ongoing data operator-specific QCIsvalue assigned to higher than the actual (for transfer is not mandatory belong Counter Group 4.stored asto100). example, 1.00 is to thisisgroup of UEs. A UE defined as "active" if SRB This counter provides the average and at least one DRB have been number of active UEs per cell for The reported value is 100 times established. An ongoing data operator-specific QCIsvalue assigned to higher than the actual (for transfer is not mandatory belong Counter Group 5.stored asto100). example, 1.00 is to thisisgroup of UEs. A UE defined as "active" if SRB This counter provides the average and at least one DRB have been number of active UEs per cell for The reported value is 100 times established. An ongoing data operator-specific QCIsvalue assigned to higher than the actual (for transfer is not mandatory belong Counter Group 6.stored asto100). example, 1.00 is to thisisgroup of UEs. A UE defined as "active" if SRB This counter provides the number and at least one DRB have been of inconsistent QCI is Counter Group The reportedAn value 100data times established. ongoing assignments. higher than the actual value (for transfer is not mandatory to belong example, 1.00 stored as 100). to this group ofisUEs. This counter provides the average number of active UEs per cell The reported value is 100 times assigned to the Mobility Profile higher than actual value9.(for A UE is defined if SRB example, 1.00 is"active" stored as 100).and at least one DRB have been This counter provides the average established. An ongoing number of active UEs perdata cell transfer is not mandatory to10. belong assigned to Mobility Profile to this group of UEs. A UE is defined "active" if SRB and
at least one DRB havethe been This counter provides average established. An ongoing number of active UEs perdata cell transfer mandatory to11. belong assignedistonot Mobility Profile to this group of UEs. A UE is defined "active" if SRB and
at least one DRB havethe been This counter provides average established. An ongoing number of active UEs perdata cell transfer mandatory to11. belong assignedistonot Mobility Profile to this group of UEs. A UE is defined "active" if SRB and
at least one DRB havethe been This counter provides average established. An ongoing number of active UEs perdata cell transfer mandatory to12. belong assignedistonot Mobility Profile to this group of UEs. A UE is defined "active" if SRB and
at least one DRB havethe been This counter provides average established. An ongoing number of active UEs perdata cell transfer mandatory to12. belong assignedistonot Mobility Profile to this group of UEs. A UE is defined "active" if SRB and
at least one DRB havethe been This counter provides average established. An ongoing number of active UEs perdata cell transfer mandatory to13. belong assignedistonot Mobility Profile to this group of UEs. A UE is defined "active" if SRB and
at least one DRB havethe been This counter provides average established. An ongoing number of active UEs perdata cell transfer mandatory to13. belong assignedistonot Mobility Profile to this group of UEs. A UE is defined "active" if SRB and
at least one DRB havethe been This counter provides average established. An ongoing number of active UEs perdata cell transfer mandatory to14. belong assignedistonot Mobility Profile to this group of UEs. A UE is defined "active" if SRB and
at least one DRB havethe been This counter provides average established. An ongoing number of active UEs perdata cell transfer mandatory to14. belong assignedistonot Mobility Profile to this group of UEs. A UE is defined "active" if SRB and
at least one DRB have been established. An ongoing data transfer is not mandatory to belong to this group of UEs.
at least one DRB have been established. An ongoing data transfer is not mandatory to belong to this group of UEs.
This counter provides the average number of active UEs per cell assigned to Mobility Profile 15. A UE is defined "active" if SRB and at least one DRB havethe been This counter provides average established. An ongoing number of active UEs perdata cell transfer mandatory to16. belong assignedistonot Mobility Profile to this group of UEs. A UE is defined "active" if SRB and
This counter provides the average number of active UEs per cell assigned to Mobility Profile 15. A UE is defined "active" if SRB and at least one DRB havethe been This counter provides average established. An ongoing number of active UEs perdata cell transfer mandatory to16. belong assignedistonot Mobility Profile to this group of UEs. A UE is defined "active" if SRB and
at least one DRB have been the This measurement provides established. An ongoing data number of Inter System Handover transfer is not mandatory to eHRPD belong preparations to eHRPD per to this group of UEs. bandclass.
at least one DRB have been the This measurement provides established. An ongoing data number of Inter System Handover transfer is not mandatory to eHRPD belong preparations to eHRPD per to this group of UEs. bandclass.
For handover provides relationship Thiseach measurement the between the LTE cell number of Failed Inter(source Systemof the inter system handover) and the Handover preparations to eHRPD eHRPD bandclass (target of the caused by expiration of guarding inter system handover) a separate timer TUlHoPrepTransferHrpd per This measurement counter is provided.provides the eHRPD bandclass. number of Failed Inter System For each handover relationship Handover preparations to eHRPD between the LTE cell (source of the caused by expiration of guarding inter system handover) and the timer TC2KRelocPrepHrpd per This measurement provides eHRPD bandclass (target of the the eHRPD bandclass. number of Failed Inter System inter system handover) a separate For each handover relationship Handover preparations to eHRPD counter isthe provided. between LTE cell (source ofbythe per eHRPD bandclass caused The timer is started when the eNB inter system handover) and the the reception of an provides the sends an This measurement eHRPD bandclass (target of the S1AP:DOWNLINK S1 Inter CDMA2000 RRC:HandoverFromEUTRAPrepar number of Successful System inter system handover) a separate TUNNELING (3GPP TSto 36.413) ationRequest message (3GPP TS Handover preparations eHRPD counter is provided. message by the eNB from the MME 36.331) to the UE in case that this per eHRPD The timer is bandclass. started when the eNB which indicates HO message is sentatofailed prepare a Inter For each handover relationship sends an S1AP:UPLINK S1 This measurement provides the preparation to eHRPD. System Handover to eHRPD. between the LTESystem cell (source of the CDMA2000 TUNNELING message number of Inter Handover For each handover relationship The timer expires when the eNB inter system handover) and the (3GPP TS 36.413) to the MME attempts to eHRPD per eHRPD between the LTE the cell (source ofinthe has not received corresponding eHRPD bandclass (target of the case that this message is sent bandclass. inter system handover) and theto response message inter system handover) a separate prepare a Inter System Handover For each handover relationship eHRPD bandclass (target of the the to RRC:ULHandoverPreparationTrans This measurement provides counter is provided. eHRPD (CDMA2000 HO Required between LTE cell (source the inter system handover) a separate fer (3GPP TS 36.331) from theofUE number ofthe Failed System Indication is set toInter TRUE). inter system handover) and the counter is provided. in time. Handover attemptswhen to eHRPD The timer expires theofeNB eHRPD bandclass (target the caused by expiration of guarding has not received the corresponding inter system handover) a separate timer TC2KRelocOverallHRPD per response message This measurement counter is provided.provides the eHRPD bandclass. S1AP:DOWNLINK S1 CDMA2000 number of Successful Inter System For each handover TUNNELING (3GPPrelationship TSto36.413) Handover completions eHRPD between the LTE cell (source of the fromeHRPD the MME in time. per bandclass. inter system handover) and the For each relationship Number ofhandover missing (target UL PDCP eHRPD bandclass of the between the LTE cell (source of the= packets of a handover) data bearer with QCI inter system a separate inter system handover) and the 5 that are not delivered to higher counter is provided. eHRPD bandclass (target of the layers. Missing packets are The timer is started when the eNB inter system handover) a separate identified the missing PDCP sends anisofby Number missing UL PDCP counter provided. sequence number. RRC:MobilityFromEUTRAComman packets of a data bearer with QCI = Only (DTCH) d to delivered thetraffic UE (3GPP TSis 6 message thatuser-plane are not to higher considered. 36.331) in casepackets that thisare message layers. Missing is sent forby a Inter SystemPDCP Handover identified the missing to eHRPD.number. sequence The expirestraffic when(DTCH) the eNB Onlytimer user-plane is has not received the corresponding considered. handover related S1AP:UE CONTEXT RELEASE COMMAND message (3GPP TS 36.413) from the MME in time.
For handover provides relationship Thiseach measurement the between the LTE cell number of Failed Inter(source Systemof the inter system handover) and the Handover preparations to eHRPD eHRPD bandclass (target of the caused by expiration of guarding inter system handover) a separate timer TUlHoPrepTransferHrpd per This measurement counter is provided.provides the eHRPD bandclass. number of Failed Inter System For each handover relationship Handover preparations to eHRPD between the LTE cell (source of the caused by expiration of guarding inter system handover) and the timer TC2KRelocPrepHrpd per This measurement provides eHRPD bandclass (target of the the eHRPD bandclass. number of Failed Inter System inter system handover) a separate For each handover relationship Handover preparations to eHRPD counter isthe provided. between LTE cell (source ofbythe per eHRPD bandclass caused The timer is started when the eNB inter system handover) and the the reception of an provides the sends an This measurement eHRPD bandclass (target of the S1AP:DOWNLINK S1 Inter CDMA2000 RRC:HandoverFromEUTRAPrepar number of Successful System inter system handover) a separate TUNNELING (3GPP TSto 36.413) ationRequest message (3GPP TS Handover preparations eHRPD counter is provided. message by the eNB from the MME 36.331) to the UE in case that this per eHRPD The timer is bandclass. started when the eNB which indicates HO message is sentatofailed prepare a Inter For each handover relationship sends an S1AP:UPLINK S1 This measurement provides the preparation to eHRPD. System Handover to eHRPD. between the LTESystem cell (source of the CDMA2000 TUNNELING message number of Inter Handover For each handover relationship The timer expires when the eNB inter system handover) and the (3GPP TS 36.413) to the MME attempts to eHRPD per eHRPD between the LTE the cell (source ofinthe has not received corresponding eHRPD bandclass (target of the case that this message is sent bandclass. inter system handover) and theto response message inter system handover) a separate prepare a Inter System Handover For each handover relationship eHRPD bandclass (target of the the to RRC:ULHandoverPreparationTrans This measurement provides counter is provided. eHRPD (CDMA2000 HO Required between LTE cell (source the inter system handover) a separate fer (3GPP TS 36.331) from theofUE number ofthe Failed System Indication is set toInter TRUE). inter system handover) and the counter is provided. in time. Handover attemptswhen to eHRPD The timer expires theofeNB eHRPD bandclass (target the caused by expiration of guarding has not received the corresponding inter system handover) a separate timer TC2KRelocOverallHRPD per response message This measurement counter is provided.provides the eHRPD bandclass. S1AP:DOWNLINK S1 CDMA2000 number of Successful Inter System For each handover TUNNELING (3GPPrelationship TSto36.413) Handover completions eHRPD between the LTE cell (source of the fromeHRPD the MME in time. per bandclass. inter system handover) and the For each relationship Number ofhandover missing (target UL PDCP eHRPD bandclass of the between the LTE cell (source of the= packets of a handover) data bearer with QCI inter system a separate inter system handover) and the 5 that are not delivered to higher counter is provided. eHRPD bandclass (target of the layers. Missing packets are The timer is started when the eNB inter system handover) a separate identified the missing PDCP sends anisofby Number missing UL PDCP counter provided. sequence number. RRC:MobilityFromEUTRAComman packets of a data bearer with QCI = Only (DTCH) d to delivered thetraffic UE (3GPP TSis 6 message thatuser-plane are not to higher considered. 36.331) in casepackets that thisare message layers. Missing is sent forby a Inter SystemPDCP Handover identified the missing to eHRPD.number. sequence The expirestraffic when(DTCH) the eNB Onlytimer user-plane is has not received the corresponding considered. handover related S1AP:UE CONTEXT RELEASE COMMAND message (3GPP TS 36.413) from the MME in time.
Number of missing UL PDCP packets of a data bearer with QCI = 7 that are not delivered to higher layers. Missing packets are identified the missing PDCP Number ofbymissing UL PDCP sequence number. packets of a data bearer with QCI = Only traffic (DTCH) is 8 thatuser-plane are not delivered to higher considered. layers. Missing packets are
Number of missing UL PDCP packets of a data bearer with QCI = 7 that are not delivered to higher layers. Missing packets are identified the missing PDCP Number ofbymissing UL PDCP sequence number. packets of a data bearer with QCI = Only traffic (DTCH) is 8 thatuser-plane are not delivered to higher considered. layers. Missing packets are
identified the missing PDCP Number ofbymissing UL PDCP sequence number. packets of a data bearer with QCI = Only traffic (DTCH) is 9 thatuser-plane are not delivered to higher considered. layers. Missing packets are
identified the missing PDCP Number ofbymissing UL PDCP sequence number. packets of a data bearer with QCI = Only traffic (DTCH) is 9 thatuser-plane are not delivered to higher considered. layers. Missing packets are
identified the missing PDCP Number ofbyDL PDCP SDUs of a sequence number. data radio bearer with QCI = 5 that Only traffic (DTCH) is coulduser-plane not be successfully considered. transmitted.
identified the missing PDCP Number ofbyDL PDCP SDUs of a sequence number. data radio bearer with QCI = 5 that Only traffic (DTCH) is coulduser-plane not be successfully considered. transmitted.
Only user-plane trafficSDUs (DTCH) Number of DL PDCP of ais considered. data radio bearer with QCI = 6 that
Only user-plane trafficSDUs (DTCH) Number of DL PDCP of ais considered. data radio bearer with QCI = 6 that
could not be successfully transmitted. Only user-plane trafficSDUs (DTCH) Number of DL PDCP of ais considered. data radio bearer with QCI = 7 that
could not be successfully transmitted. Only user-plane trafficSDUs (DTCH) Number of DL PDCP of ais considered. data radio bearer with QCI = 7 that
could not be successfully transmitted. Only user-plane trafficSDUs (DTCH) Number of DL PDCP of ais considered. data radio bearer with QCI = 8 that
could not be successfully transmitted. Only user-plane trafficSDUs (DTCH) Number of DL PDCP of ais considered. data radio bearer with QCI = 8 that
could not be successfully transmitted. Only user-plane trafficSDUs (DTCH) Number of DL PDCP of ais considered. data radio bearer with QCI = 9 that
could not be successfully transmitted. Only user-plane trafficSDUs (DTCH) Number of DL PDCP of ais considered. data radio bearer with QCI = 9 that
could not be successfully transmitted. Only user-plane traffic (DTCH) This measurement provides theis considered. number of transmitted PDCP SDUs
could not be successfully transmitted. Only user-plane traffic (DTCH) This measurement provides theis considered. number of transmitted PDCP SDUs
in downlink for QCI 5 bearers. Only user-plane traffic (DTCH) is considered. This measurement provides the
in downlink for QCI 5 bearers. Only user-plane traffic (DTCH) is considered. This measurement provides the
number of transmitted PDCP SDUs in downlink for QCI 6 bearers. Only user-plane traffic (DTCH) is considered. This measurement provides the
number of transmitted PDCP SDUs in downlink for QCI 6 bearers. Only user-plane traffic (DTCH) is considered. This measurement provides the
number of transmitted PDCP SDUs in downlink for QCI 7 bearers. Only user-plane traffic (DTCH) is considered. This measurement provides the
number of transmitted PDCP SDUs in downlink for QCI 7 bearers. Only user-plane traffic (DTCH) is considered. This measurement provides the
number of transmitted PDCP SDUs in downlink for QCI 8 bearers. Only user-plane traffic (DTCH) is considered.
number of transmitted PDCP SDUs in downlink for QCI 8 bearers. Only user-plane traffic (DTCH) is considered.
This measurement provides the number of transmitted PDCP SDUs in downlink for QCI 9 bearers. Only user-plane traffic (DTCH) is considered. This measurement provides the
This measurement provides the number of transmitted PDCP SDUs in downlink for QCI 9 bearers. Only user-plane traffic (DTCH) is considered. This measurement provides the
number of received PDCP SDUs for QCI 5 bearers. Only user-plane traffic (DTCH) is considered. This measurement provides the
number of received PDCP SDUs for QCI 5 bearers. Only user-plane traffic (DTCH) is considered. This measurement provides the
number of received PDCP SDUs for QCI 6 bearers. Only user-plane traffic (DTCH) is considered. This measurement provides the
number of received PDCP SDUs for QCI 6 bearers. Only user-plane traffic (DTCH) is considered. This measurement provides the
number of received PDCP SDUs for QCI 7 bearers. Only user-plane traffic (DTCH) is considered. This measurement provides the
number of received PDCP SDUs for QCI 7 bearers. Only user-plane traffic (DTCH) is considered. This measurement provides the
number of received PDCP SDUs for QCI 8 bearers. Only user-plane traffic (DTCH) is considered. This measurement provides the
number of received PDCP SDUs for QCI 8 bearers. Only user-plane traffic (DTCH) is considered. This measurement provides the
number of received PDCP SDUs for QCI 9 bearers. Only user-plane traffic (DTCH) is considered. The counter provides the average
number of received PDCP SDUs for QCI 9 bearers. Only user-plane traffic (DTCH) is considered. The counter provides the average
time for HARQ transmissions of QCI 1 data during one measurement period.
time for HARQ transmissions of QCI 1 data during one measurement period.
The counter provides the average time for HARQ transmissions of QCI 2 data during one measurement period.
The counter provides the average time for HARQ transmissions of QCI 2 data during one measurement period.
The counter provides the average time for HARQ transmissions of QCI 3 data during one measurement period.
The counter provides the average time for HARQ transmissions of QCI 3 data during one measurement period.
The counter provides the average time for HARQ transmissions of QCI 4 data during one measurement period.
The counter provides the average time for HARQ transmissions of QCI 4 data during one measurement period.
The counter provides the average time for HARQ transmissions of QCI 5 data during one measurement period.
The counter provides the average time for HARQ transmissions of QCI 5 data during one measurement period.
The counter provides the average time for HARQ transmissions of QCI 6 data during one measurement period.
The counter provides the average time for HARQ transmissions of QCI 6 data during one measurement period.
The counter provides the average time for HARQ transmissions of QCI 7 data during one measurement period.
The counter provides the average time for HARQ transmissions of QCI 7 data during one measurement period.
The counter provides the average time for HARQ transmissions of QCI 8 data during one measurement period.
The counter provides the average time for HARQ transmissions of QCI 8 data during one measurement period.
The counter provides the average time for HARQ transmissions of QCI 9 data during one measurement period.
The counter provides the average time for HARQ transmissions of QCI 9 data during one measurement period.
Number of missing UL PDCP packets of a data bearer that are not delivered to higher layers. Missing packets are identified by the missing PDCP sequence Number of missing UL PDCP number. packets of a data bearer with QCI = Only traffic (DTCH) is 1 thatuser-plane are not delivered to higher considered. layers. Missing packets are
Number of missing UL PDCP packets of a data bearer that are not delivered to higher layers. Missing packets are identified by the missing PDCP sequence Number of missing UL PDCP number. packets of a data bearer with QCI = Only traffic (DTCH) is 1 thatuser-plane are not delivered to higher considered. layers. Missing packets are
identified the missing PDCP Number ofbymissing UL PDCP sequence number. packets of a data bearer with QCI = Only traffic (DTCH) is 2 thatuser-plane are not delivered to higher considered. layers. Missing packets are
identified the missing PDCP Number ofbymissing UL PDCP sequence number. packets of a data bearer with QCI = Only traffic (DTCH) is 2 thatuser-plane are not delivered to higher considered. layers. Missing packets are
identified the missing PDCP Number ofbymissing UL PDCP sequence number. packets of a data bearer with QCI = Only traffic (DTCH) is 3 thatuser-plane are not delivered to higher considered. layers. Missing packets are
identified the missing PDCP Number ofbymissing UL PDCP sequence number. packets of a data bearer with QCI = Only traffic (DTCH) is 3 thatuser-plane are not delivered to higher considered. layers. Missing packets are
identified the missing PDCP Number ofbymissing UL PDCP sequence number. packets of a data bearer with QCI = Only traffic (DTCH) is 4 thatuser-plane are not delivered to higher considered. layers. Missing packets are
identified the missing PDCP Number ofbymissing UL PDCP sequence number. packets of a data bearer with QCI = Only traffic (DTCH) is 4 thatuser-plane are not delivered to higher considered. layers. Missing packets are
identified the missing PDCP Number ofbyDL PDCP SDUs that sequence number. could not be successfully Only user-plane traffic (DTCH) is transmitted. considered. Only user-plane traffic (DTCH) is
identified the missing PDCP Number ofbyDL PDCP SDUs that sequence number. could not be successfully Only user-plane traffic (DTCH) is transmitted. considered. Only user-plane traffic (DTCH) is
considered. Number of DL PDCP SDUs of a data radio bearer with QCI = 1 that could not be successfully transmitted. Only user-plane trafficSDUs (DTCH) Number of DL PDCP of ais considered. data radio bearer with QCI = 2 that
considered. Number of DL PDCP SDUs of a data radio bearer with QCI = 1 that could not be successfully transmitted. Only user-plane trafficSDUs (DTCH) Number of DL PDCP of ais considered. data radio bearer with QCI = 2 that
could not be successfully transmitted. Only user-plane trafficSDUs (DTCH) Number of DL PDCP of ais considered. data radio bearer with QCI = 3 that
could not be successfully transmitted. Only user-plane trafficSDUs (DTCH) Number of DL PDCP of ais considered. data radio bearer with QCI = 3 that
could not be successfully transmitted. Only user-plane traffic (DTCH) is considered.
could not be successfully transmitted. Only user-plane traffic (DTCH) is considered.
Number of DL PDCP SDUs of a data radio bearer with QCI = 4 that could not be successfully transmitted. Only user-plane traffic (DTCH) This measurement provides theis considered. number of attempted Handover
Number of DL PDCP SDUs of a data radio bearer with QCI = 4 that could not be successfully transmitted. Only user-plane traffic (DTCH) This measurement provides theis considered. number of attempted Handover
Preparations, which is caused by the reception of a RLF Indication message. This measurement provides the
Preparations, which is caused by the reception of a RLF Indication message. This measurement provides the
number of successful Handover Preparations, which is caused by the reception of a RLF Indication message. This measurement provides the
number of successful Handover Preparations, which is caused by the reception of a RLF Indication message. This measurement provides the
number of successful Handovers, number of successful Handovers, which is caused by the reception of which is caused by the reception of a RLF Indication message. a RLF Indication message. This measurement provides the number of attempted UE Context Retrievals during RRC Connection Reestablishment procedure.
This measurement provides the number of attempted UE Context Retrievals during RRC Connection Reestablishment procedure.
This measurement provides the number of successful UE Context Retrievals during RRC Connection Reestablishment procedure.
This measurement provides the number of successful UE Context Retrievals during RRC Connection Reestablishment procedure.
This measurement provides the number of failed UE Context Retrievals during RRC Connection Reestablishment procedure. The UE is of ThisContext counterRetrieval provides failure the index caused by the expiration of the the Timing Advance set that has corresponding guard timer. been configured as expected
This measurement provides the number of failed UE Context Retrievals during RRC Connection Reestablishment procedure. The UE is of ThisContext counterRetrieval provides failure the index caused by the expiration of the the Timing Advance set that has corresponding guard timer. been configured as expected
maximum cell size. Its value determines set for the the total TA values This counterthe provides time collection. of UEs (in seconds) that are in the
maximum cell size. Its value determines set for the the total TA values This counterthe provides time collection. of UEs (in seconds) that are in the
range d (in m) from the antenna depending on the value i of the counter This counter provides the total time TIMING_ADV_SET_INDEX: of UEs (in seconds) that are in the irange = 1: d (in 0 <= < the78 m) dfrom antenna idepending = 2: 0 <= d < value 468i of the on the icounter = 3: 0 <= d < 1,006 This the total time iTIMING_ADV_SET_INDEX: = 4:counter 0 <=provides d < 1,505 of UEs (in0 seconds) that are in the ii = 5: <= d < 3,003 = 1: d (in m)78from <=the d
range d (in m) from the antenna depending on the value i of the counter This counter provides the total time TIMING_ADV_SET_INDEX: of UEs (in seconds) that are in the irange = 1: d (in 0 <= < the78 m) dfrom antenna idepending = 2: 0 <= d < value 468i of the on the icounter = 3: 0 <= d < 1,006 This the total time iTIMING_ADV_SET_INDEX: = 4:counter 0 <=provides d < 1,505 of UEs (in0 seconds) that are in the ii = 5: <= d < 3,003 = 1: d (in m)78from <=the d
i = 4: i = 5: i = 6: i = 7:
i = 4: i = 5: i = 6: i = 7:
3,764 <= d < 4,516 7,508 <= d < 9,009 15,015 <= d < 18,018 24,999 <= d < 29,999
3,764 <= d < 4,516 7,508 <= d < 9,009 15,015 <= d < 18,018 24,999 <= d < 29,999
This counter provides the total time of UEs (in seconds) that are in the range d (in m) from the antenna depending on the value i of the counter This counter provides the total time TIMING_ADV_SET_INDEX: of UEs (in seconds) that are in the irange = 1: d (in 312 <= the d < antenna 390 m) from idepending = 2: 1,482 <= d < 1,716 on the value i of the icounter = 3: 3,019 <= d < 3,522 This provides total time iTIMING_ADV_SET_INDEX: = 4:counter 4,516 <= d
This counter provides the total time of UEs (in seconds) that are in the range d (in m) from the antenna depending on the value i of the counter This counter provides the total time TIMING_ADV_SET_INDEX: of UEs (in seconds) that are in the irange = 1: d (in 312 <= the d < antenna 390 m) from idepending = 2: 1,482 <= d < 1,716 on the value i of the icounter = 3: 3,019 <= d < 3,522 This provides total time iTIMING_ADV_SET_INDEX: = 4:counter 4,516 <= d
i = 4: i = 5: i = 6: i = 7:
i = 4: i = 5: i = 6: i = 7:
13,248 <= d < 13,398 26,426 <= d < 26,727 52,853 <= d < 53,453 87,996 <= d < 88,996
13,248 <= d < 13,398 26,426 <= d < 26,727 52,853 <= d < 53,453 87,996 <= d < 88,996
This counter provides the total time of UEs (in seconds) that are in the range d (in m) from the antenna depending on the value i of the counter This counter provides the total time TIMING_ADV_SET_INDEX: of UEs (in seconds) that are in the irange = 1: d (in1,248 <= the d < antenna 1,326 m) from idepending = 2: 4,212 <= d < on the value i 4,290 of the icounter = 3: 8,955 <= d < 9,056 This provides total time iTIMING_ADV_SET_INDEX: = 4:counter 13,398 <= d
This counter provides the total time of UEs (in seconds) that are in the range d (in m) from the antenna depending on the value i of the counter This counter provides the total time TIMING_ADV_SET_INDEX: of UEs (in seconds) that are in the irange = 1: d (in1,248 <= the d < antenna 1,326 m) from idepending = 2: 4,212 <= d < on the value i 4,290 of the icounter = 3: 8,955 <= d < 9,056 This provides total time iTIMING_ADV_SET_INDEX: = 4:counter 13,398 <= d
i = 4: i = 5: i = 6: i = 7:
i = 4: i = 5: i = 6: i = 7:
15,054 <= d < 15,807 30,030 <= d < 31,532 60,060 <= d < 63,063 99,996 <= d < 104,996
15,054 <= d < 15,807 30,030 <= d < 31,532 60,060 <= d < 63,063 99,996 <= d < 104,996
This counter provides the total time of UEs (in seconds) that are in the range d (in m) from the antenna depending on the value i of the counter This counter provides the total time TIMING_ADV_SET_INDEX: of UEs (in seconds) that are in the irange = 1: d (in m) 2,184 < 2,262 from<= thedantenna idepending = 2: 5,226 <= d 5,616 on the value i
This counter provides the total time of UEs (in seconds) that are in the range d (in m) from the antenna depending on the value i of the counter This counter provides the total time TIMING_ADV_SET_INDEX: of UEs (in seconds) that are in the irange = 1: d (in m) 2,184 < 2,262 from<= thedantenna idepending = 2: 5,226 <= d 5,616 on the value i
This counter provides the total number of CRAN receptions with 4Rx IRC algorithm selection.
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This counter provides the total number of CRAN receptions with 8Rx IRC algorithm selection.
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This measurement provides the average number of activated MBMS sessions in the cell (Multimedia Broadcast/Multicast Service, 3GPP TS TS 23.246, TS 36.331). This36.300, measurement provides the An MBMS-session-related MBMS aggregated user data volume (eUu bearer is established an in interface) of all MBMSwhen sessions MBMS is started the cell session (Multimedia (activated). An MBMS-sessionBroadcast/Multicast Service, the 3GPP This measurement provides related MBMS bearer isTS released TS 36.300, TS 23.246, 36.331); aggregated user session data volume (M1 when MBMS isprovides stopped that is,an this interface) ofmeasurement all MBMS sessions in (de-activated). the of all MBMS user data, the sum cell (Multimedia which were transmitted on the3GPP eUu Broadcast/Multicast Service, This measurement provides the interface. TS 36.300, 23.246, TSwhich 36.445); MBMS userTS data volume was that is, this measurement provides lost on the M1-interface (Multimedia the sum of all MBMSService, user data, Broadcast/Multicast 3GPP which were received by the36.445). eNB on TS 36.300, TS 23.246, TS This measurement provides the the M1-interface. Lost MBMS arewhich defined MBMS user user data data volume was as MBMS user data which were not dropped on the M1-interface properly received by the eNB via (Multimedia Broadcast/Multicast the M1-interface due to missing Service, 3GPP TS 36.300, TS packet sequence numbers. 23.246, TS 36.445). Dropped MBMS user data are defined as MBMS user data which were not properly received by the eNB via the M1-interface due to missing receive buffer resources or due to reception of invalid packets.
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#N/A
#N/A
#N/A
#N/A
This measurement provides the MBMS user data volume which was dropped (Multimedia Broadcast/Multicast Service, 3GPP TS TS 23.246, TS 36.445). This36.300, measurement is provided for Dropped MBMS user data Subband 1 downlink Signalare to defined as MBMS user data Interference and Noise Ratiowhich were dropped due to RLC (SINR) post-compensationprotocol values packet drops or than due to MBMS that are greater or equal tofor -10 This measurement is provided SYNC protocol (3GPP TS to 25.446) dB and less than or equal -8 dB. Subband 1 downlink Signal to packet drops. PRB range ofand subband according Interference Noise 1 Ratio to frequency: (SINR) post-compensation values 3 MHz and 5 MHz refers to and PRB#0 that are greater than dB less This measurement is -8 provided for to PRB#3 than or equal to -6 dB. PRB range Subband 1 downlink Signal to 10 MHz refers to PRB#0 of subband 1and according toto PRB#5 Interference Noise Ratio 15 MHz and 20 MHz refers to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to and PRB#0 that are greater than -6 dB less This measurement is provided for to PRB#3 than or equal to -4 dB. PRB range Subband 1 downlink Signal to 10 MHz refers to PRB#0 of subband 1and according toto PRB#5 Interference Noise Ratio 15 MHz and 20 MHz refers to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to and PRB#0 that are greater than -4 dB less This measurement is provided for to PRB#3 than or equal to -2 dB. PRB range Subband 1 downlink Signal to 10 MHz refers to PRB#0 of subband 1and according toto PRB#5 Interference Noise Ratio 15 MHz and 20 MHz refers to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to and PRB#0 that are greater than -2 dB less This measurement is provided for to PRB#3 than or equal to 0 dB. PRB range of Subband 1 downlink Signal to 10 MHz refers to PRB#0 to PRB#5 subband 1 according to frequency: Interference Noise Ratio 15 MHzand and5and 20 MHz refers to 3 MHz MHz refers to values PRB#0 (SINR) post-compensation PRB#0 to PRB#7 to PRB#3 that are greater thanis 0provided dB and less This measurement for 10 MHz referstoto2PRB#0 to range PRB#5 than or equal dB. PRB of Subband 1 downlink Signal to 15 MHz and 20 MHz refers to subband 1 according to frequency: Interference and Noise Ratio PRB#0 to PRB#7 3 MHz and 5 MHz refers to values PRB#0 (SINR) post-compensation to PRB#3 that are greater thanis 2provided dB and less This measurement for 10 MHz referstoto4PRB#0 to range PRB#5 than or equal dB. PRB of Subband 1 downlink Signal to 15 MHz and 20 MHz refers to subband 1 according to frequency: Interference and Noise Ratio PRB#0 to PRB#7 3 MHz and 5 MHz refers to values PRB#0 (SINR) post-compensation to PRB#3 that are greater thanis 4provided dB and less This measurement for 10 MHz referstoto6PRB#0 to range PRB#5 than or equal dB. PRB of Subband 1 downlink Signal to 15 MHz and 20 MHz refers to subband 1 according to frequency: Interference and Noise Ratio PRB#0 to PRB#7 3 MHz and 5 MHz refers to values PRB#0 (SINR) post-compensation to PRB#3 that are greater thanis 6provided dB and less This measurement for 10 MHz referstoto8PRB#0 to range PRB#5 than or equal dB. PRB of Subband 1 downlink Signal to 15 MHz and 20 MHz refers to subband 1 according to frequency: Interference and Noise Ratio PRB#0 to PRB#7 3 MHz and 5 MHz refers to values PRB#0 (SINR) post-compensation to PRB#3 that are greater thanis 8provided dB and less This measurement for 10 MHz referstoto10 PRB#0 to PRB#5 than or equal dB. PRB Subband 1 downlink Signal torange 15 MHz and 20 MHz refers to of subband 1and according to Interference PRB#0 to PRB#7Noise Ratio frequency: (SINR) post-compensation values 3 MHz 5 MHz refers to PRB#0 that areand greater than 10 dB and to PRB#3 less than or equal to 12 dB. PRB 10 MHz to PRB#0 to PRB#5 range of refers subband 1 according to 15 MHz and 20 MHz refers to frequency: PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0
#N/A
to PRB#3 10 MHz refers to PRB#0 to PRB#5 15 MHz and 20 MHz refers to PRB#0 to PRB#7
to PRB#3 10 MHz refers to PRB#0 to PRB#5 15 MHz and 20 MHz refers to PRB#0 to PRB#7
This measurement is provided for Subband 1 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis or equal tofor -10 This are measurement provided dB and less than or equal to -8 dB. Subband 1 downlink Signal to PRB range ofand subband according Interference Noise 1 Ratio to frequency: (SINR) post-compensation values 3 MHz and 5 MHz refers to and PRB#0 that are greater than dB less This measurement is -8 provided for to PRB#3 than or equal to -6 dB. PRB range Subband 1 downlink Signal to 10 MHz refers to PRB#0 of subband 1and according toto PRB#5 Interference Noise Ratio 15 MHz and 20 MHz refers to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to and PRB#0 that are greater than -6 dB less This measurement is provided for to PRB#3 than or equal to -4 dB. PRB range Subband 1 downlink Signal to 10 MHz refers to PRB#0 of subband 1and according toto PRB#5 Interference Noise Ratio 15 MHz and 20 MHz refers to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to and PRB#0 that are greater than -4 dB less This measurement is provided for to PRB#3 than or equal to -2 dB. PRB range Subband 1 downlink Signal to 10 MHz refers to PRB#0 of subband 1and according toto PRB#5 Interference Noise Ratio 15 MHz and 20 MHz refers to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to and PRB#0 that are greater than -2 dB less This measurement is provided for to PRB#3 than or equal to 0 dB. PRB range of Subband 1 downlink Signal to 10 MHz refers to PRB#0 to PRB#5 subband 1 according to frequency: Interference Noise Ratio 15 MHzand and5and 20 MHz refers to 3 MHz MHz refers to values PRB#0 (SINR) post-compensation PRB#0 to PRB#7 to PRB#3 that are greater thanis 0provided dB and less This measurement for 10 MHz referstoto2PRB#0 to range PRB#5 than or equal dB. PRB of Subband 1 downlink Signal to 15 MHz and 20 MHz refers to subband 1 according to frequency: Interference and Noise Ratio PRB#0 to PRB#7 3 MHz and 5 MHz refers to values PRB#0 (SINR) post-compensation to PRB#3 that are greater thanis 2provided dB and less This measurement for 10 MHz referstoto4PRB#0 to range PRB#5 than or equal dB. PRB of Subband 1 downlink Signal to 15 MHz and 20 MHz refers to subband 1 according to frequency: Interference and Noise Ratio PRB#0 to PRB#7 3 MHz and 5 MHz refers to values PRB#0 (SINR) post-compensation to PRB#3 that are greater thanis 4provided dB and less This measurement for 10 MHz referstoto6PRB#0 to range PRB#5 than or equal dB. PRB of Subband 1 downlink Signal to 15 MHz and 20 MHz refers to subband 1 according to frequency: Interference and Noise Ratio PRB#0 to PRB#7 3 MHz and 5 MHz refers to values PRB#0 (SINR) post-compensation to PRB#3 that are greater thanis 6provided dB and less This measurement for 10 MHz referstoto8PRB#0 to range PRB#5 than or equal dB. PRB of Subband 1 downlink Signal to 15 MHz and 20 MHz refers to subband 1 according to frequency: Interference and Noise Ratio PRB#0 to PRB#7 3 MHz and 5 MHz refers to values PRB#0 (SINR) post-compensation to PRB#3 that are greater thanis 8provided dB and less This measurement for 10 MHz referstoto10 PRB#0 to PRB#5 than or equal dB. PRB Subband 1 downlink Signal torange 15 MHz and 20 MHz refers to of subband 1and according to Interference PRB#0 to PRB#7Noise Ratio frequency: (SINR) post-compensation values 3 MHz 5 MHz refers to PRB#0 that areand greater than 10 dB and to PRB#3 less than or equal to 12 dB. PRB 10 MHz to PRB#0 to PRB#5 range of refers subband 1 according to 15 MHz and 20 MHz refers to frequency: PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0
This measurement is provided for Subband 1 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 12 dB andfor This are measurement provided less than or equal to 14 db. PRB Subband 1 downlink Signal to range of subband 1 according Interference and Noise Ratio to frequency: (SINR) post-compensation values 3 MHz and 5 MHz refers to PRB#0 that are greater than dB andfor This measurement is 14 provided to PRB#3 less than or equal to 16 dB. PRB Subband 1 downlink Signal to 10 MHz refers to PRB#0 to PRB#5 range of subband 1 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 that are greater than 16 dB andfor This measurement is provided to PRB#3 less than or equal to 18 dB. PRB Subband 1 downlink Signal to 10 MHz refers to PRB#0 to PRB#5 range of subband 1 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 that are greater than 18 dB andfor This measurement is provided to PRB#3 less than or equal to 20 dB. PRB Subband 1 downlink Signal to 10 MHz refers to PRB#0 to PRB#5 range of subband 1 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 that are greater than 20 dB andfor This measurement is provided to PRB#3 less than or equal to 22 dB. PRB Subband 1 downlink Signal to 10 MHz refers to PRB#0 to PRB#5 range of subband 1 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 that are greater than 22 dB andfor This measurement is provided to PRB#3 less than or equal to 24 dB. PRB Subband 1 downlink Signal to 10 MHz refers to PRB#0 to PRB#5 range of subband 1 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 that are greater than 24 dB andfor This measurement is provided to PRB#3 less than or equal to 26 dB. PRB Subband 1 downlink Signal to 10 MHz refers to PRB#0 to PRB#5 range of subband 1 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 that are greater than 26 dB andfor This measurement is provided to PRB#3 less than or equal to 28 dB. PRB Subband 1 downlink Signal to 10 MHz refers to PRB#0 to PRB#5 range of subband 1 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 that are greater than 28 dB andfor This measurement is provided to PRB#3 less than or equal to 30 dB. PRB Subband 2 downlink Signal to 10 MHz refers to PRB#0 to PRB#5 range of subband 1 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 that are greater than or equal -10 This measurement is providedtofor to PRB#3 dB and less than or equal to -8 dB. Subband 2 downlink Signal to 10 MHz refers to PRB#0 to PRB#5 PRB range ofand subband 2 according Interference Noise Ratio 15 MHz and 20 MHz refers to to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to and PRB#4 that are greater than -8 dB less This measurement is provided for to PRB#7 than or equal to -6 dB. PRB range Subband 2 downlink Signal to 10 MHz refers to PRB#6 of subband 2and according toto PRB#11 Interference Noise Ratio 15 MHz and 20 MHz refers to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz 5 MHz refers to and PRB#4 that areand greater than -6 dB less to PRB#7 than or equal to -4 dB. PRB range 10 MHz refers to PRB#6toto PRB#11 of subband 2 according 15 MHz and 20 MHz refers to frequency: PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4
This measurement is provided for Subband 1 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 12 dB andfor This are measurement provided less than or equal to 14 db. PRB Subband 1 downlink Signal to range of subband 1 according Interference and Noise Ratio to frequency: (SINR) post-compensation values 3 MHz and 5 MHz refers to PRB#0 that are greater than dB andfor This measurement is 14 provided to PRB#3 less than or equal to 16 dB. PRB Subband 1 downlink Signal to 10 MHz refers to PRB#0 to PRB#5 range of subband 1 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 that are greater than 16 dB andfor This measurement is provided to PRB#3 less than or equal to 18 dB. PRB Subband 1 downlink Signal to 10 MHz refers to PRB#0 to PRB#5 range of subband 1 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 that are greater than 18 dB andfor This measurement is provided to PRB#3 less than or equal to 20 dB. PRB Subband 1 downlink Signal to 10 MHz refers to PRB#0 to PRB#5 range of subband 1 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 that are greater than 20 dB andfor This measurement is provided to PRB#3 less than or equal to 22 dB. PRB Subband 1 downlink Signal to 10 MHz refers to PRB#0 to PRB#5 range of subband 1 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 that are greater than 22 dB andfor This measurement is provided to PRB#3 less than or equal to 24 dB. PRB Subband 1 downlink Signal to 10 MHz refers to PRB#0 to PRB#5 range of subband 1 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 that are greater than 24 dB andfor This measurement is provided to PRB#3 less than or equal to 26 dB. PRB Subband 1 downlink Signal to 10 MHz refers to PRB#0 to PRB#5 range of subband 1 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 that are greater than 26 dB andfor This measurement is provided to PRB#3 less than or equal to 28 dB. PRB Subband 1 downlink Signal to 10 MHz refers to PRB#0 to PRB#5 range of subband 1 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 that are greater than 28 dB andfor This measurement is provided to PRB#3 less than or equal to 30 dB. PRB Subband 2 downlink Signal to 10 MHz refers to PRB#0 to PRB#5 range of subband 1 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 that are greater than or equal -10 This measurement is providedtofor to PRB#3 dB and less than or equal to -8 dB. Subband 2 downlink Signal to 10 MHz refers to PRB#0 to PRB#5 PRB range ofand subband 2 according Interference Noise Ratio 15 MHz and 20 MHz refers to to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to and PRB#4 that are greater than -8 dB less This measurement is provided for to PRB#7 than or equal to -6 dB. PRB range Subband 2 downlink Signal to 10 MHz refers to PRB#6 of subband 2and according toto PRB#11 Interference Noise Ratio 15 MHz and 20 MHz refers to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz 5 MHz refers to and PRB#4 that areand greater than -6 dB less to PRB#7 than or equal to -4 dB. PRB range 10 MHz refers to PRB#6toto PRB#11 of subband 2 according 15 MHz and 20 MHz refers to frequency: PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4
to PRB#7 10 MHz refers to PRB#6 to PRB#11 15 MHz and 20 MHz refers to PRB#8 to PRB#15
to PRB#7 10 MHz refers to PRB#6 to PRB#11 15 MHz and 20 MHz refers to PRB#8 to PRB#15
This measurement is provided for Subband 2 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis -4 dB andfor less This are measurement provided than or equal to -2 dB. PRB range Subband 2 downlink Signal to of subband 2and according to Interference Noise Ratio frequency: (SINR) post-compensation values 3 MHz and 5 MHz refers to and PRB#4 that are greater than dB less This measurement is -2 provided for to PRB#7 than or equal to 0 dB. PRB range of Subband 2 downlink Signal to 10 MHz refers to PRB#6 to PRB#11 subband 2 according to frequency: Interference Noise Ratio 15 MHzand and5and 20 MHz refers to 3 MHz MHz refers to values PRB#4 (SINR) post-compensation PRB#8 to PRB#15 to PRB#7 that are greater thanis 0provided dB and less This measurement for 10 MHz referstoto2PRB#6 to range PRB#11 than or equal dB. PRB of Subband 2 downlink Signal to 15 MHz and 20 MHz refers to subband 2 according to frequency: Interference and Noise Ratio PRB#8 to PRB#15 3 MHz and 5 MHz refers to values PRB#4 (SINR) post-compensation to PRB#7 that are greater thanis 2provided dB and less This measurement for 10 MHz referstoto4PRB#6 to range PRB#11 than or equal dB. PRB of Subband 2 downlink Signal to 15 MHz and 20 MHz refers to subband 2 according to frequency: Interference and Noise Ratio PRB#8 to PRB#15 3 MHz and 5 MHz refers to values PRB#4 (SINR) post-compensation to PRB#7 that are greater thanis 4provided dB and less This measurement for 10 MHz referstoto6PRB#6 to range PRB#11 than or equal dB. PRB of Subband 2 downlink Signal to 15 MHz and 20 MHz refers to subband 2 according to frequency: Interference and Noise Ratio PRB#8 to PRB#15 3 MHz and 5 MHz refers to values PRB#4 (SINR) post-compensation to PRB#7 that are greater thanis 6provided dB and less This measurement for 10 MHz referstoto8PRB#6 to range PRB#11 than or equal dB. PRB of Subband 2 downlink Signal to 15 MHz and 20 MHz refers to subband 2 according to frequency: Interference and Noise Ratio PRB#8 to PRB#15 3 MHz and 5 MHz refers to values PRB#4 (SINR) post-compensation to PRB#7 that are greater thanis 8provided dB and less This measurement for 10 MHz referstoto10 PRB#6 to PRB#11 than or equal dB. PRB Subband 2 downlink Signal torange 15 MHz and 20 MHz refers to of subband 2and according to Interference Noise Ratio PRB#8 to PRB#15 frequency: (SINR) post-compensation values 3 MHz and 5 MHz refers to PRB#4 that are greater than dB andfor This measurement is 10 provided to PRB#7 less than or equal to 12 dB. PRB Subband 2 downlink Signal to 10 MHz refers to PRB#6 to PRB#11 range of subband 2 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 that are greater than 12 dB andfor This measurement is provided to PRB#7 less than or equal to 14 db. PRB Subband 2 downlink Signal to 10 MHz refers to PRB#6 to PRB#11 range of subband 2 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 that are greater than 14 dB andfor This measurement is provided to PRB#7 less than or equal to 16 dB. PRB Subband 2 downlink Signal to 10 MHz refers to PRB#6 to PRB#11 range of subband 2 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 that are greater than 16 dB andfor This measurement is provided to PRB#7 less than or equal to 18 dB. PRB Subband 2 downlink Signal to 10 MHz refers to PRB#6 to PRB#11 range of subband 2 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz 5 MHz refers to PRB#4 that areand greater than 18 dB and to PRB#7 less than or equal to 20 dB. PRB 10 MHz to PRB#6 to PRB#11 range of refers subband 2 according to 15 MHz and 20 MHz refers to frequency: PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4
This measurement is provided for Subband 2 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis -4 dB andfor less This are measurement provided than or equal to -2 dB. PRB range Subband 2 downlink Signal to of subband 2and according to Interference Noise Ratio frequency: (SINR) post-compensation values 3 MHz and 5 MHz refers to and PRB#4 that are greater than dB less This measurement is -2 provided for to PRB#7 than or equal to 0 dB. PRB range of Subband 2 downlink Signal to 10 MHz refers to PRB#6 to PRB#11 subband 2 according to frequency: Interference Noise Ratio 15 MHzand and5and 20 MHz refers to 3 MHz MHz refers to values PRB#4 (SINR) post-compensation PRB#8 to PRB#15 to PRB#7 that are greater thanis 0provided dB and less This measurement for 10 MHz referstoto2PRB#6 to range PRB#11 than or equal dB. PRB of Subband 2 downlink Signal to 15 MHz and 20 MHz refers to subband 2 according to frequency: Interference and Noise Ratio PRB#8 to PRB#15 3 MHz and 5 MHz refers to values PRB#4 (SINR) post-compensation to PRB#7 that are greater thanis 2provided dB and less This measurement for 10 MHz referstoto4PRB#6 to range PRB#11 than or equal dB. PRB of Subband 2 downlink Signal to 15 MHz and 20 MHz refers to subband 2 according to frequency: Interference and Noise Ratio PRB#8 to PRB#15 3 MHz and 5 MHz refers to values PRB#4 (SINR) post-compensation to PRB#7 that are greater thanis 4provided dB and less This measurement for 10 MHz referstoto6PRB#6 to range PRB#11 than or equal dB. PRB of Subband 2 downlink Signal to 15 MHz and 20 MHz refers to subband 2 according to frequency: Interference and Noise Ratio PRB#8 to PRB#15 3 MHz and 5 MHz refers to values PRB#4 (SINR) post-compensation to PRB#7 that are greater thanis 6provided dB and less This measurement for 10 MHz referstoto8PRB#6 to range PRB#11 than or equal dB. PRB of Subband 2 downlink Signal to 15 MHz and 20 MHz refers to subband 2 according to frequency: Interference and Noise Ratio PRB#8 to PRB#15 3 MHz and 5 MHz refers to values PRB#4 (SINR) post-compensation to PRB#7 that are greater thanis 8provided dB and less This measurement for 10 MHz referstoto10 PRB#6 to PRB#11 than or equal dB. PRB Subband 2 downlink Signal torange 15 MHz and 20 MHz refers to of subband 2and according to Interference Noise Ratio PRB#8 to PRB#15 frequency: (SINR) post-compensation values 3 MHz and 5 MHz refers to PRB#4 that are greater than dB andfor This measurement is 10 provided to PRB#7 less than or equal to 12 dB. PRB Subband 2 downlink Signal to 10 MHz refers to PRB#6 to PRB#11 range of subband 2 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 that are greater than 12 dB andfor This measurement is provided to PRB#7 less than or equal to 14 db. PRB Subband 2 downlink Signal to 10 MHz refers to PRB#6 to PRB#11 range of subband 2 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 that are greater than 14 dB andfor This measurement is provided to PRB#7 less than or equal to 16 dB. PRB Subband 2 downlink Signal to 10 MHz refers to PRB#6 to PRB#11 range of subband 2 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 that are greater than 16 dB andfor This measurement is provided to PRB#7 less than or equal to 18 dB. PRB Subband 2 downlink Signal to 10 MHz refers to PRB#6 to PRB#11 range of subband 2 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz 5 MHz refers to PRB#4 that areand greater than 18 dB and to PRB#7 less than or equal to 20 dB. PRB 10 MHz to PRB#6 to PRB#11 range of refers subband 2 according to 15 MHz and 20 MHz refers to frequency: PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4
to PRB#7 10 MHz refers to PRB#6 to PRB#11 15 MHz and 20 MHz refers to PRB#8 to PRB#15
to PRB#7 10 MHz refers to PRB#6 to PRB#11 15 MHz and 20 MHz refers to PRB#8 to PRB#15
This measurement is provided for Subband 2 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 20 dB andfor This are measurement provided less than or equal to 22 dB. PRB Subband 2 downlink Signal to range of subband 2 according Interference and Noise Ratio to frequency: (SINR) post-compensation values 3 MHz and 5 MHz refers to PRB#4 that are greater than dB andfor This measurement is 22 provided to PRB#7 less than or equal to 24 dB. PRB Subband 2 downlink Signal to 10 MHz refers to PRB#6 to PRB#11 range of subband 2 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 that are greater than 24 dB andfor This measurement is provided to PRB#7 less than or equal to 26 dB. PRB Subband 2 downlink Signal to 10 MHz refers to PRB#6 to PRB#11 range of subband 2 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 that are greater than 26 dB andfor This measurement is provided to PRB#7 less than or equal to 28 dB. PRB Subband 2 downlink Signal to 10 MHz refers to PRB#6 to PRB#11 range of subband 2 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 that are greater than 28 dB andfor This measurement is provided to PRB#7 less than or equal to 30 dB. PRB Subband 3 downlink Signal to 10 MHz refers to PRB#6 to PRB#11 range of subband 2 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 that are greater than or equal -10 This measurement is providedtofor to PRB#7 dB and less than or equal to -8 dB. Subband 3 downlink Signal to 10 MHz refers to PRB#6 to PRB#11 PRB range ofand subband 3 according Interference Noise Ratio 15 MHz and 20 MHz refers to to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refers to and PRB#8 that are greater than -8 dB less This measurement is provided for to PRB#11 than or equal to -6 dB. PRB range Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 of subband 3and according to Interference Noise Ratio PRB#17 frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to and PRB#8 that are greater than -6 dB less PRB#16 to PRB#23 This measurement is provided for to PRB#11 than or equal to -4 dB. PRB range Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 of subband 3and according to Interference Noise Ratio PRB#17 frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to and PRB#8 that are greater than -4 dB less PRB#16 to PRB#23 This measurement is provided for to PRB#11 than or equal to -2 dB. PRB range Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 of subband 3and according to Interference Noise Ratio PRB#17 frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to and PRB#8 that are greater than -2 dB less PRB#16 to PRB#23 This measurement is provided for to PRB#11 than or equal to 0 dB. PRB range of Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 subband 3 according to frequency: Interference and Noise Ratio PRB#17 3 MHz and 5 MHz refers to values PRB#8 (SINR) post-compensation 15 MHz and 20 MHz refers to to PRB#11 that are greater thanis 0provided dB and less PRB#16 to PRB#23 This measurement 10 MHz refers to2PRB#12 to for of than or equal to dB. PRB Subband 3 downlink Signal range to PRB#17 subband 3 according toRatio frequency: Interference and Noise 15 MHz and 20 MHz refers to 3 MHz and 5 MHz refers to values PRB#8 (SINR) post-compensation PRB#16 to PRB#23 to PRB#11 that are greater than 2 dB and less 10 MHz referstoto4PRB#12 than or equal dB. PRBtorange of PRB#17 subband 3 according to frequency: 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 PRB#16 to PRB#23 to PRB#11 10 MHz refers to PRB#12 to PRB#17 15 MHz and 20 MHz refers to PRB#16 to PRB#23
This measurement is provided for Subband 2 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 20 dB andfor This are measurement provided less than or equal to 22 dB. PRB Subband 2 downlink Signal to range of subband 2 according Interference and Noise Ratio to frequency: (SINR) post-compensation values 3 MHz and 5 MHz refers to PRB#4 that are greater than dB andfor This measurement is 22 provided to PRB#7 less than or equal to 24 dB. PRB Subband 2 downlink Signal to 10 MHz refers to PRB#6 to PRB#11 range of subband 2 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 that are greater than 24 dB andfor This measurement is provided to PRB#7 less than or equal to 26 dB. PRB Subband 2 downlink Signal to 10 MHz refers to PRB#6 to PRB#11 range of subband 2 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 that are greater than 26 dB andfor This measurement is provided to PRB#7 less than or equal to 28 dB. PRB Subband 2 downlink Signal to 10 MHz refers to PRB#6 to PRB#11 range of subband 2 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 that are greater than 28 dB andfor This measurement is provided to PRB#7 less than or equal to 30 dB. PRB Subband 3 downlink Signal to 10 MHz refers to PRB#6 to PRB#11 range of subband 2 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 that are greater than or equal -10 This measurement is providedtofor to PRB#7 dB and less than or equal to -8 dB. Subband 3 downlink Signal to 10 MHz refers to PRB#6 to PRB#11 PRB range ofand subband 3 according Interference Noise Ratio 15 MHz and 20 MHz refers to to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refers to and PRB#8 that are greater than -8 dB less This measurement is provided for to PRB#11 than or equal to -6 dB. PRB range Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 of subband 3and according to Interference Noise Ratio PRB#17 frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to and PRB#8 that are greater than -6 dB less PRB#16 to PRB#23 This measurement is provided for to PRB#11 than or equal to -4 dB. PRB range Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 of subband 3and according to Interference Noise Ratio PRB#17 frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to and PRB#8 that are greater than -4 dB less PRB#16 to PRB#23 This measurement is provided for to PRB#11 than or equal to -2 dB. PRB range Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 of subband 3and according to Interference Noise Ratio PRB#17 frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to and PRB#8 that are greater than -2 dB less PRB#16 to PRB#23 This measurement is provided for to PRB#11 than or equal to 0 dB. PRB range of Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 subband 3 according to frequency: Interference and Noise Ratio PRB#17 3 MHz and 5 MHz refers to values PRB#8 (SINR) post-compensation 15 MHz and 20 MHz refers to to PRB#11 that are greater thanis 0provided dB and less PRB#16 to PRB#23 This measurement 10 MHz refers to2PRB#12 to for of than or equal to dB. PRB Subband 3 downlink Signal range to PRB#17 subband 3 according toRatio frequency: Interference and Noise 15 MHz and 20 MHz refers to 3 MHz and 5 MHz refers to values PRB#8 (SINR) post-compensation PRB#16 to PRB#23 to PRB#11 that are greater than 2 dB and less 10 MHz referstoto4PRB#12 than or equal dB. PRBtorange of PRB#17 subband 3 according to frequency: 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 PRB#16 to PRB#23 to PRB#11 10 MHz refers to PRB#12 to PRB#17 15 MHz and 20 MHz refers to PRB#16 to PRB#23
This measurement is provided for Subband 3 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 4provided dB and less This are measurement for than or equal to 6 dB. PRB of Subband 3 downlink Signal range to subband 3 according to frequency: Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8 (SINR) post-compensation to PRB#11 that are greater thanis 6provided dB and less This measurement for 10 MHz referstoto8PRB#12 torange than or equal dB. PRB of Subband 3 downlink Signal to PRB#17 subband 3 according to frequency: Interference Noise Ratio 15 MHzand and5and 20 MHz refers to 3 MHz MHz refers to values PRB#8 (SINR) post-compensation PRB#16 to PRB#23 to PRB#11 that are greater thanis 8provided dB and less This measurement for 10 MHz referstoto10 PRB#12 to range than or equal dB. PRB Subband 3 downlink Signal to PRB#17 of subband 3and according to Interference Noise Ratio 15 MHz and 20 MHz refers to frequency: (SINR) post-compensation values PRB#16 to PRB#23 3 MHz and 5 MHz refers to PRB#8 that are greater than dB andfor This measurement is 10 provided to PRB#11 less than or equal to 12 dB. PRB Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 range of subband 3 according Interference and Noise Ratio to PRB#17 frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 that are greater than 12 dB andfor PRB#16 to PRB#23 This measurement is provided to PRB#11 less than or equal to 14 db. PRB Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 range of subband 3 according Interference and Noise Ratio to PRB#17 frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 that are greater than 14 dB andfor PRB#16 to PRB#23 This measurement is provided to PRB#11 less than or equal to 16 dB. PRB Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 range of subband 3 according Interference and Noise Ratio to PRB#17 frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 that are greater than 16 dB andfor PRB#16 to PRB#23 This measurement is provided to PRB#11 less than or equal to 18 dB. PRB Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 range of subband 3 according Interference and Noise Ratio to PRB#17 frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 that are greater than 18 dB andfor PRB#16 to PRB#23 This measurement is provided to PRB#11 less than or equal to 20 dB. PRB Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 range of subband 3 according Interference and Noise Ratio to PRB#17 frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 that are greater than 20 dB andfor PRB#16 to PRB#23 This measurement is provided to PRB#11 less than or equal to 22 dB. PRB Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 range of subband 3 according Interference and Noise Ratio to PRB#17 frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 that are greater than 22 dB andfor PRB#16 to PRB#23 This measurement is provided to PRB#11 less than or equal to 24 dB. PRB Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 range of subband 3 according Interference and Noise Ratio to PRB#17 frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 that are greater than 24 dB andfor PRB#16 to PRB#23 This measurement is provided to PRB#11 less than or equal to 26 dB. PRB Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 range of subband 3 according Interference and Noise Ratio to PRB#17 frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 that are greater than 26 dB and PRB#16 to PRB#23 to PRB#11 less than or equal to 28 dB. PRB 10 MHz to PRB#12 to to range of refers subband 3 according PRB#17 frequency: 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 PRB#16 to PRB#23 to PRB#11 10 MHz refers to PRB#12 to PRB#17 15 MHz and 20 MHz refers to PRB#16 to PRB#23
This measurement is provided for Subband 3 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 4provided dB and less This are measurement for than or equal to 6 dB. PRB of Subband 3 downlink Signal range to subband 3 according to frequency: Interference and Noise Ratio 3 MHz and 5 MHz refers to values PRB#8 (SINR) post-compensation to PRB#11 that are greater thanis 6provided dB and less This measurement for 10 MHz referstoto8PRB#12 torange than or equal dB. PRB of Subband 3 downlink Signal to PRB#17 subband 3 according to frequency: Interference Noise Ratio 15 MHzand and5and 20 MHz refers to 3 MHz MHz refers to values PRB#8 (SINR) post-compensation PRB#16 to PRB#23 to PRB#11 that are greater thanis 8provided dB and less This measurement for 10 MHz referstoto10 PRB#12 to range than or equal dB. PRB Subband 3 downlink Signal to PRB#17 of subband 3and according to Interference Noise Ratio 15 MHz and 20 MHz refers to frequency: (SINR) post-compensation values PRB#16 to PRB#23 3 MHz and 5 MHz refers to PRB#8 that are greater than dB andfor This measurement is 10 provided to PRB#11 less than or equal to 12 dB. PRB Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 range of subband 3 according Interference and Noise Ratio to PRB#17 frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 that are greater than 12 dB andfor PRB#16 to PRB#23 This measurement is provided to PRB#11 less than or equal to 14 db. PRB Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 range of subband 3 according Interference and Noise Ratio to PRB#17 frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 that are greater than 14 dB andfor PRB#16 to PRB#23 This measurement is provided to PRB#11 less than or equal to 16 dB. PRB Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 range of subband 3 according Interference and Noise Ratio to PRB#17 frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 that are greater than 16 dB andfor PRB#16 to PRB#23 This measurement is provided to PRB#11 less than or equal to 18 dB. PRB Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 range of subband 3 according Interference and Noise Ratio to PRB#17 frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 that are greater than 18 dB andfor PRB#16 to PRB#23 This measurement is provided to PRB#11 less than or equal to 20 dB. PRB Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 range of subband 3 according Interference and Noise Ratio to PRB#17 frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 that are greater than 20 dB andfor PRB#16 to PRB#23 This measurement is provided to PRB#11 less than or equal to 22 dB. PRB Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 range of subband 3 according Interference and Noise Ratio to PRB#17 frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 that are greater than 22 dB andfor PRB#16 to PRB#23 This measurement is provided to PRB#11 less than or equal to 24 dB. PRB Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 range of subband 3 according Interference and Noise Ratio to PRB#17 frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 that are greater than 24 dB andfor PRB#16 to PRB#23 This measurement is provided to PRB#11 less than or equal to 26 dB. PRB Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 range of subband 3 according Interference and Noise Ratio to PRB#17 frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 that are greater than 26 dB and PRB#16 to PRB#23 to PRB#11 less than or equal to 28 dB. PRB 10 MHz to PRB#12 to to range of refers subband 3 according PRB#17 frequency: 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 PRB#16 to PRB#23 to PRB#11 10 MHz refers to PRB#12 to PRB#17 15 MHz and 20 MHz refers to PRB#16 to PRB#23
This measurement is provided for Subband 3 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 28 dB andfor This are measurement provided less than or equal to 30 dB. PRB Subband 4 downlink Signal to range of subband 3 according Interference and Noise Ratio to frequency: (SINR) post-compensation values 3 MHz and 5 MHz refers to PRB#8 that are greater than equal tofor -10 This measurement is or provided to PRB#11 dB and less than or equal to -8 dB. Subband 4 downlink Signaltoto 10 MHz refers to PRB#12 PRB range ofand subband according Interference Noise 4 Ratio PRB#17 to frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers to 3 MHz to MHz PRB#12 to and that are greater than -8 dB less PRB#16 to PRB#23 This measurement is provided for PRB#14 than or equal to -6 dB. PRB range Subband 4 downlink Signal to 5 MHz refers to PRB#12 of subband 4and according toto Interference Noise Ratio PRB#15 frequency: (SINR) post-compensation 10 MHzrefers referstotoPRB#12 PRB#18totovalues 3 MHz that are greater than dB andfor less PRB#23 This measurement is -6 provided PRB#14 than or equal to -4 dB. PRB range 15 MHz and 20 MHz refers to Subband 4 downlink Signal to 5 MHz refers to PRB#12 of subband 4and according toto PRB#24 to PRB#31 Interference Noise Ratio PRB#15 frequency: (SINR) post-compensation 10 MHzrefers referstotoPRB#12 PRB#18totovalues 3 MHz that are greater than dB andfor less PRB#23 This measurement is -4 provided PRB#14 than or equal to -2 dB. PRB range 15 MHz and 20 MHz refers to Subband 4 downlink Signal to 5 MHz refers to PRB#12 of subband 4and according toto PRB#24 to PRB#31 Interference Noise Ratio PRB#15 frequency: (SINR) post-compensation 10 MHzrefers referstotoPRB#12 PRB#18totovalues 3 MHz that are greater than dB andfor less PRB#23 This measurement is -2 provided PRB#14 than or equal to 0 dB. PRB range of 15 MHz and 20 MHz refers to Subband 4 downlink Signal 5 MHz refers to PRB#12 to to subband 4 according to frequency: PRB#24 to PRB#31 Interference and Noise Ratio PRB#15 3 MHz refers to PRB#12 to values (SINR) post-compensation 10 MHz refers to PRB#18 to PRB#14 that are greater thanis 0provided dB and less PRB#23 This measurement for 5 MHz refers to PRB#12 to than or equal to 2 dB. PRB of 15 MHz and 20 MHz refers to Subband 4 downlink Signal range to PRB#15 subband 4 according to frequency: PRB#24 to PRB#31 Interference and Noise Ratio 10 MHzrefers refers PRB#18 3 MHz totoPRB#12 totovalues (SINR) post-compensation PRB#23 PRB#14 that are greater thanis 2 dB and 15 MHz and 20 MHz refers to less This measurement provided for 5 MHz refers to PRB#12 to range than or equal to 4 dB. PRB of PRB#24 to PRB#31 Subband 4 downlink Signal to PRB#15 subband 4 according to frequency: Interference and Noise Ratio 10 MHzrefers refers PRB#18 3 MHz totoPRB#12 totovalues (SINR) post-compensation PRB#23 PRB#14 that are greater thanis 4 dB and 15 MHz and 20 MHz refers to less This measurement provided for 5 MHz refers to PRB#12 to range than or equal to 6 dB. PRB of PRB#24 to PRB#31 Subband 4 downlink Signal to PRB#15 subband 4 according to frequency: Interference and Noise Ratio 10 MHzrefers refers PRB#18 3 MHz totoPRB#12 totovalues (SINR) post-compensation PRB#23 PRB#14 that are greater thanis 6 dB and 15 MHz and 20 MHz refers to less This measurement provided for 5 MHz refers to PRB#12 to range than or equal to 8 dB. PRB of PRB#24 to Subband 4 PRB#31 downlink Signal to PRB#15 subband 4 according to frequency: Interference and Noise Ratio 10 MHzrefers refers PRB#18 3 MHz totoPRB#12 totovalues (SINR) post-compensation PRB#23 PRB#14 that are greater thanis 8 dB and less 15 MHz and 20 MHz refers This measurement provided for 5 MHz refers to PRB#12 to torange than or equal to 10 dB. PRB PRB#24 to PRB#31 Subband 4 downlink Signal to PRB#15 of subband 4and accordingRatio to Interference 10 MHz refers to Noise PRB#18 to frequency: (SINR) post-compensation values PRB#23 3 MHz to PRB#12 to and that arerefers greater than 10 dB 15 MHz and 20 MHz refers to PRB#14 less thanto orPRB#31 equal to 12 dB. PRB PRB#24 5 MHzof refers to PRB#12 to range subband 4 according to PRB#15 frequency: 10 MHzrefers referstotoPRB#12 PRB#18toto 3 MHz PRB#23 PRB#14 15 MHzrefers and 20 refers 5 MHz to MHz PRB#12 to to PRB#24 to PRB#31 PRB#15
This measurement is provided for Subband 3 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 28 dB andfor This are measurement provided less than or equal to 30 dB. PRB Subband 4 downlink Signal to range of subband 3 according Interference and Noise Ratio to frequency: (SINR) post-compensation values 3 MHz and 5 MHz refers to PRB#8 that are greater than equal tofor -10 This measurement is or provided to PRB#11 dB and less than or equal to -8 dB. Subband 4 downlink Signaltoto 10 MHz refers to PRB#12 PRB range ofand subband according Interference Noise 4 Ratio PRB#17 to frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers to 3 MHz to MHz PRB#12 to and that are greater than -8 dB less PRB#16 to PRB#23 This measurement is provided for PRB#14 than or equal to -6 dB. PRB range Subband 4 downlink Signal to 5 MHz refers to PRB#12 of subband 4and according toto Interference Noise Ratio PRB#15 frequency: (SINR) post-compensation 10 MHzrefers referstotoPRB#12 PRB#18totovalues 3 MHz that are greater than dB andfor less PRB#23 This measurement is -6 provided PRB#14 than or equal to -4 dB. PRB range 15 MHz and 20 MHz refers to Subband 4 downlink Signal to 5 MHz refers to PRB#12 of subband 4and according toto PRB#24 to PRB#31 Interference Noise Ratio PRB#15 frequency: (SINR) post-compensation 10 MHzrefers referstotoPRB#12 PRB#18totovalues 3 MHz that are greater than dB andfor less PRB#23 This measurement is -4 provided PRB#14 than or equal to -2 dB. PRB range 15 MHz and 20 MHz refers to Subband 4 downlink Signal to 5 MHz refers to PRB#12 of subband 4and according toto PRB#24 to PRB#31 Interference Noise Ratio PRB#15 frequency: (SINR) post-compensation 10 MHzrefers referstotoPRB#12 PRB#18totovalues 3 MHz that are greater than dB andfor less PRB#23 This measurement is -2 provided PRB#14 than or equal to 0 dB. PRB range of 15 MHz and 20 MHz refers to Subband 4 downlink Signal 5 MHz refers to PRB#12 to to subband 4 according to frequency: PRB#24 to PRB#31 Interference and Noise Ratio PRB#15 3 MHz refers to PRB#12 to values (SINR) post-compensation 10 MHz refers to PRB#18 to PRB#14 that are greater thanis 0provided dB and less PRB#23 This measurement for 5 MHz refers to PRB#12 to than or equal to 2 dB. PRB of 15 MHz and 20 MHz refers to Subband 4 downlink Signal range to PRB#15 subband 4 according to frequency: PRB#24 to PRB#31 Interference and Noise Ratio 10 MHzrefers refers PRB#18 3 MHz totoPRB#12 totovalues (SINR) post-compensation PRB#23 PRB#14 that are greater thanis 2 dB and 15 MHz and 20 MHz refers to less This measurement provided for 5 MHz refers to PRB#12 to range than or equal to 4 dB. PRB of PRB#24 to PRB#31 Subband 4 downlink Signal to PRB#15 subband 4 according to frequency: Interference and Noise Ratio 10 MHzrefers refers PRB#18 3 MHz totoPRB#12 totovalues (SINR) post-compensation PRB#23 PRB#14 that are greater thanis 4 dB and 15 MHz and 20 MHz refers to less This measurement provided for 5 MHz refers to PRB#12 to range than or equal to 6 dB. PRB of PRB#24 to PRB#31 Subband 4 downlink Signal to PRB#15 subband 4 according to frequency: Interference and Noise Ratio 10 MHzrefers refers PRB#18 3 MHz totoPRB#12 totovalues (SINR) post-compensation PRB#23 PRB#14 that are greater thanis 6 dB and 15 MHz and 20 MHz refers to less This measurement provided for 5 MHz refers to PRB#12 to range than or equal to 8 dB. PRB of PRB#24 to Subband 4 PRB#31 downlink Signal to PRB#15 subband 4 according to frequency: Interference and Noise Ratio 10 MHzrefers refers PRB#18 3 MHz totoPRB#12 totovalues (SINR) post-compensation PRB#23 PRB#14 that are greater thanis 8 dB and less 15 MHz and 20 MHz refers This measurement provided for 5 MHz refers to PRB#12 to torange than or equal to 10 dB. PRB PRB#24 to PRB#31 Subband 4 downlink Signal to PRB#15 of subband 4and accordingRatio to Interference 10 MHz refers to Noise PRB#18 to frequency: (SINR) post-compensation values PRB#23 3 MHz to PRB#12 to and that arerefers greater than 10 dB 15 MHz and 20 MHz refers to PRB#14 less thanto orPRB#31 equal to 12 dB. PRB PRB#24 5 MHzof refers to PRB#12 to range subband 4 according to PRB#15 frequency: 10 MHzrefers referstotoPRB#12 PRB#18toto 3 MHz PRB#23 PRB#14 15 MHzrefers and 20 refers 5 MHz to MHz PRB#12 to to PRB#24 to PRB#31 PRB#15
10 MHz refers to PRB#18 to PRB#23
10 MHz refers to PRB#18 to PRB#23
This measurement is provided for Subband 4 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 12 dB andfor This are measurement provided less than or equal to 14 db. PRB Subband 4 downlink Signal to range of subband 4 according Interference and Noise Ratio to frequency: (SINR) post-compensation values 3 MHz refers to PRB#12 to and that are greater thanis 14 dB This measurement provided for PRB#14 less than or equal to 16 dB. to PRB Subband 4 downlink Signal 5 MHzof refers to PRB#12 to range subband 4 according Interference and Noise Ratio to PRB#15 frequency: (SINR) post-compensation 10 MHzrefers referstotoPRB#12 PRB#18totovalues 3 MHz that are greater than dB andfor PRB#23 This measurement is 16 provided PRB#14 less than or equal to 18 dB. PRB 15 MHz and 20 MHz refers Subband 4 downlink Signal to 5 MHzof refers to PRB#12 to to range subband 4 according PRB#24 to PRB#31 Interference and Noise Ratio to PRB#15 frequency: (SINR) post-compensation 10 MHzrefers referstotoPRB#12 PRB#18totovalues 3 MHz that are greater than dB andfor PRB#23 This measurement is 18 provided PRB#14 less than or equal to 20 dB. PRB 15 MHz and 20 MHz refers Subband 4 downlink Signal to 5 MHzof refers to PRB#12 to to range subband 4 according PRB#24 to PRB#31 Interference and Noise Ratio to PRB#15 frequency: (SINR) post-compensation 10 MHzrefers referstotoPRB#12 PRB#18totovalues 3 MHz that are greater than dB andfor PRB#23 This measurement is 20 provided PRB#14 less than or equal to 22 dB. PRB 15 MHz and 20 MHz refers Subband 4 downlink Signal to 5 MHzof refers to PRB#12 to to range subband 4 according PRB#24 to PRB#31 Interference and Noise Ratio to PRB#15 frequency: (SINR) post-compensation 10 MHzrefers referstotoPRB#12 PRB#18totovalues 3 MHz that are greater than dB andfor PRB#23 This measurement is 22 provided PRB#14 less than or equal to 24 dB. PRB 15 MHz and 20 MHz refers Subband 4 downlink Signal to 5 MHzof refers to PRB#12 to to range subband 4 according PRB#24 to PRB#31 Interference and Noise Ratio to PRB#15 frequency: (SINR) post-compensation 10 MHzrefers referstotoPRB#12 PRB#18totovalues 3 MHz that are greater than dB andfor PRB#23 This measurement is 24 provided PRB#14 less than or equal to 26 dB. PRB 15 MHz and 20 MHz refers Subband 4 downlink Signal to 5 MHzof refers to PRB#12 to to range subband 4 according PRB#24 to PRB#31 Interference and Noise Ratio to PRB#15 frequency: (SINR) post-compensation 10 MHzrefers referstotoPRB#12 PRB#18totovalues 3 MHz that are greater than dB andfor PRB#23 This measurement is 26 provided PRB#14 less than or equal to 28 dB. PRB 15 MHz and 20 MHz refers Subband 4 downlink Signal to 5 MHzof refers to PRB#12 to to range subband 4 according PRB#24 to PRB#31 Interference and Noise Ratio to PRB#15 frequency: (SINR) post-compensation 10 MHzrefers referstotoPRB#12 PRB#18totovalues 3 MHz that are greater than dB andfor PRB#23 This measurement is 28 provided PRB#14 less than or equal to 30 dB. PRB 15 MHz and 20 MHz refers Subband 5 downlink Signal to 5 MHzof refers to PRB#12 to to range subband 4 according PRB#24 to PRB#31 Interference and Noise Ratio to PRB#15 frequency: (SINR) post-compensation 10 MHzrefers referstotoPRB#12 PRB#18totovalues 3 MHz that are greater than equal tofor -10 PRB#23 This measurement is or provided PRB#14 dB and less than or equal to -8 dB. 15 MHzrefers and 20 MHz refers to Subband 5 downlink Signal to 5 MHz to PRB#12 to PRB range ofand subband 5 according PRB#24 to PRB#31 Interference Noise Ratio PRB#15 to frequency: (SINR) post-compensation 10 MHzrefers referstotoPRB#16 PRB#18totovalues 5 MHz that are greater than dB andfor less PRB#23 This measurement is -8 provided PRB#19 than or equal to -6 dB. PRB range 15 MHz and 20 MHz refers to Subband 5 downlink Signaltoto 10 MHz refers to PRB#24 of subband 5and according to PRB#24 to PRB#31 Interference Noise Ratio PRB#29 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers to 5 MHz to MHz PRB#16 to and that are greater than -6 dB less PRB#32 to PRB#39 PRB#19 than or equal to -4 dB. PRB range 10 MHz refers to PRB#24 of subband 5 according to to PRB#29 frequency: 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to PRB#32 to PRB#39 PRB#19 10 MHz refers to PRB#24 to PRB#29 15 MHz and 20 MHz refers to PRB#32 to PRB#39
This measurement is provided for Subband 4 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 12 dB andfor This are measurement provided less than or equal to 14 db. PRB Subband 4 downlink Signal to range of subband 4 according Interference and Noise Ratio to frequency: (SINR) post-compensation values 3 MHz refers to PRB#12 to and that are greater thanis 14 dB This measurement provided for PRB#14 less than or equal to 16 dB. to PRB Subband 4 downlink Signal 5 MHzof refers to PRB#12 to range subband 4 according Interference and Noise Ratio to PRB#15 frequency: (SINR) post-compensation 10 MHzrefers referstotoPRB#12 PRB#18totovalues 3 MHz that are greater than dB andfor PRB#23 This measurement is 16 provided PRB#14 less than or equal to 18 dB. PRB 15 MHz and 20 MHz refers Subband 4 downlink Signal to 5 MHzof refers to PRB#12 to to range subband 4 according PRB#24 to PRB#31 Interference and Noise Ratio to PRB#15 frequency: (SINR) post-compensation 10 MHzrefers referstotoPRB#12 PRB#18totovalues 3 MHz that are greater than dB andfor PRB#23 This measurement is 18 provided PRB#14 less than or equal to 20 dB. PRB 15 MHz and 20 MHz refers Subband 4 downlink Signal to 5 MHzof refers to PRB#12 to to range subband 4 according PRB#24 to PRB#31 Interference and Noise Ratio to PRB#15 frequency: (SINR) post-compensation 10 MHzrefers referstotoPRB#12 PRB#18totovalues 3 MHz that are greater than dB andfor PRB#23 This measurement is 20 provided PRB#14 less than or equal to 22 dB. PRB 15 MHz and 20 MHz refers Subband 4 downlink Signal to 5 MHzof refers to PRB#12 to to range subband 4 according PRB#24 to PRB#31 Interference and Noise Ratio to PRB#15 frequency: (SINR) post-compensation 10 MHzrefers referstotoPRB#12 PRB#18totovalues 3 MHz that are greater than dB andfor PRB#23 This measurement is 22 provided PRB#14 less than or equal to 24 dB. PRB 15 MHz and 20 MHz refers Subband 4 downlink Signal to 5 MHzof refers to PRB#12 to to range subband 4 according PRB#24 to PRB#31 Interference and Noise Ratio to PRB#15 frequency: (SINR) post-compensation 10 MHzrefers referstotoPRB#12 PRB#18totovalues 3 MHz that are greater than dB andfor PRB#23 This measurement is 24 provided PRB#14 less than or equal to 26 dB. PRB 15 MHz and 20 MHz refers Subband 4 downlink Signal to 5 MHzof refers to PRB#12 to to range subband 4 according PRB#24 to PRB#31 Interference and Noise Ratio to PRB#15 frequency: (SINR) post-compensation 10 MHzrefers referstotoPRB#12 PRB#18totovalues 3 MHz that are greater than dB andfor PRB#23 This measurement is 26 provided PRB#14 less than or equal to 28 dB. PRB 15 MHz and 20 MHz refers Subband 4 downlink Signal to 5 MHzof refers to PRB#12 to to range subband 4 according PRB#24 to PRB#31 Interference and Noise Ratio to PRB#15 frequency: (SINR) post-compensation 10 MHzrefers referstotoPRB#12 PRB#18totovalues 3 MHz that are greater than dB andfor PRB#23 This measurement is 28 provided PRB#14 less than or equal to 30 dB. PRB 15 MHz and 20 MHz refers Subband 5 downlink Signal to 5 MHzof refers to PRB#12 to to range subband 4 according PRB#24 to PRB#31 Interference and Noise Ratio to PRB#15 frequency: (SINR) post-compensation 10 MHzrefers referstotoPRB#12 PRB#18totovalues 3 MHz that are greater than equal tofor -10 PRB#23 This measurement is or provided PRB#14 dB and less than or equal to -8 dB. 15 MHzrefers and 20 MHz refers to Subband 5 downlink Signal to 5 MHz to PRB#12 to PRB range ofand subband 5 according PRB#24 to PRB#31 Interference Noise Ratio PRB#15 to frequency: (SINR) post-compensation 10 MHzrefers referstotoPRB#16 PRB#18totovalues 5 MHz that are greater than dB andfor less PRB#23 This measurement is -8 provided PRB#19 than or equal to -6 dB. PRB range 15 MHz and 20 MHz refers to Subband 5 downlink Signaltoto 10 MHz refers to PRB#24 of subband 5and according to PRB#24 to PRB#31 Interference Noise Ratio PRB#29 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers to 5 MHz to MHz PRB#16 to and that are greater than -6 dB less PRB#32 to PRB#39 PRB#19 than or equal to -4 dB. PRB range 10 MHz refers to PRB#24 of subband 5 according to to PRB#29 frequency: 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to PRB#32 to PRB#39 PRB#19 10 MHz refers to PRB#24 to PRB#29 15 MHz and 20 MHz refers to PRB#32 to PRB#39
This measurement is provided for Subband 5 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis -4 dB andfor less This are measurement provided than or equal to -2 dB. PRB range Subband 5 downlink Signal to of subband 5and according to Interference Noise Ratio frequency: (SINR) post-compensation values 5 MHz refers to PRB#16 to and less that are greater thanis -2 dB This measurement provided for PRB#19 than or equal to 0 dB.Signal PRB range of Subband 5 downlink to 10 MHz refers to PRB#24 to subband 5 according to frequency: Interference and Noise Ratio PRB#29 5 MHz refers to PRB#16 to (SINR) post-compensation 15 MHz and 20 MHz refers values to PRB#19 that are greater than 0 dB and less PRB#32 to PRB#39 This measurement is provided for 10 MHz referstoto2PRB#24 torange than or equal dB. PRB of Subband 5 downlink Signal to PRB#29 subband 5 according to frequency: Interference Noise Ratio 15 MHzrefers and and 20 refers to 5 MHz to MHz PRB#16 to values (SINR) post-compensation PRB#32 to PRB#39 PRB#19 that are greater thanis 2provided dB and less This measurement for 10 MHz referstoto4PRB#24 torange than or equal dB. PRB of Subband 5 downlink Signal to PRB#29 subband 5 according to frequency: Interference Noise Ratio 15 MHzrefers and and 20 refers to 5 MHz to MHz PRB#16 to values (SINR) post-compensation PRB#32 to PRB#39 PRB#19 that are greater thanis 4provided dB and less This measurement 10 MHz referstoto6PRB#24 to for of than or equal dB. PRB Subband 5 downlink Signal range to PRB#29 subband 5 according toRatio frequency: Interference and Noise 15 MHz and 20 MHz refers to 5 MHz refers to PRB#16 to values (SINR) post-compensation PRB#32 to PRB#39 PRB#19 that are greater thanis 6provided dB and less This measurement for 10 MHz referstoto8PRB#24 torange than or equal dB. PRB of Subband 5 downlink Signal to PRB#29 subband 5 according to frequency: Interference Noise Ratio 15 MHzrefers and and 20 refers to 5 MHz to MHz PRB#16 to values (SINR) post-compensation PRB#32 to PRB#39 PRB#19 that are greater thanis 8provided dB and less This measurement for 10 MHz referstoto10 PRB#24 to range than or equal dB. PRB Subband 5 downlink Signal to PRB#29 of subband 5and according to Interference Noise Ratio 15 MHz and 20 MHz refers to frequency: (SINR) post-compensation values PRB#32 to PRB#39 5 MHz refers to PRB#16 to and that are greater thanis 10 dB This measurement provided for PRB#19 less than or equal to 12 dB. to PRB Subband 5 downlink Signal 10 MHz to PRB#24 to range of refers subband 5 according Interference and Noise Ratio to PRB#29 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to that are greater than 12 dB andfor PRB#32 to PRB#39 This measurement is provided PRB#19 less than or equal to 14 dB. PRB Subband 5 downlink Signaltoto 10 MHz refers to PRB#24 range of subband 5 according Interference and Noise Ratio to PRB#29 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to that are greater than 14 dB andfor PRB#32 to PRB#39is provided This measurement PRB#19 less than or equal to 16 dB. PRB Subband 5 downlink Signaltoto 10 MHz refers to PRB#24 range of subband 5 according Interference and Noise Ratio to PRB#29 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to that are greater than 16 dB andfor PRB#32 to PRB#39 This measurement is provided PRB#19 less than or equal to 18 dB. PRB Subband 5 downlink Signaltoto 10 MHz refers to PRB#24 range of subband 5 according Interference and Noise Ratio to PRB#29 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to that are greater than 18 dB and PRB#32 to PRB#39 PRB#19 less than or equal to 20 dB. PRB 10 MHz to PRB#24 to to range of refers subband 5 according PRB#29 frequency: 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to PRB#32 to PRB#39 PRB#19 10 MHz refers to PRB#24 to PRB#29 15 MHz and 20 MHz refers to PRB#32 to PRB#39
This measurement is provided for Subband 5 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis -4 dB andfor less This are measurement provided than or equal to -2 dB. PRB range Subband 5 downlink Signal to of subband 5and according to Interference Noise Ratio frequency: (SINR) post-compensation values 5 MHz refers to PRB#16 to and less that are greater thanis -2 dB This measurement provided for PRB#19 than or equal to 0 dB.Signal PRB range of Subband 5 downlink to 10 MHz refers to PRB#24 to subband 5 according to frequency: Interference and Noise Ratio PRB#29 5 MHz refers to PRB#16 to (SINR) post-compensation 15 MHz and 20 MHz refers values to PRB#19 that are greater than 0 dB and less PRB#32 to PRB#39 This measurement is provided for 10 MHz referstoto2PRB#24 torange than or equal dB. PRB of Subband 5 downlink Signal to PRB#29 subband 5 according to frequency: Interference Noise Ratio 15 MHzrefers and and 20 refers to 5 MHz to MHz PRB#16 to values (SINR) post-compensation PRB#32 to PRB#39 PRB#19 that are greater thanis 2provided dB and less This measurement for 10 MHz referstoto4PRB#24 torange than or equal dB. PRB of Subband 5 downlink Signal to PRB#29 subband 5 according to frequency: Interference Noise Ratio 15 MHzrefers and and 20 refers to 5 MHz to MHz PRB#16 to values (SINR) post-compensation PRB#32 to PRB#39 PRB#19 that are greater thanis 4provided dB and less This measurement 10 MHz referstoto6PRB#24 to for of than or equal dB. PRB Subband 5 downlink Signal range to PRB#29 subband 5 according toRatio frequency: Interference and Noise 15 MHz and 20 MHz refers to 5 MHz refers to PRB#16 to values (SINR) post-compensation PRB#32 to PRB#39 PRB#19 that are greater thanis 6provided dB and less This measurement for 10 MHz referstoto8PRB#24 torange than or equal dB. PRB of Subband 5 downlink Signal to PRB#29 subband 5 according to frequency: Interference Noise Ratio 15 MHzrefers and and 20 refers to 5 MHz to MHz PRB#16 to values (SINR) post-compensation PRB#32 to PRB#39 PRB#19 that are greater thanis 8provided dB and less This measurement for 10 MHz referstoto10 PRB#24 to range than or equal dB. PRB Subband 5 downlink Signal to PRB#29 of subband 5and according to Interference Noise Ratio 15 MHz and 20 MHz refers to frequency: (SINR) post-compensation values PRB#32 to PRB#39 5 MHz refers to PRB#16 to and that are greater thanis 10 dB This measurement provided for PRB#19 less than or equal to 12 dB. to PRB Subband 5 downlink Signal 10 MHz to PRB#24 to range of refers subband 5 according Interference and Noise Ratio to PRB#29 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to that are greater than 12 dB andfor PRB#32 to PRB#39 This measurement is provided PRB#19 less than or equal to 14 dB. PRB Subband 5 downlink Signaltoto 10 MHz refers to PRB#24 range of subband 5 according Interference and Noise Ratio to PRB#29 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to that are greater than 14 dB andfor PRB#32 to PRB#39is provided This measurement PRB#19 less than or equal to 16 dB. PRB Subband 5 downlink Signaltoto 10 MHz refers to PRB#24 range of subband 5 according Interference and Noise Ratio to PRB#29 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to that are greater than 16 dB andfor PRB#32 to PRB#39 This measurement is provided PRB#19 less than or equal to 18 dB. PRB Subband 5 downlink Signaltoto 10 MHz refers to PRB#24 range of subband 5 according Interference and Noise Ratio to PRB#29 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to that are greater than 18 dB and PRB#32 to PRB#39 PRB#19 less than or equal to 20 dB. PRB 10 MHz to PRB#24 to to range of refers subband 5 according PRB#29 frequency: 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to PRB#32 to PRB#39 PRB#19 10 MHz refers to PRB#24 to PRB#29 15 MHz and 20 MHz refers to PRB#32 to PRB#39
This measurement is provided for Subband 5 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 20 dB andfor This are measurement provided less than or equal to 22 dB. PRB Subband 5 downlink Signal to range of subband 5 according Interference and Noise Ratio to frequency: (SINR) post-compensation values 5 MHz refers to PRB#16 to and that are greater thanis 22 dB This measurement provided for PRB#19 less than or equal to 24 dB. to PRB Subband 5 downlink Signal 10 MHz to PRB#24 to range of refers subband 5 according Interference and Noise Ratio to PRB#29 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to that are greater than 24 dB andfor PRB#32 to PRB#39 This measurement is provided PRB#19 less than or equal to 26 dB. PRB Subband 5 downlink Signaltoto 10 MHz refers to PRB#24 range of subband 5 according Interference and Noise Ratio to PRB#29 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to that are greater than 26 dB andfor PRB#32 to PRB#39is provided This measurement PRB#19 less than or equal to 28 dB. PRB Subband 5 downlink Signaltoto 10 MHz refers to PRB#24 range of subband 5 according Interference and Noise Ratio to PRB#29 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to that are greater than 28 dB andfor PRB#32 to PRB#39 This measurement is provided PRB#19 less than or equal to 30 dB. PRB Subband 6 downlink Signaltoto 10 MHz refers to PRB#24 range of subband 5 according Interference and Noise Ratio to PRB#29 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to to -10 that are greater than or equal PRB#32 to PRB#39is provided for This measurement PRB#19 dB and less than or equal -8 dB. Subband 6 downlink Signalto 10 MHz refers to PRB#24 toto PRB range of subband 6 according Interference and Noise Ratio PRB#29 to frequency: (SINR) post-compensation values 15 MHz and 20 refers to 5 MHz refers to MHz PRB#20 to and that are greater than -8 dB less PRB#32 to PRB#39 This measurement is provided for PRB#23 than or equal to -6 dB. PRB range Subband 6 downlink Signaltoto 10 MHz refers to PRB#30 of subband 6and according to Interference Noise Ratio PRB#35 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers to 5 MHz to MHz PRB#20 to and that are greater than -6 dB less PRB#40 to PRB#47 This measurement is provided for PRB#23 than or equal to -4 dB. PRB range Subband 6 downlink Signaltoto 10 MHz refers to PRB#30 of subband 6and according to Interference Noise Ratio PRB#35 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers to 5 MHz to MHz PRB#20 to and that are greater than -4 dB less PRB#40 to PRB#47 This measurement is provided for PRB#23 than or equal to -2 dB. PRB range Subband 6 downlink Signaltoto 10 MHz refers to PRB#30 of subband 6and according to Interference Noise Ratio PRB#35 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers to 5 MHz to MHz PRB#20 to and that are greater than -2 dB less PRB#40 to PRB#47 This measurement is provided for PRB#23 than or equal to 0 dB. PRB range of Subband 6 downlink Signaltoto 10 MHz refers to PRB#30 subband 6 according to frequency: Interference and Noise Ratio PRB#35 5 MHz refers to PRB#20 to (SINR) post-compensation 15 MHz and 20 MHz refers values to PRB#23 that are greater than 0 dB and less PRB#40 to PRB#47 This measurement is provided for 10 MHz referstoto2PRB#30 torange than or equal dB. PRB of Subband 6 downlink Signal to PRB#35 subband 6 according to frequency: Interference Noise Ratio 15 MHzrefers and and 20 refers to 5 MHz to MHz PRB#20 to values (SINR) post-compensation PRB#40 to PRB#47 PRB#23 that are greater than 2 dB and less 10 MHz referstoto4PRB#30 than or equal dB. PRBtorange of PRB#35 subband 6 according to frequency: 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to PRB#40 to PRB#47 PRB#23 10 MHz refers to PRB#30 to PRB#35 15 MHz and 20 MHz refers to PRB#40 to PRB#47
This measurement is provided for Subband 5 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 20 dB andfor This are measurement provided less than or equal to 22 dB. PRB Subband 5 downlink Signal to range of subband 5 according Interference and Noise Ratio to frequency: (SINR) post-compensation values 5 MHz refers to PRB#16 to and that are greater thanis 22 dB This measurement provided for PRB#19 less than or equal to 24 dB. to PRB Subband 5 downlink Signal 10 MHz to PRB#24 to range of refers subband 5 according Interference and Noise Ratio to PRB#29 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to that are greater than 24 dB andfor PRB#32 to PRB#39 This measurement is provided PRB#19 less than or equal to 26 dB. PRB Subband 5 downlink Signaltoto 10 MHz refers to PRB#24 range of subband 5 according Interference and Noise Ratio to PRB#29 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to that are greater than 26 dB andfor PRB#32 to PRB#39is provided This measurement PRB#19 less than or equal to 28 dB. PRB Subband 5 downlink Signaltoto 10 MHz refers to PRB#24 range of subband 5 according Interference and Noise Ratio to PRB#29 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to that are greater than 28 dB andfor PRB#32 to PRB#39 This measurement is provided PRB#19 less than or equal to 30 dB. PRB Subband 6 downlink Signaltoto 10 MHz refers to PRB#24 range of subband 5 according Interference and Noise Ratio to PRB#29 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to to -10 that are greater than or equal PRB#32 to PRB#39is provided for This measurement PRB#19 dB and less than or equal -8 dB. Subband 6 downlink Signalto 10 MHz refers to PRB#24 toto PRB range of subband 6 according Interference and Noise Ratio PRB#29 to frequency: (SINR) post-compensation values 15 MHz and 20 refers to 5 MHz refers to MHz PRB#20 to and that are greater than -8 dB less PRB#32 to PRB#39 This measurement is provided for PRB#23 than or equal to -6 dB. PRB range Subband 6 downlink Signaltoto 10 MHz refers to PRB#30 of subband 6and according to Interference Noise Ratio PRB#35 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers to 5 MHz to MHz PRB#20 to and that are greater than -6 dB less PRB#40 to PRB#47 This measurement is provided for PRB#23 than or equal to -4 dB. PRB range Subband 6 downlink Signaltoto 10 MHz refers to PRB#30 of subband 6and according to Interference Noise Ratio PRB#35 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers to 5 MHz to MHz PRB#20 to and that are greater than -4 dB less PRB#40 to PRB#47 This measurement is provided for PRB#23 than or equal to -2 dB. PRB range Subband 6 downlink Signaltoto 10 MHz refers to PRB#30 of subband 6and according to Interference Noise Ratio PRB#35 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers to 5 MHz to MHz PRB#20 to and that are greater than -2 dB less PRB#40 to PRB#47 This measurement is provided for PRB#23 than or equal to 0 dB. PRB range of Subband 6 downlink Signaltoto 10 MHz refers to PRB#30 subband 6 according to frequency: Interference and Noise Ratio PRB#35 5 MHz refers to PRB#20 to (SINR) post-compensation 15 MHz and 20 MHz refers values to PRB#23 that are greater than 0 dB and less PRB#40 to PRB#47 This measurement is provided for 10 MHz referstoto2PRB#30 torange than or equal dB. PRB of Subband 6 downlink Signal to PRB#35 subband 6 according to frequency: Interference Noise Ratio 15 MHzrefers and and 20 refers to 5 MHz to MHz PRB#20 to values (SINR) post-compensation PRB#40 to PRB#47 PRB#23 that are greater than 2 dB and less 10 MHz referstoto4PRB#30 than or equal dB. PRBtorange of PRB#35 subband 6 according to frequency: 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to PRB#40 to PRB#47 PRB#23 10 MHz refers to PRB#30 to PRB#35 15 MHz and 20 MHz refers to PRB#40 to PRB#47
This measurement is provided for Subband 6 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 4provided dB and less This are measurement for than or equal to 6 dB. PRB of Subband 6 downlink Signal range to subband 6 according to frequency: Interference and Noise Ratio 5 MHz refers to PRB#20 to values (SINR) post-compensation PRB#23 that are greater thanis 6provided dB and less This measurement for 10 MHz referstoto8PRB#30 torange than or equal dB. PRB of Subband 6 downlink Signal to PRB#35 subband 6 according to frequency: Interference Noise Ratio 15 MHzrefers and and 20 refers to 5 MHz to MHz PRB#20 to values (SINR) post-compensation PRB#40 to PRB#47 PRB#23 that are greater thanis 8provided dB and less This measurement for 10 MHz referstoto10 PRB#30 to range than or equal dB. PRB Subband 6 downlink Signal to PRB#35 of subband 6and according to Interference Noise Ratio 15 MHz and 20 MHz refers to frequency: (SINR) post-compensation values PRB#40 to PRB#47 5 MHz refers to PRB#20 to and that are greater thanis 10 dB This measurement provided for PRB#23 less than or equal to 12 dB. to PRB Subband 6 downlink Signal 10 MHz to PRB#30 to range of refers subband 6 according Interference and Noise Ratio to PRB#35 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to that are greater than 12 dB andfor PRB#40 to PRB#47 This measurement is provided PRB#23 less than or equal to 14 dB. PRB Subband 6 downlink Signaltoto 10 MHz refers to PRB#30 range of subband 6 according Interference and Noise Ratio to PRB#35 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to that are greater than 14 dB andfor PRB#40 to PRB#47is provided This measurement PRB#23 less than or equal to 16 dB. PRB Subband 6 downlink Signaltoto 10 MHz refers to PRB#30 range of subband 6 according Interference and Noise Ratio to PRB#35 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to that are greater than 16 dB andfor PRB#40 to PRB#47 This measurement is provided PRB#23 less than or equal to 18 dB. PRB Subband 6 downlink Signaltoto 10 MHz refers to PRB#30 range of subband 6 according Interference and Noise Ratio to PRB#35 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to that are greater than 18 dB andfor PRB#40 to PRB#47is provided This measurement PRB#23 less than or equal to 20 dB. PRB Subband 6 downlink Signaltoto 10 MHz refers to PRB#30 range of subband 6 according Interference and Noise Ratio to PRB#35 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to that are greater than 20 dB andfor PRB#40 to PRB#47 This measurement is provided PRB#23 less than or equal to 22 dB. PRB Subband 6 downlink Signaltoto 10 MHz refers to PRB#30 range of subband 6 according Interference and Noise Ratio to PRB#35 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to that are greater than 22 dB andfor PRB#40 to PRB#47is provided This measurement PRB#23 less than or equal to 24 dB. PRB Subband 6 downlink Signaltoto 10 MHz refers to PRB#30 range of subband 6 according Interference and Noise Ratio to PRB#35 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to that are greater than 24 dB andfor PRB#40 to PRB#47 This measurement is provided PRB#23 less than or equal to 26 dB. PRB Subband 6 downlink Signaltoto 10 MHz refers to PRB#30 range of subband 6 according Interference and Noise Ratio to PRB#35 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to that are greater than 26 dB and PRB#40 to PRB#47 PRB#23 less than or equal to 28 dB. PRB 10 MHz to PRB#30 to to range of refers subband 6 according PRB#35 frequency: 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to PRB#40 to PRB#47 PRB#23 10 MHz refers to PRB#30 to PRB#35 15 MHz and 20 MHz refers to PRB#40 to PRB#47
This measurement is provided for Subband 6 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 4provided dB and less This are measurement for than or equal to 6 dB. PRB of Subband 6 downlink Signal range to subband 6 according to frequency: Interference and Noise Ratio 5 MHz refers to PRB#20 to values (SINR) post-compensation PRB#23 that are greater thanis 6provided dB and less This measurement for 10 MHz referstoto8PRB#30 torange than or equal dB. PRB of Subband 6 downlink Signal to PRB#35 subband 6 according to frequency: Interference Noise Ratio 15 MHzrefers and and 20 refers to 5 MHz to MHz PRB#20 to values (SINR) post-compensation PRB#40 to PRB#47 PRB#23 that are greater thanis 8provided dB and less This measurement for 10 MHz referstoto10 PRB#30 to range than or equal dB. PRB Subband 6 downlink Signal to PRB#35 of subband 6and according to Interference Noise Ratio 15 MHz and 20 MHz refers to frequency: (SINR) post-compensation values PRB#40 to PRB#47 5 MHz refers to PRB#20 to and that are greater thanis 10 dB This measurement provided for PRB#23 less than or equal to 12 dB. to PRB Subband 6 downlink Signal 10 MHz to PRB#30 to range of refers subband 6 according Interference and Noise Ratio to PRB#35 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to that are greater than 12 dB andfor PRB#40 to PRB#47 This measurement is provided PRB#23 less than or equal to 14 dB. PRB Subband 6 downlink Signaltoto 10 MHz refers to PRB#30 range of subband 6 according Interference and Noise Ratio to PRB#35 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to that are greater than 14 dB andfor PRB#40 to PRB#47is provided This measurement PRB#23 less than or equal to 16 dB. PRB Subband 6 downlink Signaltoto 10 MHz refers to PRB#30 range of subband 6 according Interference and Noise Ratio to PRB#35 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to that are greater than 16 dB andfor PRB#40 to PRB#47 This measurement is provided PRB#23 less than or equal to 18 dB. PRB Subband 6 downlink Signaltoto 10 MHz refers to PRB#30 range of subband 6 according Interference and Noise Ratio to PRB#35 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to that are greater than 18 dB andfor PRB#40 to PRB#47is provided This measurement PRB#23 less than or equal to 20 dB. PRB Subband 6 downlink Signaltoto 10 MHz refers to PRB#30 range of subband 6 according Interference and Noise Ratio to PRB#35 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to that are greater than 20 dB andfor PRB#40 to PRB#47 This measurement is provided PRB#23 less than or equal to 22 dB. PRB Subband 6 downlink Signaltoto 10 MHz refers to PRB#30 range of subband 6 according Interference and Noise Ratio to PRB#35 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to that are greater than 22 dB andfor PRB#40 to PRB#47is provided This measurement PRB#23 less than or equal to 24 dB. PRB Subband 6 downlink Signaltoto 10 MHz refers to PRB#30 range of subband 6 according Interference and Noise Ratio to PRB#35 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to that are greater than 24 dB andfor PRB#40 to PRB#47 This measurement is provided PRB#23 less than or equal to 26 dB. PRB Subband 6 downlink Signaltoto 10 MHz refers to PRB#30 range of subband 6 according Interference and Noise Ratio to PRB#35 frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to that are greater than 26 dB and PRB#40 to PRB#47 PRB#23 less than or equal to 28 dB. PRB 10 MHz to PRB#30 to to range of refers subband 6 according PRB#35 frequency: 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to PRB#40 to PRB#47 PRB#23 10 MHz refers to PRB#30 to PRB#35 15 MHz and 20 MHz refers to PRB#40 to PRB#47
This measurement is provided for Subband 6 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 28 dB andfor This are measurement provided less than or equal to 30 dB. PRB Subband 7 downlink Signal to range of subband 6 according Interference and Noise Ratio to frequency: (SINR) post-compensation values 5 MHz refers to PRB#20 to to -10 that are greater thanis or equal This measurement provided for PRB#23 dB and less than or equal toto-8 dB. Subband 7 downlink Signal 10 MHz refers to PRB#30 to PRB range ofand subband according Interference Noise 7 Ratio PRB#35 to frequency: (SINR) post-compensation 15 MHzrefers and 20 refers values to 5 MHz to MHz PRB#24 that are greater than -8 dB and less PRB#40 to PRB#47 This measurement is provided for 10 MHz referstoto-6PRB#36 torange than or equal dB. PRB Subband 7 downlink Signal to PRB#41 of subband 7and according to Interference Noise Ratio 15 MHz and 20 MHz refers to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 that are greater thanis -6 dB andfor less This measurement provided 10 MHz refers to-4PRB#36 torange than or equal to dB. PRB Subband 7 downlink Signal to PRB#41 of subband 7and according to Interference Noise Ratio 15 MHz and 20 MHz refers to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 that are greater thanis -4 dB andfor less This measurement provided 10 MHz refers to-2PRB#36 torange than or equal to dB. PRB Subband 7 downlink Signal to PRB#41 of subband 7and according to Interference Noise Ratio 15 MHz and 20 MHz refers to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 that are greater thanis -2 dB andfor less This measurement provided 10 MHz refers to0PRB#36 torange of than or equal to dB. PRB Subband 7 downlink Signal to PRB#41 subband 7 according toRatio frequency: Interference and Noise 15 MHz and 20 MHz refers to 5 MHz refers to PRB#24 (SINR) post-compensation values PRB#48 to PRB#55 10 MHz greater refers tothan PRB#36 that dB to and less This are measurement is 0provided for PRB#41 than or equal to 2 dB. PRB range of Subband 7 downlink Signal to 15 MHz and 20 MHz refers to subband 7 according to frequency: Interference and Noise Ratio PRB#48 to PRB#55 5 MHz refers to PRB#24 values (SINR) post-compensation 10 MHz refers PRB#36 that are greatertothan dB to and less This measurement is 2provided for PRB#41 than or equal to 4 dB. PRB range of Subband 7 downlink Signal to 15 MHz and 20 MHz refers to subband 7 according to frequency: Interference and Noise Ratio PRB#48 to PRB#55 5 MHz refers to PRB#24 values (SINR) post-compensation 10 MHz refers PRB#36 that greatertothan dB to and less This are measurement is 4provided for PRB#41 than or equal to 6 dB. PRB range of Subband 7 downlink Signal to 15 MHz and 20 MHz refers to subband 7 according to frequency: Interference and Noise Ratio PRB#48 to PRB#55 5 MHz refers to PRB#24 values (SINR) post-compensation 10 MHz refers PRB#36 that are greatertothan dB to and less This measurement is 6provided for PRB#41 than or equal to 8 dB. PRB range of Subband 7 downlink Signal to 15 MHz and 20 MHz refers to subband 7 according to frequency: Interference and Noise Ratio PRB#48 to PRB#55 5 MHz refers to PRB#24 values (SINR) post-compensation 10 MHz refers PRB#36 that greatertothan dB to and less This are measurement is 8provided for PRB#41 than or equal to 10 dB. PRB Subband 7 downlink Signal torange 15 MHz and 20 MHz refers to of subband 7and according to Interference Noise Ratio PRB#48 to PRB#55 frequency: (SINR) post-compensation values 5 MHz to PRB#24 that arerefers greater than 10 dB and 10 MHz refers to PRB#36 toPRB less than or equal to 12 dB. PRB#41 range of subband 7 according to 15 MHz and 20 MHz refers to frequency: PRB#48 to PRB#55 5 MHz refers to PRB#24
This measurement is provided for Subband 6 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 28 dB andfor This are measurement provided less than or equal to 30 dB. PRB Subband 7 downlink Signal to range of subband 6 according Interference and Noise Ratio to frequency: (SINR) post-compensation values 5 MHz refers to PRB#20 to to -10 that are greater thanis or equal This measurement provided for PRB#23 dB and less than or equal toto-8 dB. Subband 7 downlink Signal 10 MHz refers to PRB#30 to PRB range ofand subband according Interference Noise 7 Ratio PRB#35 to frequency: (SINR) post-compensation 15 MHzrefers and 20 refers values to 5 MHz to MHz PRB#24 that are greater than -8 dB and less PRB#40 to PRB#47 This measurement is provided for 10 MHz referstoto-6PRB#36 torange than or equal dB. PRB Subband 7 downlink Signal to PRB#41 of subband 7and according to Interference Noise Ratio 15 MHz and 20 MHz refers to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 that are greater thanis -6 dB andfor less This measurement provided 10 MHz refers to-4PRB#36 torange than or equal to dB. PRB Subband 7 downlink Signal to PRB#41 of subband 7and according to Interference Noise Ratio 15 MHz and 20 MHz refers to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 that are greater thanis -4 dB andfor less This measurement provided 10 MHz refers to-2PRB#36 torange than or equal to dB. PRB Subband 7 downlink Signal to PRB#41 of subband 7and according to Interference Noise Ratio 15 MHz and 20 MHz refers to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 that are greater thanis -2 dB andfor less This measurement provided 10 MHz refers to0PRB#36 torange of than or equal to dB. PRB Subband 7 downlink Signal to PRB#41 subband 7 according toRatio frequency: Interference and Noise 15 MHz and 20 MHz refers to 5 MHz refers to PRB#24 (SINR) post-compensation values PRB#48 to PRB#55 10 MHz greater refers tothan PRB#36 that dB to and less This are measurement is 0provided for PRB#41 than or equal to 2 dB. PRB range of Subband 7 downlink Signal to 15 MHz and 20 MHz refers to subband 7 according to frequency: Interference and Noise Ratio PRB#48 to PRB#55 5 MHz refers to PRB#24 values (SINR) post-compensation 10 MHz refers PRB#36 that are greatertothan dB to and less This measurement is 2provided for PRB#41 than or equal to 4 dB. PRB range of Subband 7 downlink Signal to 15 MHz and 20 MHz refers to subband 7 according to frequency: Interference and Noise Ratio PRB#48 to PRB#55 5 MHz refers to PRB#24 values (SINR) post-compensation 10 MHz refers PRB#36 that greatertothan dB to and less This are measurement is 4provided for PRB#41 than or equal to 6 dB. PRB range of Subband 7 downlink Signal to 15 MHz and 20 MHz refers to subband 7 according to frequency: Interference and Noise Ratio PRB#48 to PRB#55 5 MHz refers to PRB#24 values (SINR) post-compensation 10 MHz refers PRB#36 that are greatertothan dB to and less This measurement is 6provided for PRB#41 than or equal to 8 dB. PRB range of Subband 7 downlink Signal to 15 MHz and 20 MHz refers to subband 7 according to frequency: Interference and Noise Ratio PRB#48 to PRB#55 5 MHz refers to PRB#24 values (SINR) post-compensation 10 MHz refers PRB#36 that greatertothan dB to and less This are measurement is 8provided for PRB#41 than or equal to 10 dB. PRB Subband 7 downlink Signal torange 15 MHz and 20 MHz refers to of subband 7and according to Interference Noise Ratio PRB#48 to PRB#55 frequency: (SINR) post-compensation values 5 MHz to PRB#24 that arerefers greater than 10 dB and 10 MHz refers to PRB#36 toPRB less than or equal to 12 dB. PRB#41 range of subband 7 according to 15 MHz and 20 MHz refers to frequency: PRB#48 to PRB#55 5 MHz refers to PRB#24
10 MHz refers to PRB#36 to PRB#41 15 MHz and 20 MHz refers to PRB#48 to PRB#55
10 MHz refers to PRB#36 to PRB#41 15 MHz and 20 MHz refers to PRB#48 to PRB#55
This measurement is provided for Subband 7 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 12 dB andfor This are measurement provided less than or equal to 14 dB. PRB Subband 7 downlink Signal to range of subband 7 according Interference and Noise Ratio to frequency: (SINR) post-compensation values 5 MHz refers to PRB#24 that are greater thanis 14 dB andfor This measurement provided 10 MHz refers to PRB#36 toPRB less than or equal to 16 dB. Subband 7 downlink Signal to PRB#41 range of subbandNoise 7 according to Interference Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 that are greater than 16 dB andfor This measurement is provided 10 MHz refers to PRB#36 toPRB less than or equal to 18 dB. Subband 7 downlink Signal to PRB#41 range of subbandNoise 7 according to Interference Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 that are greater than 18 dB andfor This measurement is provided 10 MHz refers to PRB#36 toPRB less than or equal to 20 dB. Subband 7 downlink Signal to PRB#41 range of subband 7 according to Interference and Noise Ratio 15 MHz and 20 MHz refers to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 that are greater than 20 dB andfor This measurement is provided 10 MHz refers to PRB#36 toPRB less than or equal to 22 dB. Subband 7 downlink Signal to PRB#41 range of subbandNoise 7 according to Interference Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 that are greater than 22 dB andfor This measurement is provided 10 MHz refers to PRB#36 toPRB less than or equal to 24 dB. Subband 7 downlink Signal to PRB#41 range of subband 7 according to Interference and Noise Ratio 15 MHz and 20 MHz refers to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 that are greater than 24 dB andfor This measurement is provided 10 MHz refers to PRB#36 toPRB less than or equal to 26 dB. Subband 7 downlink Signal to PRB#41 range of subbandNoise 7 according to Interference Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 that are greater than 26 dB andfor This measurement is provided 10 MHz refers to PRB#36 toPRB less than or equal to 28 dB. Subband 7 downlink Signal to PRB#41 range of subband 7 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 that are greater than 28 dB andfor This measurement is provided 10 MHz refers to PRB#36 toPRB less than or equal to 30 dB. Subband 8 downlink Signal to PRB#41 range of subbandNoise 7 according to Interference Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 that are greater than or equal to -10 This measurement is provided 10 MHz refers to PRB#36 to -8 for dB and less than or equal to Subband 8 downlink Signal to dB. PRB#41 PRB range of subband 8 according Interference Noise Ratio 15 MHz and and 20 MHz refers to to frequency: (SINR) post-compensation values PRB#48 to PRB#55 10 MHz greater refers tothan PRB#42 that dBtoandfor less This are measurement is -8 provided PRB#47 than or equal to -6 dB. PRB range Subband 8 downlink to 15 MHz and 20 MHz Signal refers of subband 8and according to to Interference Noise Ratio PRB#56 to PRB#63 frequency: (SINR) post-compensation values 10 refers tothan PRB#42 thatMHz are greater -6 dBtoand less PRB#47 than or equal to -4 dB. PRB range 15 MHz and820 MHz refers of subband according to to PRB#56 to PRB#63 frequency:
This measurement is provided for Subband 7 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 12 dB andfor This are measurement provided less than or equal to 14 dB. PRB Subband 7 downlink Signal to range of subband 7 according Interference and Noise Ratio to frequency: (SINR) post-compensation values 5 MHz refers to PRB#24 that are greater thanis 14 dB andfor This measurement provided 10 MHz refers to PRB#36 toPRB less than or equal to 16 dB. Subband 7 downlink Signal to PRB#41 range of subbandNoise 7 according to Interference Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 that are greater than 16 dB andfor This measurement is provided 10 MHz refers to PRB#36 toPRB less than or equal to 18 dB. Subband 7 downlink Signal to PRB#41 range of subbandNoise 7 according to Interference Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 that are greater than 18 dB andfor This measurement is provided 10 MHz refers to PRB#36 toPRB less than or equal to 20 dB. Subband 7 downlink Signal to PRB#41 range of subband 7 according to Interference and Noise Ratio 15 MHz and 20 MHz refers to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 that are greater than 20 dB andfor This measurement is provided 10 MHz refers to PRB#36 toPRB less than or equal to 22 dB. Subband 7 downlink Signal to PRB#41 range of subbandNoise 7 according to Interference Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 that are greater than 22 dB andfor This measurement is provided 10 MHz refers to PRB#36 toPRB less than or equal to 24 dB. Subband 7 downlink Signal to PRB#41 range of subband 7 according to Interference and Noise Ratio 15 MHz and 20 MHz refers to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 that are greater than 24 dB andfor This measurement is provided 10 MHz refers to PRB#36 toPRB less than or equal to 26 dB. Subband 7 downlink Signal to PRB#41 range of subbandNoise 7 according to Interference Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 that are greater than 26 dB andfor This measurement is provided 10 MHz refers to PRB#36 toPRB less than or equal to 28 dB. Subband 7 downlink Signal to PRB#41 range of subband 7 according to Interference Noise Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 that are greater than 28 dB andfor This measurement is provided 10 MHz refers to PRB#36 toPRB less than or equal to 30 dB. Subband 8 downlink Signal to PRB#41 range of subbandNoise 7 according to Interference Ratio 15 MHz and and 20 MHz refers to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 that are greater than or equal to -10 This measurement is provided 10 MHz refers to PRB#36 to -8 for dB and less than or equal to Subband 8 downlink Signal to dB. PRB#41 PRB range of subband 8 according Interference Noise Ratio 15 MHz and and 20 MHz refers to to frequency: (SINR) post-compensation values PRB#48 to PRB#55 10 MHz greater refers tothan PRB#42 that dBtoandfor less This are measurement is -8 provided PRB#47 than or equal to -6 dB. PRB range Subband 8 downlink to 15 MHz and 20 MHz Signal refers of subband 8and according to to Interference Noise Ratio PRB#56 to PRB#63 frequency: (SINR) post-compensation values 10 refers tothan PRB#42 thatMHz are greater -6 dBtoand less PRB#47 than or equal to -4 dB. PRB range 15 MHz and820 MHz refers of subband according to to PRB#56 to PRB#63 frequency:
10 MHz refers to PRB#42 to PRB#47 15 MHz and 20 MHz refers to PRB#56 to PRB#63
10 MHz refers to PRB#42 to PRB#47 15 MHz and 20 MHz refers to PRB#56 to PRB#63
This measurement is provided for Subband 8 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis -4 dB andfor less This are measurement provided than or equal to -2 dB. PRB range Subband 8 downlink Signal to of subband 8and according to Interference Noise Ratio frequency: (SINR) post-compensation values 10 MHz refers tothan PRB#42 that are greater dBtoandfor less This measurement is -2 provided PRB#47 than or equal to 0 dB. PRB range of Subband 8 downlink to 15 MHz and 20 MHz Signal refers to subband 8 according to frequency: Interference and Noise Ratio PRB#56 to PRB#63 10 MHzpost-compensation refers to PRB#42 tovalues (SINR) PRB#47 that are greater thanis 0provided dB and less This measurement 15 MHz and 20 MHz refers to for of than or equal to 2 dB. PRB Subbandto 8 PRB#63 downlink Signal range to PRB#56 subband 8 according toRatio frequency: Interference and Noise 10 MHzpost-compensation refers to PRB#42 tovalues (SINR) PRB#47 that are greater thanis 2provided dB and less This measurement 15 MHz and 20 MHz refers to for of than or equal to 4 dB. PRB range Subband 8 downlink Signal to PRB#56 to PRB#63 to frequency: subband 8 according Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues (SINR) PRB#47 that are greater thanis 4provided dB and less This measurement 15 MHz and 20 MHz refers to for of than or equal to 6 dB. PRB Subbandto 8 PRB#63 downlink Signal range to PRB#56 subband 8 according toRatio frequency: Interference and Noise 10 MHzpost-compensation refers to PRB#42 tovalues (SINR) PRB#47 that are greater thanis 6provided dB and less This measurement 15 MHz and 20 MHz refers to for of than or equal to 8 dB. PRB range Subband 8 downlink Signal to PRB#56 to PRB#63 to frequency: subband 8 according Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues (SINR) PRB#47 that are greater thanis 8provided dB and less This measurement for 15 MHz and 20 MHz refers than or equal to 10 dB. PRBto Subbandto 8 PRB#63 downlink Signal torange PRB#56 of subband 8and according to Interference Noise Ratio frequency: (SINR) post-compensation values 10 MHz refers tothan PRB#42 that are greater dBtoandfor This measurement is 10 provided PRB#47 less than or equal to 12 dB. to PRB Subband 8 downlink Signal 15 MHz and 20 MHz refers to range of subband 8 according Interference and Noise Ratio to PRB#56 to PRB#63 frequency: (SINR) post-compensation values 10 MHz greater refers tothan PRB#42 that dBtoandfor This are measurement is 12 provided PRB#47 less than or equal to 14 dB. to PRB Subband 8 downlink Signal 15 MHz and 20 MHz refers to range of subband 8 according Interference and Noise Ratio to PRB#56 to PRB#63 frequency: (SINR) post-compensation values 10 MHz refers tothan PRB#42 that are greater dBtoandfor This measurement is 14 provided PRB#47 less than or equal to 16 dB. to PRB Subband 8 downlink Signal 15 MHz and 20 MHz refers to range of subband 8 according Interference and Noise Ratio to PRB#56 to PRB#63 frequency: (SINR) post-compensation values 10 MHz greater refers tothan PRB#42 that dBtoandfor This are measurement is 16 provided PRB#47 less than or equal to 18 dB. to PRB Subband 8 downlink Signal 15 MHz and 20 MHz refers to range of subband 8 according Interference and Noise Ratio to PRB#56 to PRB#63 frequency: (SINR) post-compensation values 10 refers tothan PRB#42 thatMHz are greater 18 dBtoand PRB#47 less than or equal to 20 dB. PRB 15 MHz 20 MHz refers to to range of and subband 8 according PRB#56 to PRB#63 frequency:
This measurement is provided for Subband 8 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis -4 dB andfor less This are measurement provided than or equal to -2 dB. PRB range Subband 8 downlink Signal to of subband 8and according to Interference Noise Ratio frequency: (SINR) post-compensation values 10 MHz refers tothan PRB#42 that are greater dBtoandfor less This measurement is -2 provided PRB#47 than or equal to 0 dB. PRB range of Subband 8 downlink to 15 MHz and 20 MHz Signal refers to subband 8 according to frequency: Interference and Noise Ratio PRB#56 to PRB#63 10 MHzpost-compensation refers to PRB#42 tovalues (SINR) PRB#47 that are greater thanis 0provided dB and less This measurement 15 MHz and 20 MHz refers to for of than or equal to 2 dB. PRB Subbandto 8 PRB#63 downlink Signal range to PRB#56 subband 8 according toRatio frequency: Interference and Noise 10 MHzpost-compensation refers to PRB#42 tovalues (SINR) PRB#47 that are greater thanis 2provided dB and less This measurement 15 MHz and 20 MHz refers to for of than or equal to 4 dB. PRB range Subband 8 downlink Signal to PRB#56 to PRB#63 to frequency: subband 8 according Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues (SINR) PRB#47 that are greater thanis 4provided dB and less This measurement 15 MHz and 20 MHz refers to for of than or equal to 6 dB. PRB Subbandto 8 PRB#63 downlink Signal range to PRB#56 subband 8 according toRatio frequency: Interference and Noise 10 MHzpost-compensation refers to PRB#42 tovalues (SINR) PRB#47 that are greater thanis 6provided dB and less This measurement 15 MHz and 20 MHz refers to for of than or equal to 8 dB. PRB range Subband 8 downlink Signal to PRB#56 to PRB#63 to frequency: subband 8 according Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#42 tovalues (SINR) PRB#47 that are greater thanis 8provided dB and less This measurement for 15 MHz and 20 MHz refers than or equal to 10 dB. PRBto Subbandto 8 PRB#63 downlink Signal torange PRB#56 of subband 8and according to Interference Noise Ratio frequency: (SINR) post-compensation values 10 MHz refers tothan PRB#42 that are greater dBtoandfor This measurement is 10 provided PRB#47 less than or equal to 12 dB. to PRB Subband 8 downlink Signal 15 MHz and 20 MHz refers to range of subband 8 according Interference and Noise Ratio to PRB#56 to PRB#63 frequency: (SINR) post-compensation values 10 MHz greater refers tothan PRB#42 that dBtoandfor This are measurement is 12 provided PRB#47 less than or equal to 14 dB. to PRB Subband 8 downlink Signal 15 MHz and 20 MHz refers to range of subband 8 according Interference and Noise Ratio to PRB#56 to PRB#63 frequency: (SINR) post-compensation values 10 MHz refers tothan PRB#42 that are greater dBtoandfor This measurement is 14 provided PRB#47 less than or equal to 16 dB. to PRB Subband 8 downlink Signal 15 MHz and 20 MHz refers to range of subband 8 according Interference and Noise Ratio to PRB#56 to PRB#63 frequency: (SINR) post-compensation values 10 MHz greater refers tothan PRB#42 that dBtoandfor This are measurement is 16 provided PRB#47 less than or equal to 18 dB. to PRB Subband 8 downlink Signal 15 MHz and 20 MHz refers to range of subband 8 according Interference and Noise Ratio to PRB#56 to PRB#63 frequency: (SINR) post-compensation values 10 refers tothan PRB#42 thatMHz are greater 18 dBtoand PRB#47 less than or equal to 20 dB. PRB 15 MHz 20 MHz refers to to range of and subband 8 according PRB#56 to PRB#63 frequency:
10 MHz refers to PRB#42 to PRB#47 15 MHz and 20 MHz refers to PRB#56 to PRB#63
10 MHz refers to PRB#42 to PRB#47 15 MHz and 20 MHz refers to PRB#56 to PRB#63
This measurement is provided for Subband 8 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 20 dB andfor This are measurement provided less than or equal to 22 dB. PRB Subband 8 downlink Signal to range of subband 8 according Interference and Noise Ratio to frequency: (SINR) post-compensation values 10 MHz refers tothan PRB#42 that are greater dBtoandfor This measurement is 22 provided PRB#47 less than or equal to 24 dB. to PRB Subband 8 downlink Signal 15 MHz and 20 MHz refers to range of subband 8 according Interference and Noise Ratio to PRB#56 to PRB#63 frequency: (SINR) post-compensation values 10 MHz greater refers tothan PRB#42 that dBtoandfor This are measurement is 24 provided PRB#47 less than or equal to 26 dB. to PRB Subband 8 downlink Signal 15 MHz and 20 MHz refers to range of subband 8 according Interference and Noise Ratio to PRB#56 to PRB#63 frequency: (SINR) post-compensation values 10 MHz refers tothan PRB#42 that are greater dBtoandfor This measurement is 26 provided PRB#47 less than or equal to 28 dB. to PRB Subband 8 downlink Signal 15 MHz and 20 MHz refers to range of subband 8 according Interference and Noise Ratio to PRB#56 to PRB#63 frequency: (SINR) post-compensation values 10 MHz greater refers tothan PRB#42 that dBtoandfor This are measurement is 28 provided PRB#47 less than or equal to 30 dB. to PRB Subband 9 downlink Signal 15 MHz and 20 MHz refers to range of subband 8 according Interference and Noise Ratio to PRB#56 to PRB#63 frequency: (SINR) post-compensation values 10 MHz refers tothan PRB#42 to to -10 that are greater equal This measurement is or provided for PRB#47 dB and less than or equal toto-8 dB. Subband 9 downlink Signal 15 MHz andof20subband MHz refers to PRB range according Interference and Noise 9 Ratio PRB#56 to PRB#63 to frequency: (SINR) post-compensation values 10 MHz refers tothan PRB#48 that are greater dBtoandfor less This measurement is -8 provided PRB#49 than or equal to -6 dB. PRB range Subband 9 downlink to 15 MHz and 20 MHz Signal refers of subband 9and according to to Interference Noise Ratio PRB#64 to PRB#71 frequency: (SINR) post-compensation values 10 MHz refers tothan PRB#48 that are greater dBtoandfor less This measurement is -6 provided PRB#49 than or equal to -4 dB. PRB range Subband 9 downlink to 15 MHz and 20 MHz Signal refers of subband 9and according to to Interference Noise Ratio PRB#64 to PRB#71 frequency: (SINR) post-compensation values 10 MHz greater refers tothan PRB#48 that dBtoandfor less This are measurement is -4 provided PRB#49 than or equal to -2 dB. PRB range Subband 9 downlink to 15 MHz and 20 MHz Signal refers of subband 9and according to to Interference Noise Ratio PRB#64 to PRB#71 frequency: (SINR) post-compensation values 10 MHz refers tothan PRB#48 that are greater dBtoandfor less This measurement is -2 provided PRB#49 than or equal to 0 dB. PRB range of Subband 9 downlink to 15 MHz and 20 MHz Signal refers to subband 9 according to frequency: Interference and Noise Ratio PRB#64 to PRB#71 10 MHzpost-compensation refers to PRB#48 tovalues (SINR) PRB#49 that are greater thanis 0provided dB and less This measurement 15 MHz and 20 MHz refers to for of than or equal to 2 dB. PRB Subbandto 9 PRB#71 downlink Signal range to PRB#64 subband 9 according toRatio frequency: Interference and Noise 10 MHzpost-compensation refers to PRB#48 tovalues (SINR) PRB#49 that are greater than 2 dB and less 15 MHz and 20 to than or equal to MHz 4 dB.refers PRB range of PRB#64 to PRB#71 subband 9 according to frequency:
This measurement is provided for Subband 8 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 20 dB andfor This are measurement provided less than or equal to 22 dB. PRB Subband 8 downlink Signal to range of subband 8 according Interference and Noise Ratio to frequency: (SINR) post-compensation values 10 MHz refers tothan PRB#42 that are greater dBtoandfor This measurement is 22 provided PRB#47 less than or equal to 24 dB. to PRB Subband 8 downlink Signal 15 MHz and 20 MHz refers to range of subband 8 according Interference and Noise Ratio to PRB#56 to PRB#63 frequency: (SINR) post-compensation values 10 MHz greater refers tothan PRB#42 that dBtoandfor This are measurement is 24 provided PRB#47 less than or equal to 26 dB. to PRB Subband 8 downlink Signal 15 MHz and 20 MHz refers to range of subband 8 according Interference and Noise Ratio to PRB#56 to PRB#63 frequency: (SINR) post-compensation values 10 MHz refers tothan PRB#42 that are greater dBtoandfor This measurement is 26 provided PRB#47 less than or equal to 28 dB. to PRB Subband 8 downlink Signal 15 MHz and 20 MHz refers to range of subband 8 according Interference and Noise Ratio to PRB#56 to PRB#63 frequency: (SINR) post-compensation values 10 MHz greater refers tothan PRB#42 that dBtoandfor This are measurement is 28 provided PRB#47 less than or equal to 30 dB. to PRB Subband 9 downlink Signal 15 MHz and 20 MHz refers to range of subband 8 according Interference and Noise Ratio to PRB#56 to PRB#63 frequency: (SINR) post-compensation values 10 MHz refers tothan PRB#42 to to -10 that are greater equal This measurement is or provided for PRB#47 dB and less than or equal toto-8 dB. Subband 9 downlink Signal 15 MHz andof20subband MHz refers to PRB range according Interference and Noise 9 Ratio PRB#56 to PRB#63 to frequency: (SINR) post-compensation values 10 MHz refers tothan PRB#48 that are greater dBtoandfor less This measurement is -8 provided PRB#49 than or equal to -6 dB. PRB range Subband 9 downlink to 15 MHz and 20 MHz Signal refers of subband 9and according to to Interference Noise Ratio PRB#64 to PRB#71 frequency: (SINR) post-compensation values 10 MHz refers tothan PRB#48 that are greater dBtoandfor less This measurement is -6 provided PRB#49 than or equal to -4 dB. PRB range Subband 9 downlink to 15 MHz and 20 MHz Signal refers of subband 9and according to to Interference Noise Ratio PRB#64 to PRB#71 frequency: (SINR) post-compensation values 10 MHz greater refers tothan PRB#48 that dBtoandfor less This are measurement is -4 provided PRB#49 than or equal to -2 dB. PRB range Subband 9 downlink to 15 MHz and 20 MHz Signal refers of subband 9and according to to Interference Noise Ratio PRB#64 to PRB#71 frequency: (SINR) post-compensation values 10 MHz refers tothan PRB#48 that are greater dBtoandfor less This measurement is -2 provided PRB#49 than or equal to 0 dB. PRB range of Subband 9 downlink to 15 MHz and 20 MHz Signal refers to subband 9 according to frequency: Interference and Noise Ratio PRB#64 to PRB#71 10 MHzpost-compensation refers to PRB#48 tovalues (SINR) PRB#49 that are greater thanis 0provided dB and less This measurement 15 MHz and 20 MHz refers to for of than or equal to 2 dB. PRB Subbandto 9 PRB#71 downlink Signal range to PRB#64 subband 9 according toRatio frequency: Interference and Noise 10 MHzpost-compensation refers to PRB#48 tovalues (SINR) PRB#49 that are greater than 2 dB and less 15 MHz and 20 to than or equal to MHz 4 dB.refers PRB range of PRB#64 to PRB#71 subband 9 according to frequency:
10 MHz refers to PRB#48 to PRB#49 15 MHz and 20 MHz refers to PRB#64 to PRB#71
10 MHz refers to PRB#48 to PRB#49 15 MHz and 20 MHz refers to PRB#64 to PRB#71
This measurement is provided for Subband 9 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 4provided dB and less This are measurement for than or equal to 6 dB. PRB of Subband 9 downlink Signal range to subband 9 according to frequency: Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues (SINR) PRB#49 that are greater thanis 6provided dB and less This measurement 15 MHz and 20 MHz refers to for of than or equal to 8 dB. PRB range Subband 9 downlink Signal to PRB#64 to PRB#71 to frequency: subband 9 according Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues (SINR) PRB#49 that are greater thanis 8provided dB and less This measurement for 15 MHz and 20 MHz refers than or equal to 10 dB. PRBto Subbandto 9 PRB#71 downlink Signal torange PRB#64 of subband 9and according to Interference Noise Ratio frequency: (SINR) post-compensation values 10 MHz refers tothan PRB#48 that are greater dBtoandfor This measurement is 10 provided PRB#49 less than or equal to 12 dB. to PRB Subband 9 downlink Signal 15 MHz and 20 MHz refers to range of subband 9 according Interference and Noise Ratio to PRB#64 to PRB#71 frequency: (SINR) post-compensation values 10 MHz greater refers tothan PRB#48 that dBtoandfor This are measurement is 12 provided PRB#49 less than or equal to 14 dB. to PRB Subband 9 downlink Signal 15 MHz and 20 MHz refers to range of subband 9 according Interference and Noise Ratio to PRB#64 to PRB#71 frequency: (SINR) post-compensation values 10 MHz refers tothan PRB#48 that are greater dBtoandfor This measurement is 14 provided PRB#49 less than or equal to 16 dB. to PRB Subband 9 downlink Signal 15 MHz and 20 MHz refers to range of subband 9 according Interference and Noise Ratio to PRB#64 to PRB#71 frequency: (SINR) post-compensation values 10 MHz greater refers tothan PRB#48 that dBtoandfor This are measurement is 16 provided PRB#49 less than or equal to 18 dB. to PRB Subband 9 downlink Signal 15 MHz and 20 MHz refers to range of subband 9 according Interference and Noise Ratio to PRB#64 to PRB#71 frequency: (SINR) post-compensation values 10 MHz refers tothan PRB#48 that are greater dBtoandfor This measurement is 18 provided PRB#49 less than or equal to 20 dB. to PRB Subband 9 downlink Signal 15 MHz and 20 MHz refers to range of subband 9 according Interference and Noise Ratio to PRB#64 to PRB#71 frequency: (SINR) post-compensation values 10 MHz greater refers tothan PRB#48 that dBtoandfor This are measurement is 20 provided PRB#49 less than or equal to 22 dB. to PRB Subband 9 downlink Signal 15 MHz and 20 MHz refers to range of subband 9 according Interference and Noise Ratio to PRB#64 to PRB#71 frequency: (SINR) post-compensation values 10 MHz refers tothan PRB#48 that are greater dBtoandfor This measurement is 22 provided PRB#49 less than or equal to 24 dB. to PRB Subband 9 downlink Signal 15 MHz and 20 MHz refers to range of subband 9 according Interference and Noise Ratio to PRB#64 to PRB#71 frequency: (SINR) post-compensation values 10 MHz greater refers tothan PRB#48 that dBtoandfor This are measurement is 24 provided PRB#49 less than or equal to 26 dB. to PRB Subband 9 downlink Signal 15 MHz and 20 MHz refers to range of subband 9 according Interference and Noise Ratio to PRB#64 to PRB#71 frequency: (SINR) post-compensation values 10 refers tothan PRB#48 thatMHz are greater 26 dBtoand PRB#49 less than or equal to 28 dB. PRB 15 MHz 20 MHz refers to to range of and subband 9 according PRB#64 to PRB#71 frequency:
This measurement is provided for Subband 9 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 4provided dB and less This are measurement for than or equal to 6 dB. PRB of Subband 9 downlink Signal range to subband 9 according to frequency: Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues (SINR) PRB#49 that are greater thanis 6provided dB and less This measurement 15 MHz and 20 MHz refers to for of than or equal to 8 dB. PRB range Subband 9 downlink Signal to PRB#64 to PRB#71 to frequency: subband 9 according Interference and Noise Ratio 10 MHzpost-compensation refers to PRB#48 tovalues (SINR) PRB#49 that are greater thanis 8provided dB and less This measurement for 15 MHz and 20 MHz refers than or equal to 10 dB. PRBto Subbandto 9 PRB#71 downlink Signal torange PRB#64 of subband 9and according to Interference Noise Ratio frequency: (SINR) post-compensation values 10 MHz refers tothan PRB#48 that are greater dBtoandfor This measurement is 10 provided PRB#49 less than or equal to 12 dB. to PRB Subband 9 downlink Signal 15 MHz and 20 MHz refers to range of subband 9 according Interference and Noise Ratio to PRB#64 to PRB#71 frequency: (SINR) post-compensation values 10 MHz greater refers tothan PRB#48 that dBtoandfor This are measurement is 12 provided PRB#49 less than or equal to 14 dB. to PRB Subband 9 downlink Signal 15 MHz and 20 MHz refers to range of subband 9 according Interference and Noise Ratio to PRB#64 to PRB#71 frequency: (SINR) post-compensation values 10 MHz refers tothan PRB#48 that are greater dBtoandfor This measurement is 14 provided PRB#49 less than or equal to 16 dB. to PRB Subband 9 downlink Signal 15 MHz and 20 MHz refers to range of subband 9 according Interference and Noise Ratio to PRB#64 to PRB#71 frequency: (SINR) post-compensation values 10 MHz greater refers tothan PRB#48 that dBtoandfor This are measurement is 16 provided PRB#49 less than or equal to 18 dB. to PRB Subband 9 downlink Signal 15 MHz and 20 MHz refers to range of subband 9 according Interference and Noise Ratio to PRB#64 to PRB#71 frequency: (SINR) post-compensation values 10 MHz refers tothan PRB#48 that are greater dBtoandfor This measurement is 18 provided PRB#49 less than or equal to 20 dB. to PRB Subband 9 downlink Signal 15 MHz and 20 MHz refers to range of subband 9 according Interference and Noise Ratio to PRB#64 to PRB#71 frequency: (SINR) post-compensation values 10 MHz greater refers tothan PRB#48 that dBtoandfor This are measurement is 20 provided PRB#49 less than or equal to 22 dB. to PRB Subband 9 downlink Signal 15 MHz and 20 MHz refers to range of subband 9 according Interference and Noise Ratio to PRB#64 to PRB#71 frequency: (SINR) post-compensation values 10 MHz refers tothan PRB#48 that are greater dBtoandfor This measurement is 22 provided PRB#49 less than or equal to 24 dB. to PRB Subband 9 downlink Signal 15 MHz and 20 MHz refers to range of subband 9 according Interference and Noise Ratio to PRB#64 to PRB#71 frequency: (SINR) post-compensation values 10 MHz greater refers tothan PRB#48 that dBtoandfor This are measurement is 24 provided PRB#49 less than or equal to 26 dB. to PRB Subband 9 downlink Signal 15 MHz and 20 MHz refers to range of subband 9 according Interference and Noise Ratio to PRB#64 to PRB#71 frequency: (SINR) post-compensation values 10 refers tothan PRB#48 thatMHz are greater 26 dBtoand PRB#49 less than or equal to 28 dB. PRB 15 MHz 20 MHz refers to to range of and subband 9 according PRB#64 to PRB#71 frequency:
10 MHz refers to PRB#48 to PRB#49 15 MHz and 20 MHz refers to PRB#64 to PRB#71
10 MHz refers to PRB#48 to PRB#49 15 MHz and 20 MHz refers to PRB#64 to PRB#71
This measurement is provided for Subband 9 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 28 dB andfor This are measurement provided less than or equal to 30 dB. Subband 10 downlink SignalPRB to range of subband 9 according Interference and Noise Ratio to frequency: (SINR) post-compensation values 10 MHz refers tothan PRB#48 to to -10 that are greater equal This measurement is or provided for PRB#49 dB and less than or equal to -8 dB. Subband 10 downlink Signal to 15 MHz andof20subband MHz refers to PRB range 10 Interference and Noise Ratio PRB#64 totoPRB#71 according frequency: (SINR) post-compensation values 15 MHz refers tothan PRB#72 toand less that are greater -8 dB This measurement is provided for PRB#74 than or equal to -6 dB.Signal PRB range Subband 10 downlink 20 MHz refers to PRB#72toto to of subband 10 according Interference and Noise Ratio PRB#79 frequency: (SINR) post-compensation values 15 MHz refers tothan PRB#72 that are greater dBtoandfor less This measurement is -6 provided PRB#74 than or equal to -4 dB. PRB range Subband 10 downlink Signal to 20 MHz refers to PRB#72 of subband 10 according toto Interference and Noise Ratio PRB#79 frequency: (SINR) post-compensation values 15 MHz greater refers tothan PRB#72 that dBtoandfor less This are measurement is -4 provided PRB#74 than or equal to -2 dB. PRB range Subband 10 downlink Signal to 20 MHz refers to PRB#72 of subband 10 according toto Interference and Noise Ratio PRB#79 frequency: (SINR) post-compensation values 15 MHz refers tothan PRB#72 that are greater dBtoandfor less This measurement is -2 provided PRB#74 than or equal to 0 dB. PRB range of Subband 10 downlink Signal 20 MHz refers to PRB#72 to to subband 10 according to frequency: Interference and Noise Ratio PRB#79 15 MHzpost-compensation refers to PRB#72 tovalues (SINR) PRB#74 that are greater thanis 0provided dB and less This measurement 20 MHz referstoto2PRB#72 to for of than or equal dB. PRB Subband 10 downlink Signalrange to PRB#79 subband 10 according frequency: Interference and Noiseto Ratio 15 MHzpost-compensation refers to PRB#72 tovalues (SINR) PRB#74 that are greater thanis 2provided dB and less This measurement for 20 MHz referstoto4PRB#72 torange than or equal dB. PRB of Subband 10 downlink Signal to PRB#79 subband 10 according to frequency: Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues (SINR) PRB#74 that are greater thanis 4provided dB and less This measurement 20 MHz referstoto6PRB#72 to for of than or equal dB. PRB Subband 10 downlink Signalrange to PRB#79 subband 10 according frequency: Interference and Noiseto Ratio 15 MHzpost-compensation refers to PRB#72 tovalues (SINR) PRB#74 that are greater thanis 6provided dB and less This measurement 20 MHz referstoto8PRB#72 to for of than or equal dB. PRB Subband 10 downlink Signalrange to PRB#79 subband 10 according frequency: Interference and Noiseto Ratio 15 MHzpost-compensation refers to PRB#72 tovalues (SINR) PRB#74 that are greater thanis 8provided dB and less This measurement for 20 MHz referstoto10 PRB#72 to range than or equal dB. PRB Subband 10 downlink Signal to PRB#79 of subband 10 according to Interference and Noise Ratio frequency: (SINR) post-compensation values 15 refers tothan PRB#72 thatMHz are greater 10 dBtoand PRB#74 less than or equal to 12 dB. PRB 20 MHz to PRB#72 to range of refers subband 10 according to PRB#79 frequency:
This measurement is provided for Subband 9 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 28 dB andfor This are measurement provided less than or equal to 30 dB. Subband 10 downlink SignalPRB to range of subband 9 according Interference and Noise Ratio to frequency: (SINR) post-compensation values 10 MHz refers tothan PRB#48 to to -10 that are greater equal This measurement is or provided for PRB#49 dB and less than or equal to -8 dB. Subband 10 downlink Signal to 15 MHz andof20subband MHz refers to PRB range 10 Interference and Noise Ratio PRB#64 totoPRB#71 according frequency: (SINR) post-compensation values 15 MHz refers tothan PRB#72 toand less that are greater -8 dB This measurement is provided for PRB#74 than or equal to -6 dB.Signal PRB range Subband 10 downlink 20 MHz refers to PRB#72toto to of subband 10 according Interference and Noise Ratio PRB#79 frequency: (SINR) post-compensation values 15 MHz refers tothan PRB#72 that are greater dBtoandfor less This measurement is -6 provided PRB#74 than or equal to -4 dB. PRB range Subband 10 downlink Signal to 20 MHz refers to PRB#72 of subband 10 according toto Interference and Noise Ratio PRB#79 frequency: (SINR) post-compensation values 15 MHz greater refers tothan PRB#72 that dBtoandfor less This are measurement is -4 provided PRB#74 than or equal to -2 dB. PRB range Subband 10 downlink Signal to 20 MHz refers to PRB#72 of subband 10 according toto Interference and Noise Ratio PRB#79 frequency: (SINR) post-compensation values 15 MHz refers tothan PRB#72 that are greater dBtoandfor less This measurement is -2 provided PRB#74 than or equal to 0 dB. PRB range of Subband 10 downlink Signal 20 MHz refers to PRB#72 to to subband 10 according to frequency: Interference and Noise Ratio PRB#79 15 MHzpost-compensation refers to PRB#72 tovalues (SINR) PRB#74 that are greater thanis 0provided dB and less This measurement 20 MHz referstoto2PRB#72 to for of than or equal dB. PRB Subband 10 downlink Signalrange to PRB#79 subband 10 according frequency: Interference and Noiseto Ratio 15 MHzpost-compensation refers to PRB#72 tovalues (SINR) PRB#74 that are greater thanis 2provided dB and less This measurement for 20 MHz referstoto4PRB#72 torange than or equal dB. PRB of Subband 10 downlink Signal to PRB#79 subband 10 according to frequency: Interference and Noise Ratio 15 MHzpost-compensation refers to PRB#72 tovalues (SINR) PRB#74 that are greater thanis 4provided dB and less This measurement 20 MHz referstoto6PRB#72 to for of than or equal dB. PRB Subband 10 downlink Signalrange to PRB#79 subband 10 according frequency: Interference and Noiseto Ratio 15 MHzpost-compensation refers to PRB#72 tovalues (SINR) PRB#74 that are greater thanis 6provided dB and less This measurement 20 MHz referstoto8PRB#72 to for of than or equal dB. PRB Subband 10 downlink Signalrange to PRB#79 subband 10 according frequency: Interference and Noiseto Ratio 15 MHzpost-compensation refers to PRB#72 tovalues (SINR) PRB#74 that are greater thanis 8provided dB and less This measurement for 20 MHz referstoto10 PRB#72 to range than or equal dB. PRB Subband 10 downlink Signal to PRB#79 of subband 10 according to Interference and Noise Ratio frequency: (SINR) post-compensation values 15 refers tothan PRB#72 thatMHz are greater 10 dBtoand PRB#74 less than or equal to 12 dB. PRB 20 MHz to PRB#72 to range of refers subband 10 according to PRB#79 frequency:
15 MHz refers to PRB#72 to PRB#74 20 MHz refers to PRB#72 to PRB#79
15 MHz refers to PRB#72 to PRB#74 20 MHz refers to PRB#72 to PRB#79
This measurement is provided for Subband 10 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 12 dB andfor This are measurement provided less than or equal to 14 db. Subband 10 downlink SignalPRB to range of subband 10 according Interference and Noise Ratio to frequency: (SINR) post-compensation values 15 MHz refers tothan PRB#72 that are greater dBtoandfor This measurement is 14 provided PRB#74 less than or to 16 dB. PRB Subband 10 equal downlink Signal 20 MHz refers to PRB#72 to to range of subband 10 according Interference and Noise Ratio to PRB#79 frequency: (SINR) post-compensation values 15 MHz greater refers tothan PRB#72 that dBtoandfor This are measurement is 16 provided PRB#74 less than or to 18 dB. PRB Subband 10 equal downlink Signal 20 MHz refers to PRB#72 to to range of subband 10 according Interference and Noise Ratio to PRB#79 frequency: (SINR) post-compensation values 15 MHz refers tothan PRB#72 that are greater dBtoandfor This measurement is 18 provided PRB#74 less than or to 20 dB. PRB Subband 10 equal downlink Signal 20 MHz refers to PRB#72 to to range of subband 10 according Interference and Noise Ratio to PRB#79 frequency: (SINR) post-compensation values 15 MHz greater refers tothan PRB#72 that dBtoandfor This are measurement is 20 provided PRB#74 less than or to 22 dB. PRB Subband 10 equal downlink Signal 20 MHz refers to PRB#72 to to range of subband 10 according Interference and Noise Ratio to PRB#79 frequency: (SINR) post-compensation values 15 MHz refers tothan PRB#72 that are greater dBtoandfor This measurement is 22 provided PRB#74 less than or to 24 dB. PRB Subband 10 equal downlink Signal 20 MHz refers to PRB#72 to to range of subband 10 according Interference and Noise Ratio to PRB#79 frequency: (SINR) post-compensation values 15 MHz greater refers tothan PRB#72 that dBtoandfor This are measurement is 24 provided PRB#74 less than or to 26 dB. PRB Subband 10 equal downlink Signal 20 MHz refers to PRB#72 to to range of subband 10 according Interference and Noise Ratio to PRB#79 frequency: (SINR) post-compensation values 15 MHz refers tothan PRB#72 that are greater dBtoandfor This measurement is 26 provided PRB#74 less than or to 28 dB. PRB Subband 10 equal downlink Signal 20 MHz refers to PRB#72 to to to range of subband 10 according Interference and Noise Ratio PRB#79 frequency: (SINR) post-compensation values 15 MHz greater refers tothan PRB#72 that dBtoandfor This are measurement is 28 provided PRB#74 less than or to 30 dB. PRB Subband 11 equal downlink Signal 20 MHz refers to PRB#72 to to range of subband 10 according Interference and Noise Ratio to PRB#79 frequency: (SINR) post-compensation values 15 MHz refers tothan PRB#72 to to -10 that are greater equal This measurement is or provided for PRB#74 dB and less or equal to -8 Subband 11 than downlink Signal to dB. 20 MHz refers to PRB#72 to Subband 11 for MHzRatio refers to Interference and20 Noise PRB#79 PRB#80 to PRB#87. (SINR) post-compensation values that greater thanis -8 dB andfor less This are measurement provided than or equal to -6 dB. Subband Subband 11 downlink Signal to 11 for 20 MHz refers to PRB#80 Interference and Noise Ratio to PRB#87. (SINR) post-compensation values
This measurement is provided for Subband 10 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 12 dB andfor This are measurement provided less than or equal to 14 db. Subband 10 downlink SignalPRB to range of subband 10 according Interference and Noise Ratio to frequency: (SINR) post-compensation values 15 MHz refers tothan PRB#72 that are greater dBtoandfor This measurement is 14 provided PRB#74 less than or to 16 dB. PRB Subband 10 equal downlink Signal 20 MHz refers to PRB#72 to to range of subband 10 according Interference and Noise Ratio to PRB#79 frequency: (SINR) post-compensation values 15 MHz greater refers tothan PRB#72 that dBtoandfor This are measurement is 16 provided PRB#74 less than or to 18 dB. PRB Subband 10 equal downlink Signal 20 MHz refers to PRB#72 to to range of subband 10 according Interference and Noise Ratio to PRB#79 frequency: (SINR) post-compensation values 15 MHz refers tothan PRB#72 that are greater dBtoandfor This measurement is 18 provided PRB#74 less than or to 20 dB. PRB Subband 10 equal downlink Signal 20 MHz refers to PRB#72 to to range of subband 10 according Interference and Noise Ratio to PRB#79 frequency: (SINR) post-compensation values 15 MHz greater refers tothan PRB#72 that dBtoandfor This are measurement is 20 provided PRB#74 less than or to 22 dB. PRB Subband 10 equal downlink Signal 20 MHz refers to PRB#72 to to range of subband 10 according Interference and Noise Ratio to PRB#79 frequency: (SINR) post-compensation values 15 MHz refers tothan PRB#72 that are greater dBtoandfor This measurement is 22 provided PRB#74 less than or to 24 dB. PRB Subband 10 equal downlink Signal 20 MHz refers to PRB#72 to to range of subband 10 according Interference and Noise Ratio to PRB#79 frequency: (SINR) post-compensation values 15 MHz greater refers tothan PRB#72 that dBtoandfor This are measurement is 24 provided PRB#74 less than or to 26 dB. PRB Subband 10 equal downlink Signal 20 MHz refers to PRB#72 to to range of subband 10 according Interference and Noise Ratio to PRB#79 frequency: (SINR) post-compensation values 15 MHz refers tothan PRB#72 that are greater dBtoandfor This measurement is 26 provided PRB#74 less than or to 28 dB. PRB Subband 10 equal downlink Signal 20 MHz refers to PRB#72 to to to range of subband 10 according Interference and Noise Ratio PRB#79 frequency: (SINR) post-compensation values 15 MHz greater refers tothan PRB#72 that dBtoandfor This are measurement is 28 provided PRB#74 less than or to 30 dB. PRB Subband 11 equal downlink Signal 20 MHz refers to PRB#72 to to range of subband 10 according Interference and Noise Ratio to PRB#79 frequency: (SINR) post-compensation values 15 MHz refers tothan PRB#72 to to -10 that are greater equal This measurement is or provided for PRB#74 dB and less or equal to -8 Subband 11 than downlink Signal to dB. 20 MHz refers to PRB#72 to Subband 11 for MHzRatio refers to Interference and20 Noise PRB#79 PRB#80 to PRB#87. (SINR) post-compensation values that greater thanis -8 dB andfor less This are measurement provided than or equal to -6 dB. Subband Subband 11 downlink Signal to 11 for 20 MHz refers to PRB#80 Interference and Noise Ratio to PRB#87. (SINR) post-compensation values
that are greater than -6 dB and less than or equal to -4 dB. Subband 11 for 20 MHz refers to PRB#80 to PRB#87.
that are greater than -6 dB and less than or equal to -4 dB. Subband 11 for 20 MHz refers to PRB#80 to PRB#87.
This measurement is provided for Subband 11 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis -4 dB andfor less This are measurement provided than or equal to -2 dB. Subband Subband 11 downlink Signal to 11 for 20 MHz refers to PRB#80 Interference and Noise Ratio to PRB#87. (SINR) post-compensation values
This measurement is provided for Subband 11 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis -4 dB andfor less This are measurement provided than or equal to -2 dB. Subband Subband 11 downlink Signal to 11 for 20 MHz refers to PRB#80 Interference and Noise Ratio to PRB#87. (SINR) post-compensation values
that greater thanis -2 dB andfor less This are measurement provided than or equal to 0 dB. Subband Subband 11 downlink Signal to 11 for 20 MHz refers to PRB#80 Interference and Noise Ratio to PRB#87. (SINR) post-compensation values
that greater thanis -2 dB andfor less This are measurement provided than or equal to 0 dB. Subband Subband 11 downlink Signal to 11 for 20 MHz refers to PRB#80 Interference and Noise Ratio to PRB#87. (SINR) post-compensation values
that greater thanis 0provided dB and less This are measurement for than or equal to 2 dB. Subband Subband 11 downlink Signal to 11 for 20 MHz refers to PRB#80 Interference and Noise Ratio to PRB#87. (SINR) post-compensation values
that greater thanis 0provided dB and less This are measurement for than or equal to 2 dB. Subband Subband 11 downlink Signal to 11 for 20 MHz refers to PRB#80 Interference and Noise Ratio to PRB#87. (SINR) post-compensation values
that greater thanis 2provided dB and less This are measurement for than or equal to 4 dB. Subband Subband 11 downlink Signal to 11 for 20 MHz refers to PRB#80 Interference and Noise Ratio to PRB#87. (SINR) post-compensation values
that greater thanis 2provided dB and less This are measurement for than or equal to 4 dB. Subband Subband 11 downlink Signal to 11 for 20 MHz refers to PRB#80 Interference and Noise Ratio to PRB#87. (SINR) post-compensation values
that greater thanis 4provided dB and less This are measurement for than or equal to 6 dB. Subband Subband 11 downlink Signal to 11 for 20 MHz refers to PRB#80 Interference and Noise Ratio to PRB#87. (SINR) post-compensation values
that greater thanis 4provided dB and less This are measurement for than or equal to 6 dB. Subband Subband 11 downlink Signal to 11 for 20 MHz refers to PRB#80 Interference and Noise Ratio to PRB#87. (SINR) post-compensation values
that greater thanis 6provided dB and less This are measurement for than or equal to 8 dB. Subband Subband 11 downlink Signal to 11 for 20 MHz refers to PRB#80 Interference and Noise Ratio to PRB#87. (SINR) post-compensation values
that greater thanis 6provided dB and less This are measurement for than or equal to 8 dB. Subband Subband 11 downlink Signal to 11 for 20 MHz refers to PRB#80 Interference and Noise Ratio to PRB#87. (SINR) post-compensation values
that greater thanis 8provided dB and less This are measurement for than or equal to 10 dB. Subband Subband 11 downlink Signal to 11 for 20 MHz refers to PRB#80 Interference and Noise Ratio to PRB#87. (SINR) post-compensation values
that greater thanis 8provided dB and less This are measurement for than or equal to 10 dB. Subband Subband 11 downlink Signal to 11 for 20 MHz refers to PRB#80 Interference and Noise Ratio to PRB#87. (SINR) post-compensation values
that greater thanis 10 dB andfor This are measurement provided less than or equal to 12 dB. Subband 11 downlink Signal to Subband 11 for MHzRatio refers to Interference and20 Noise PRB#80 to PRB#87. (SINR) post-compensation values
that greater thanis 10 dB andfor This are measurement provided less than or equal to 12 dB. Subband 11 downlink Signal to Subband 11 for MHzRatio refers to Interference and20 Noise PRB#80 to PRB#87. (SINR) post-compensation values
that greater thanis 12 dB andfor This are measurement provided less than or equal to 14 db. Subband 11 downlink Signal to Subband 11 for MHzRatio refers to Interference and20 Noise PRB#80 to PRB#87. (SINR) post-compensation values
that greater thanis 12 dB andfor This are measurement provided less than or equal to 14 db. Subband 11 downlink Signal to Subband 11 for MHzRatio refers to Interference and20 Noise PRB#80 to PRB#87. (SINR) post-compensation values
that greater thanis 14 dB andfor This are measurement provided less than or equal to 16 dB. Subband 11 downlink Signal to Subband 11 for MHzRatio refers to Interference and20 Noise PRB#80 to PRB#87. (SINR) post-compensation values
that greater thanis 14 dB andfor This are measurement provided less than or equal to 16 dB. Subband 11 downlink Signal to Subband 11 for MHzRatio refers to Interference and20 Noise PRB#80 to PRB#87. (SINR) post-compensation values
that greater thanis 16 dB andfor This are measurement provided less than or equal to 18 dB. Subband 11 downlink Signal to Subband 11 for MHzRatio refers to Interference and20 Noise PRB#80 to PRB#87. (SINR) post-compensation values
that greater thanis 16 dB andfor This are measurement provided less than or equal to 18 dB. Subband 11 downlink Signal to Subband 11 for MHzRatio refers to Interference and20 Noise PRB#80 to PRB#87. (SINR) post-compensation values
that are greater than 18 dB and less than or equal to 20 dB. Subband 11 for 20 MHz refers to PRB#80 to PRB#87.
that are greater than 18 dB and less than or equal to 20 dB. Subband 11 for 20 MHz refers to PRB#80 to PRB#87.
This measurement is provided for Subband 11 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 20 dB andfor This are measurement provided less than or equal to 22 dB. Subband 11 downlink Signal to Subband 11 for MHzRatio refers to Interference and20 Noise PRB#80 to PRB#87. (SINR) post-compensation values
This measurement is provided for Subband 11 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 20 dB andfor This are measurement provided less than or equal to 22 dB. Subband 11 downlink Signal to Subband 11 for MHzRatio refers to Interference and20 Noise PRB#80 to PRB#87. (SINR) post-compensation values
that greater thanis 22 dB andfor This are measurement provided less than or equal to 24 dB. Subband 11 downlink Signal to Subband 11 for MHzRatio refers to Interference and20 Noise PRB#80 to PRB#87. (SINR) post-compensation values
that greater thanis 22 dB andfor This are measurement provided less than or equal to 24 dB. Subband 11 downlink Signal to Subband 11 for MHzRatio refers to Interference and20 Noise PRB#80 to PRB#87. (SINR) post-compensation values
that greater thanis 24 dB andfor This are measurement provided less than or equal to 26 dB. Subband 11 downlink Signal to Subband 11 for MHzRatio refers to Interference and20 Noise PRB#80 to PRB#87. (SINR) post-compensation values
that greater thanis 24 dB andfor This are measurement provided less than or equal to 26 dB. Subband 11 downlink Signal to Subband 11 for MHzRatio refers to Interference and20 Noise PRB#80 to PRB#87. (SINR) post-compensation values
that greater thanis 26 dB andfor This are measurement provided less than or equal to 28 dB. Subband 11 downlink Signal to Subband 11 for MHzRatio refers to Interference and20 Noise PRB#80 to PRB#87. (SINR) post-compensation values
that greater thanis 26 dB andfor This are measurement provided less than or equal to 28 dB. Subband 11 downlink Signal to Subband 11 for MHzRatio refers to Interference and20 Noise PRB#80 to PRB#87. (SINR) post-compensation values
that greater thanis 28 dB andfor This are measurement provided less than or equal to 30 dB. Subband 12 downlink Signal to Subband 11 for MHzRatio refers to Interference and20 Noise PRB#80 to PRB#87. (SINR) post-compensation values
that greater thanis 28 dB andfor This are measurement provided less than or equal to 30 dB. Subband 12 downlink Signal to Subband 11 for MHzRatio refers to Interference and20 Noise PRB#80 to PRB#87. (SINR) post-compensation values
that greater thanis or equal tofor -10 This are measurement provided dB and less than or equal to -8 dB. Subband 12 downlink Signal to Subband 12 and for 20 MHzRatio refers to Interference Noise PRB#88 to PRB#95. (SINR) post-compensation values
that greater thanis or equal tofor -10 This are measurement provided dB and less than or equal to -8 dB. Subband 12 downlink Signal to Subband 12 and for 20 MHzRatio refers to Interference Noise PRB#88 to PRB#95. (SINR) post-compensation values
that greater thanis -8 dB andfor less This are measurement provided than or equal to -6 dB. Subband Subband 12 downlink Signal to 12 for 20 MHz refers to PRB#88 Interference and Noise Ratio to PRB#95. (SINR) post-compensation values
that greater thanis -8 dB andfor less This are measurement provided than or equal to -6 dB. Subband Subband 12 downlink Signal to 12 for 20 MHz refers to PRB#88 Interference and Noise Ratio to PRB#95. (SINR) post-compensation values
that greater thanis -6 dB andfor less This are measurement provided than or equal to -4 dB. Subband Subband 12 downlink Signal to 12 for 20 MHz refers to PRB#88 Interference and Noise Ratio to PRB#95. (SINR) post-compensation values
that greater thanis -6 dB andfor less This are measurement provided than or equal to -4 dB. Subband Subband 12 downlink Signal to 12 for 20 MHz refers to PRB#88 Interference and Noise Ratio to PRB#95. (SINR) post-compensation values
that greater thanis -4 dB andfor less This are measurement provided than or equal to -2 dB. Subband Subband 12 downlink Signal to 12 for 20 MHz refers to PRB#88 Interference and Noise Ratio to PRB#95. (SINR) post-compensation values
that greater thanis -4 dB andfor less This are measurement provided than or equal to -2 dB. Subband Subband 12 downlink Signal to 12 for 20 MHz refers to PRB#88 Interference and Noise Ratio to PRB#95. (SINR) post-compensation values
that greater thanis -2 dB andfor less This are measurement provided than or equal to 0 dB. Subband Subband 12 downlink Signal to 12 for 20 MHz refers to PRB#88 Interference and Noise Ratio to PRB#95. (SINR) post-compensation values
that greater thanis -2 dB andfor less This are measurement provided than or equal to 0 dB. Subband Subband 12 downlink Signal to 12 for 20 MHz refers to PRB#88 Interference and Noise Ratio to PRB#95. (SINR) post-compensation values
that greater thanis 0provided dB and less This are measurement for than or equal to 2 dB. Subband Subband 12 downlink Signal to 12 for 20 MHz refers to PRB#88 Interference and Noise Ratio to PRB#95. (SINR) post-compensation values
that greater thanis 0provided dB and less This are measurement for than or equal to 2 dB. Subband Subband 12 downlink Signal to 12 for 20 MHz refers to PRB#88 Interference and Noise Ratio to PRB#95. (SINR) post-compensation values
that are greater than 2 dB and less than or equal to 4 dB. Subband 12 for 20 MHz refers to PRB#88 to PRB#95.
that are greater than 2 dB and less than or equal to 4 dB. Subband 12 for 20 MHz refers to PRB#88 to PRB#95.
This measurement is provided for Subband 12 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 4provided dB and less This are measurement for than or equal to 6 dB. Subband Subband 12 downlink Signal to 12 for 20 MHz refers to PRB#88 Interference and Noise Ratio to PRB#95. (SINR) post-compensation values
This measurement is provided for Subband 12 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 4provided dB and less This are measurement for than or equal to 6 dB. Subband Subband 12 downlink Signal to 12 for 20 MHz refers to PRB#88 Interference and Noise Ratio to PRB#95. (SINR) post-compensation values
that greater thanis 6provided dB and less This are measurement for than or equal to 8 dB. Subband Subband 12 downlink Signal to 12 for 20 MHz refers to PRB#88 Interference and Noise Ratio to PRB#95. (SINR) post-compensation values
that greater thanis 6provided dB and less This are measurement for than or equal to 8 dB. Subband Subband 12 downlink Signal to 12 for 20 MHz refers to PRB#88 Interference and Noise Ratio to PRB#95. (SINR) post-compensation values
that greater thanis 8provided dB and less This are measurement for than or equal to 10 dB. Subband Subband 12 downlink Signal to 12 for 20 MHz refers to PRB#88 Interference and Noise Ratio to PRB#95. (SINR) post-compensation values
that greater thanis 8provided dB and less This are measurement for than or equal to 10 dB. Subband Subband 12 downlink Signal to 12 for 20 MHz refers to PRB#88 Interference and Noise Ratio to PRB#95. (SINR) post-compensation values
that greater thanis 10 dB andfor This are measurement provided less than or equal to 12 dB. Subband 12 downlink Signal to Subband 12 and for 20 MHzRatio refers to Interference Noise PRB#88 to PRB#95. (SINR) post-compensation values
that greater thanis 10 dB andfor This are measurement provided less than or equal to 12 dB. Subband 12 downlink Signal to Subband 12 and for 20 MHzRatio refers to Interference Noise PRB#88 to PRB#95. (SINR) post-compensation values
that greater thanis 12 dB andfor This are measurement provided less than or equal to 14 db. Subband 12 downlink Signal to Subband 12 and for 20 MHzRatio refers to Interference Noise PRB#88 to PRB#95. (SINR) post-compensation values
that greater thanis 12 dB andfor This are measurement provided less than or equal to 14 db. Subband 12 downlink Signal to Subband 12 and for 20 MHzRatio refers to Interference Noise PRB#88 to PRB#95. (SINR) post-compensation values
that greater thanis 14 dB andfor This are measurement provided less than or equal to 16 dB. Subband 12 downlink Signal to Subband 12 and for 20 MHzRatio refers to Interference Noise PRB#88 to PRB#95. (SINR) post-compensation values
that greater thanis 14 dB andfor This are measurement provided less than or equal to 16 dB. Subband 12 downlink Signal to Subband 12 and for 20 MHzRatio refers to Interference Noise PRB#88 to PRB#95. (SINR) post-compensation values
that greater thanis 16 dB andfor This are measurement provided less than or equal to 18 dB. Subband 12 downlink Signal to Subband 12 and for 20 MHzRatio refers to Interference Noise PRB#88 to PRB#95. (SINR) post-compensation values
that greater thanis 16 dB andfor This are measurement provided less than or equal to 18 dB. Subband 12 downlink Signal to Subband 12 and for 20 MHzRatio refers to Interference Noise PRB#88 to PRB#95. (SINR) post-compensation values
that greater thanis 18 dB andfor This are measurement provided less than or equal to 20 dB. Subband 12 downlink Signal to Subband 12 and for 20 MHzRatio refers to Interference Noise PRB#88 to PRB#95. (SINR) post-compensation values
that greater thanis 18 dB andfor This are measurement provided less than or equal to 20 dB. Subband 12 downlink Signal to Subband 12 and for 20 MHzRatio refers to Interference Noise PRB#88 to PRB#95. (SINR) post-compensation values
that greater thanis 20 dB andfor This are measurement provided less than or equal to 22 dB. Subband 12 downlink Signal to Subband 12 and for 20 MHzRatio refers to Interference Noise PRB#88 to PRB#95. (SINR) post-compensation values
that greater thanis 20 dB andfor This are measurement provided less than or equal to 22 dB. Subband 12 downlink Signal to Subband 12 and for 20 MHzRatio refers to Interference Noise PRB#88 to PRB#95. (SINR) post-compensation values
that greater thanis 22 dB andfor This are measurement provided less than or equal to 24 dB. Subband 12 downlink Signal to Subband 12 and for 20 MHzRatio refers to Interference Noise PRB#88 to PRB#95. (SINR) post-compensation values
that greater thanis 22 dB andfor This are measurement provided less than or equal to 24 dB. Subband 12 downlink Signal to Subband 12 and for 20 MHzRatio refers to Interference Noise PRB#88 to PRB#95. (SINR) post-compensation values
that greater thanis 24 dB andfor This are measurement provided less than or equal to 26 dB. Subband 12 downlink Signal to Subband 12 and for 20 MHzRatio refers to Interference Noise PRB#88 to PRB#95. (SINR) post-compensation values
that greater thanis 24 dB andfor This are measurement provided less than or equal to 26 dB. Subband 12 downlink Signal to Subband 12 and for 20 MHzRatio refers to Interference Noise PRB#88 to PRB#95. (SINR) post-compensation values
that are greater than 26 dB and less than or equal to 28 dB. Subband 12 for 20 MHz refers to PRB#88 to PRB#95.
that are greater than 26 dB and less than or equal to 28 dB. Subband 12 for 20 MHz refers to PRB#88 to PRB#95.
This measurement is provided for Subband 12 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 28 dB andfor This are measurement provided less than or equal to 30 dB. Subband 13 downlink Signal to Subband 12 and for 20 MHzRatio refers to Interference Noise PRB#88 to PRB#95. (SINR) post-compensation values
This measurement is provided for Subband 12 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 28 dB andfor This are measurement provided less than or equal to 30 dB. Subband 13 downlink Signal to Subband 12 and for 20 MHzRatio refers to Interference Noise PRB#88 to PRB#95. (SINR) post-compensation values
that greater thanis or equal tofor -10 This are measurement provided dB and less than or equal to -8 dB. Subband 13 downlink Signal to Subband 13 and for 20 MHzRatio refers to Interference Noise PRB#96 to PRB#99. (SINR) post-compensation values
that greater thanis or equal tofor -10 This are measurement provided dB and less than or equal to -8 dB. Subband 13 downlink Signal to Subband 13 and for 20 MHzRatio refers to Interference Noise PRB#96 to PRB#99. (SINR) post-compensation values
that greater thanis -8 dB andfor less This are measurement provided than or equal to -6 dB. Subband Subband 13 downlink Signal to 13 for 20 MHz refers to PRB#96 Interference and Noise Ratio to PRB#99. (SINR) post-compensation values
that greater thanis -8 dB andfor less This are measurement provided than or equal to -6 dB. Subband Subband 13 downlink Signal to 13 for 20 MHz refers to PRB#96 Interference and Noise Ratio to PRB#99. (SINR) post-compensation values
that greater thanis -6 dB andfor less This are measurement provided than or equal to -4 dB. Subband Subband 13 downlink Signal to 13 for 20 MHz refers to PRB#96 Interference and Noise Ratio to PRB#99. (SINR) post-compensation values
that greater thanis -6 dB andfor less This are measurement provided than or equal to -4 dB. Subband Subband 13 downlink Signal to 13 for 20 MHz refers to PRB#96 Interference and Noise Ratio to PRB#99. (SINR) post-compensation values
that greater thanis -4 dB andfor less This are measurement provided than or equal to -2 dB. Subband Subband 13 downlink Signal to 13 for 20 MHz refers to PRB#96 Interference and Noise Ratio to PRB#99. (SINR) post-compensation values
that greater thanis -4 dB andfor less This are measurement provided than or equal to -2 dB. Subband Subband 13 downlink Signal to 13 for 20 MHz refers to PRB#96 Interference and Noise Ratio to PRB#99. (SINR) post-compensation values
that greater thanis -2 dB andfor less This are measurement provided than or equal to 0 dB. Subband Subband 13 downlink Signal to 13 for 20 MHz refers to PRB#96 Interference and Noise Ratio to PRB#99. (SINR) post-compensation values
that greater thanis -2 dB andfor less This are measurement provided than or equal to 0 dB. Subband Subband 13 downlink Signal to 13 for 20 MHz refers to PRB#96 Interference and Noise Ratio to PRB#99. (SINR) post-compensation values
that greater thanis 0provided dB and less This are measurement for than or equal to 2 dB. Subband Subband 13 downlink Signal to 13 for 20 MHz refers to PRB#96 Interference and Noise Ratio to PRB#99. (SINR) post-compensation values
that greater thanis 0provided dB and less This are measurement for than or equal to 2 dB. Subband Subband 13 downlink Signal to 13 for 20 MHz refers to PRB#96 Interference and Noise Ratio to PRB#99. (SINR) post-compensation values
that greater thanis 2provided dB and less This are measurement for than or equal to 4 dB. Subband Subband 13 downlink Signal to 13 for 20 MHz refers to PRB#96 Interference and Noise Ratio to PRB#99. (SINR) post-compensation values
that greater thanis 2provided dB and less This are measurement for than or equal to 4 dB. Subband Subband 13 downlink Signal to 13 for 20 MHz refers to PRB#96 Interference and Noise Ratio to PRB#99. (SINR) post-compensation values
that greater thanis 4provided dB and less This are measurement for than or equal to 6 dB. Subband Subband 13 downlink Signal to 13 for 20 MHz refers to PRB#96 Interference and Noise Ratio to PRB#99. (SINR) post-compensation values
that greater thanis 4provided dB and less This are measurement for than or equal to 6 dB. Subband Subband 13 downlink Signal to 13 for 20 MHz refers to PRB#96 Interference and Noise Ratio to PRB#99. (SINR) post-compensation values
that greater thanis 6provided dB and less This are measurement for than or equal to 8 dB. Subband Subband 13 downlink Signal to 13 for 20 MHz refers to PRB#96 Interference and Noise Ratio to PRB#99. (SINR) post-compensation values
that greater thanis 6provided dB and less This are measurement for than or equal to 8 dB. Subband Subband 13 downlink Signal to 13 for 20 MHz refers to PRB#96 Interference and Noise Ratio to PRB#99. (SINR) post-compensation values
that greater thanis 8provided dB and less This are measurement for than or equal to 10 dB. Subband Subband 13 downlink Signal to 13 for 20 MHz refers to PRB#96 Interference and Noise Ratio to PRB#99. (SINR) post-compensation values
that greater thanis 8provided dB and less This are measurement for than or equal to 10 dB. Subband Subband 13 downlink Signal to 13 for 20 MHz refers to PRB#96 Interference and Noise Ratio to PRB#99. (SINR) post-compensation values
that are greater than 10 dB and less than or equal to 12 dB. Subband 13 for 20 MHz refers to PRB#96 to PRB#99.
that are greater than 10 dB and less than or equal to 12 dB. Subband 13 for 20 MHz refers to PRB#96 to PRB#99.
This measurement is provided for Subband 13 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 12 dB andfor This are measurement provided less than or equal to 14 db. Subband 13 downlink Signal to Subband 13 and for 20 MHzRatio refers to Interference Noise PRB#96 to PRB#99. (SINR) post-compensation values
This measurement is provided for Subband 13 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 12 dB andfor This are measurement provided less than or equal to 14 db. Subband 13 downlink Signal to Subband 13 and for 20 MHzRatio refers to Interference Noise PRB#96 to PRB#99. (SINR) post-compensation values
that greater thanis 14 dB andfor This are measurement provided less than or equal to 16 dB. Subband 13 downlink Signal to Subband 13 and for 20 MHzRatio refers to Interference Noise PRB#96 to PRB#99. (SINR) post-compensation values
that greater thanis 14 dB andfor This are measurement provided less than or equal to 16 dB. Subband 13 downlink Signal to Subband 13 and for 20 MHzRatio refers to Interference Noise PRB#96 to PRB#99. (SINR) post-compensation values
that greater thanis 16 dB andfor This are measurement provided less than or equal to 18 dB. Subband 13 downlink Signal to Subband 13 and for 20 MHzRatio refers to Interference Noise PRB#96 to PRB#99. (SINR) post-compensation values
that greater thanis 16 dB andfor This are measurement provided less than or equal to 18 dB. Subband 13 downlink Signal to Subband 13 and for 20 MHzRatio refers to Interference Noise PRB#96 to PRB#99. (SINR) post-compensation values
that greater thanis 18 dB andfor This are measurement provided less than or equal to 20 dB. Subband 13 downlink Signal to Subband 13 and for 20 MHzRatio refers to Interference Noise PRB#96 to PRB#99. (SINR) post-compensation values
that greater thanis 18 dB andfor This are measurement provided less than or equal to 20 dB. Subband 13 downlink Signal to Subband 13 and for 20 MHzRatio refers to Interference Noise PRB#96 to PRB#99. (SINR) post-compensation values
that greater thanis 20 dB andfor This are measurement provided less than or equal to 22 dB. Subband 13 downlink Signal to Subband 13 and for 20 MHzRatio refers to Interference Noise PRB#96 to PRB#99. (SINR) post-compensation values
that greater thanis 20 dB andfor This are measurement provided less than or equal to 22 dB. Subband 13 downlink Signal to Subband 13 and for 20 MHzRatio refers to Interference Noise PRB#96 to PRB#99. (SINR) post-compensation values
that greater thanis 22 dB andfor This are measurement provided less than or equal to 24 dB. Subband 13 downlink Signal to Subband 13 and for 20 MHzRatio refers to Interference Noise PRB#96 to PRB#99. (SINR) post-compensation values
that greater thanis 22 dB andfor This are measurement provided less than or equal to 24 dB. Subband 13 downlink Signal to Subband 13 and for 20 MHzRatio refers to Interference Noise PRB#96 to PRB#99. (SINR) post-compensation values
that greater thanis 24 dB andfor This are measurement provided less than or equal to 26 dB. Subband 13 downlink Signal to Subband 13 and for 20 MHzRatio refers to Interference Noise PRB#96 to PRB#99. (SINR) post-compensation values
that greater thanis 24 dB andfor This are measurement provided less than or equal to 26 dB. Subband 13 downlink Signal to Subband 13 and for 20 MHzRatio refers to Interference Noise PRB#96 to PRB#99. (SINR) post-compensation values
that greater thanis 26 dB andfor This are measurement provided less than or equal to 28 dB. Subband 13 downlink Signal to Subband 13 and for 20 MHzRatio refers to Interference Noise PRB#96 to PRB#99. (SINR) post-compensation values
that greater thanis 26 dB andfor This are measurement provided less than or equal to 28 dB. Subband 13 downlink Signal to Subband 13 and for 20 MHzRatio refers to Interference Noise PRB#96 to PRB#99. (SINR) post-compensation values
that greater thanis 28 dB andfor This are measurement provided less than or equal to 30 dB. Subband 1 downlink Signal to Subband 13 and for 20 MHzRatio refers to Interference Noise PRB#96 to PRB#99. (SINR) post-compensation values
that greater thanis 28 dB andfor This are measurement provided less than or equal to 30 dB. Subband 1 downlink Signal to Subband 13 and for 20 MHzRatio refers to Interference Noise PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than or equal to -10 to dB and Subband 1 downlink Signal less than or equal to -8 dB. PRB Interference and Noise Ratio range subband 1 according to (SINR)ofpost-compensation values frequency: (2 CQIs or codewords) that arefor This measurement is provided 3 MHz and 5-8 MHz refers to PRB#0 greater than dB and less than or Subband 1 downlink Signal to to PRB#3 equal to -6 dB. PRB range of Interference and Ratio 10 MHz refers to Noise PRB#0 to PRB#5 subband 1 according to frequency: (SINR) post-compensation values 15 MHz and 20 MHz refers to 3 MHz 5 MHz refers to PRB#0 (2 CQIsand orPRB#7 codewords) that are PRB#0 to to PRB#3 greater than -6 dB and less than or 10 MHz PRB#0 toof PRB#5 equal to refers -4 dB. to PRB range 15 MHz and 20 MHz refers to subband 1 according to frequency: PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 to PRB#3 10 MHz refers to PRB#0 to PRB#5 15 MHz and 20 MHz refers to PRB#0 to PRB#7
(2 CQIs or codewords) that arefor This measurement is provided greater than or equal to -10 to dB and Subband 1 downlink Signal less than or equal to -8 dB. PRB Interference and Noise Ratio range subband 1 according to (SINR)ofpost-compensation values frequency: (2 CQIs or codewords) that arefor This measurement is provided 3 MHz and 5-8 MHz refers to PRB#0 greater than dB and less than or Subband 1 downlink Signal to to PRB#3 equal to -6 dB. PRB range of Interference and Ratio 10 MHz refers to Noise PRB#0 to PRB#5 subband 1 according to frequency: (SINR) post-compensation values 15 MHz and 20 MHz refers to 3 MHz 5 MHz refersthat to PRB#0 (2 CQIsand orPRB#7 codewords) are PRB#0 to to PRB#3 greater than -6 dB and less than or 10 MHz PRB#0 toof PRB#5 equal to refers -4 dB. to PRB range 15 MHz and 20 MHz refers to subband 1 according to frequency: PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 to PRB#3 10 MHz refers to PRB#0 to PRB#5 15 MHz and 20 MHz refers to PRB#0 to PRB#7
This measurement is provided for Subband 1 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than -4 dB and less than or Subband 1 downlink Signal to equal to -2 dB. PRB range of Interference and Noise Ratio subband 1 according to frequency: (SINR) post-compensation values 3 MHz and 5 MHz refers to PRB#0 (2 CQIs or codewords) that arefor This measurement is provided to PRB#3 greater than -2 dB and less than or Subband 1 downlink Signal to 10 MHz refers to PRB#0 toofPRB#5 equal to 0 dB. PRB range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 1 according to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 (2 CQIs or codewords) that arefor This measurement is provided to PRB#3 greater than 0 dB and less than Subband 1 downlink Signal to or 10 MHz refers to PRB#0 toofPRB#5 equal to 2 dB. PRB range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 1 according to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 (2 CQIs or codewords) that arefor This measurement is provided to PRB#3 greater than 2 dB and less than Subband 1 downlink Signal to or 10 MHz refers to PRB#0 toofPRB#5 equal to 4 dB. PRB range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 1 according to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 (2 CQIs or codewords) that arefor This measurement is provided to PRB#3 greater than 4 dB and less than Subband 1 downlink Signal to or 10 MHz refers to PRB#0 toofPRB#5 equal to 6 dB. PRB range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 1 according to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 (2 CQIs or codewords) that arefor This measurement is provided to PRB#3 greater than 6 dB and less than Subband 1 downlink Signal to or 10 MHz refers to PRB#0 toofPRB#5 equal to 8 dB. PRB range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 1 according to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 (2 CQIs or codewords) that arefor This measurement is provided to PRB#3 greater than 8 dB and less than Subband 1 downlink Signal to or 10 MHz refers toPRB PRB#0 to of PRB#5 equal to 10 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 1 according to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 (2 CQIs or codewords) that arefor This measurement is provided to PRB#3 greater than 10 dB and less than or Subband 1 downlink Signal to 10 MHz refers toPRB PRB#0 to of PRB#5 equal to 12 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 1 according to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 (2 CQIs or codewords) that arefor This measurement is provided to PRB#3 greater than 12 dB and less than or Subband 1 downlink Signal to 10 MHz refers toPRB PRB#0 to of PRB#5 equal to 14 db. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 1 according to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 (2 CQIs or codewords) that arefor This measurement is provided to PRB#3 greater than 14 dB and less than or Subband 1 downlink Signal to 10 MHz refers toPRB PRB#0 to of PRB#5 equal to 16 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 1 according to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 (2 CQIs or codewords) that arefor This measurement is provided to PRB#3 greater than 16 dB and less than or Subband 1 downlink Signal to 10 MHz refers toPRB PRB#0 to of PRB#5 equal to 18 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 1 according to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 5 MHz refers to PRB#0 (2MHz CQIsand or codewords) that are to PRB#3 greater than 18 dB and less than or 10 MHz PRB#0 to of PRB#5 equal to refers 20 dB.toPRB range 15 MHz and 20 MHz refers to subband 1 according to frequency: PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0
This measurement is provided for Subband 1 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than -4 dB and less than or Subband 1 downlink Signal to equal to -2 dB. PRB range of Interference and Noise Ratio subband 1 according to frequency: (SINR) post-compensation values 3 MHz and 5 MHz refersthat to PRB#0 (2 CQIs or codewords) arefor This measurement is provided to PRB#3 greater than -2 dB and less than or Subband 1 downlink Signal to 10 MHz refers to PRB#0 toofPRB#5 equal to 0 dB. PRB range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 1 according to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refersthat to PRB#0 (2 CQIs or codewords) arefor This measurement is provided to PRB#3 greater than 0 dB and less than Subband 1 downlink Signal to or 10 MHz refers to PRB#0 toofPRB#5 equal to 2 dB. PRB range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 1 according to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refersthat to PRB#0 (2 CQIs or codewords) arefor This measurement is provided to PRB#3 greater than 2 dB and less than Subband 1 downlink Signal to or 10 MHz refers to PRB#0 toofPRB#5 equal to 4 dB. PRB range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 1 according to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refersthat to PRB#0 (2 CQIs or codewords) arefor This measurement is provided to PRB#3 greater than 4 dB and less than Subband 1 downlink Signal to or 10 MHz refers to PRB#0 toofPRB#5 equal to 6 dB. PRB range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 1 according to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refersthat to PRB#0 (2 CQIs or codewords) arefor This measurement is provided to PRB#3 greater than 6 dB and less than Subband 1 downlink Signal to or 10 MHz refers to PRB#0 toofPRB#5 equal to 8 dB. PRB range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 1 according to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refersthat to PRB#0 (2 CQIs or codewords) arefor This measurement is provided to PRB#3 greater than 8 dB and less than Subband 1 downlink Signal to or 10 MHz refers toPRB PRB#0 to of PRB#5 equal to 10 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 1 according to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refersthat to PRB#0 (2 CQIs or codewords) arefor This measurement is provided to PRB#3 greater than 10 dB and less than or Subband 1 downlink Signal to 10 MHz refers toPRB PRB#0 to of PRB#5 equal to 12 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 1 according to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refersthat to PRB#0 (2 CQIs or codewords) arefor This measurement is provided to PRB#3 greater than 12 dB and less than or Subband 1 downlink Signal to 10 MHz refers toPRB PRB#0 to of PRB#5 equal to 14 db. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 1 according to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refersthat to PRB#0 (2 CQIs or codewords) arefor This measurement is provided to PRB#3 greater than 14 dB and less than or Subband 1 downlink Signal to 10 MHz refers toPRB PRB#0 to of PRB#5 equal to 16 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 1 according to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refersthat to PRB#0 (2 CQIs or codewords) arefor This measurement is provided to PRB#3 greater than 16 dB and less than or Subband 1 downlink Signal to 10 MHz refers toPRB PRB#0 to of PRB#5 equal to 18 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 1 according to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 5 MHz refersthat to PRB#0 (2MHz CQIsand or codewords) are to PRB#3 greater than 18 dB and less than or 10 MHz PRB#0 to of PRB#5 equal to refers 20 dB.toPRB range 15 MHz and 20 MHz refers to subband 1 according to frequency: PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0
to PRB#3 10 MHz refers to PRB#0 to PRB#5 15 MHz and 20 MHz refers to PRB#0 to PRB#7
to PRB#3 10 MHz refers to PRB#0 to PRB#5 15 MHz and 20 MHz refers to PRB#0 to PRB#7
This measurement is provided for Subband 1 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 20 dB and less to than or Subband 1 downlink Signal equal to 22 dB. PRB range of Interference and Noise Ratio subband 1 according to frequency: (SINR) post-compensation values 3 MHz and 5 MHz refers to PRB#0 (2 CQIs or codewords) that arefor This measurement is provided to PRB#3 greater than 22 dB and less than or Subband 1 downlink Signal to 10 MHz refers toPRB PRB#0 to of PRB#5 equal to 24 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 1 according to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 (2 CQIs or codewords) that arefor This measurement is provided to PRB#3 greater than 24 dB and less than or Subband 1 downlink Signal to 10 MHz refers toPRB PRB#0 to of PRB#5 equal to 26 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 1 according to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 (2 CQIs or codewords) that arefor This measurement is provided to PRB#3 greater than 26 dB and less than or Subband 1 downlink Signal to 10 MHz refers toPRB PRB#0 to of PRB#5 equal to 28 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 1 according to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 (2 CQIs or codewords) that arefor This measurement is provided to PRB#3 greater than 28 dB and less than or Subband 2 downlink Signal to 10 MHz refers toPRB PRB#0 to of PRB#5 equal to 30 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 1 according to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 (2 CQIs or codewords) that arefor This measurement is provided to PRB#3 greater than or equal to -10 dB and Subband 2 downlink Signal to 10 MHz refers to PRB#0 to PRB#5 less than or equal to -8 dB. PRB Interference and Noise Ratio 15 MHz and 20 MHz refers to to range ofpost-compensation subband 2 according (SINR) values PRB#0 to PRB#7 frequency: (2 CQIs or codewords) that arefor This measurement is provided 3 MHz and 5-8 MHz refers to PRB#4 greater than dB and less than or Subband 2 downlink Signal to to PRB#7 equal to -6 dB. PRB range of Interference and Ratio 10 MHz refers to Noise PRB#6 to PRB#11 subband 2 according to frequency: (SINR) post-compensation values 15 MHz and 20 MHz refers to 3 MHz and 5 MHz refers to PRB#4 (2 CQIs or codewords) that arefor PRB#8 to PRB#15 This measurement is provided to PRB#7 greater than -6 dB and less than or Subband 2 downlink Signal to 10 MHz refers to PRB#6 toof PRB#11 equal to -4 dB. PRB range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 2 according to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 (2 CQIs or codewords) that arefor This measurement is provided to PRB#7 greater than -4 dB and less than or Subband 2 downlink Signal to 10 MHz refers to PRB#6 toof PRB#11 equal to -2 dB. PRB range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 2 according to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 (2 CQIs or codewords) that arefor This measurement is provided to PRB#7 greater than -2 dB and less than or Subband 2 downlink Signal to 10 MHz refers to PRB#6 toofPRB#11 equal to 0 dB. PRB range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 2 according to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 (2 CQIs or codewords) that arefor This measurement is provided to PRB#7 greater than 0 dB and less than Subband 2 downlink Signal to or 10 MHz refers to PRB#6 toofPRB#11 equal to 2 dB. PRB range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 2 according to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 5 MHz refers to PRB#4 (2MHz CQIsand or codewords) that are to PRB#7 greater than 2 dB and less than or 10 MHz to PRB#6 equal to refers 4 dB. PRB rangetoofPRB#11 15 MHz and 20 MHz to subband 2 according refers to frequency: PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4
This measurement is provided for Subband 1 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 20 dB and less to than or Subband 1 downlink Signal equal to 22 dB. PRB range of Interference and Noise Ratio subband 1 according to frequency: (SINR) post-compensation values 3 MHz and 5 MHz refersthat to PRB#0 (2 CQIs or codewords) arefor This measurement is provided to PRB#3 greater than 22 dB and less than or Subband 1 downlink Signal to 10 MHz refers toPRB PRB#0 to of PRB#5 equal to 24 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 1 according to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refersthat to PRB#0 (2 CQIs or codewords) arefor This measurement is provided to PRB#3 greater than 24 dB and less than or Subband 1 downlink Signal to 10 MHz refers toPRB PRB#0 to of PRB#5 equal to 26 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 1 according to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refersthat to PRB#0 (2 CQIs or codewords) arefor This measurement is provided to PRB#3 greater than 26 dB and less than or Subband 1 downlink Signal to 10 MHz refers toPRB PRB#0 to of PRB#5 equal to 28 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 1 according to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refersthat to PRB#0 (2 CQIs or codewords) arefor This measurement is provided to PRB#3 greater than 28 dB and less than or Subband 2 downlink Signal to 10 MHz refers toPRB PRB#0 to of PRB#5 equal to 30 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 1 according to frequency: (SINR) post-compensation values PRB#0 to PRB#7 3 MHz and 5 MHz refersthat to PRB#0 (2 CQIs or codewords) arefor This measurement is provided to PRB#3 greater than or equal to -10 dB and Subband 2 downlink Signal to 10 MHz refers to PRB#0 to PRB#5 less than or equal to -8 dB. PRB Interference and Noise Ratio 15 MHz and 20 MHz refers to to range ofpost-compensation subband 2 according (SINR) values PRB#0 to PRB#7 frequency: (2 CQIs or codewords) that arefor This measurement is provided 3 MHz and 5-8 MHz refers to PRB#4 greater than dB and less than or Subband 2 downlink Signal to to PRB#7 equal to -6 dB. PRB range of Interference and Ratio 10 MHz refers to Noise PRB#6 to PRB#11 subband 2 according to frequency: (SINR) post-compensation values 15 MHz and 20 MHz refers to 3 MHz and 5 MHz refersthat to PRB#4 (2 CQIs or codewords) arefor PRB#8 to PRB#15 This measurement is provided to PRB#7 greater than -6 dB and less than or Subband 2 downlink Signal to 10 MHz refers to PRB#6 toof PRB#11 equal to -4 dB. PRB range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 2 according to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refersthat to PRB#4 (2 CQIs or codewords) arefor This measurement is provided to PRB#7 greater than -4 dB and less than or Subband 2 downlink Signal to 10 MHz refers to PRB#6 toof PRB#11 equal to -2 dB. PRB range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 2 according to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refersthat to PRB#4 (2 CQIs or codewords) arefor This measurement is provided to PRB#7 greater than -2 dB and less than or Subband 2 downlink Signal to 10 MHz refers to PRB#6 toofPRB#11 equal to 0 dB. PRB range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 2 according to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refersthat to PRB#4 (2 CQIs or codewords) arefor This measurement is provided to PRB#7 greater than 0 dB and less than Subband 2 downlink Signal to or 10 MHz refers to PRB#6 toofPRB#11 equal to 2 dB. PRB range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 2 according to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 5 MHz refersthat to PRB#4 (2MHz CQIsand or codewords) are to PRB#7 greater than 2 dB and less than or 10 MHz to PRB#6 equal to refers 4 dB. PRB rangetoofPRB#11 15 MHz and 20 MHz to subband 2 according refers to frequency: PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4
to PRB#7 10 MHz refers to PRB#6 to PRB#11 15 MHz and 20 MHz refers to PRB#8 to PRB#15
to PRB#7 10 MHz refers to PRB#6 to PRB#11 15 MHz and 20 MHz refers to PRB#8 to PRB#15
This measurement is provided for Subband 2 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 4 dB and less Subband 2 downlink Signalthan to or equal to 6 dB. PRB range of Interference and Noise Ratio subband 2 according to frequency: (SINR) post-compensation values 3 MHz and 5 MHz refers to PRB#4 (2 CQIs or codewords) that arefor This measurement is provided to PRB#7 greater than 6 dB and less than Subband 2 downlink Signal to or 10 MHz refers to PRB#6 toofPRB#11 equal to 8 dB. PRB range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 2 according to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 (2 CQIs or codewords) that arefor This measurement is provided to PRB#7 greater than 8 dB and less than Subband 2 downlink Signal to or 10 MHz refers toPRB PRB#6 to of PRB#11 equal to 10 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 2 according to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 (2 CQIs or codewords) that arefor This measurement is provided to PRB#7 greater than 10 dB and less than or Subband 2 downlink Signal to 10 MHz refers toPRB PRB#6 to of PRB#11 equal to 12 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 2 according to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 (2 CQIs or codewords) that arefor This measurement is provided to PRB#7 greater than 12 dB and less than or Subband 2 downlink Signal to 10 MHz refers toPRB PRB#6 to of PRB#11 equal to 14 db. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 2 according to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 (2 CQIs or codewords) that arefor This measurement is provided to PRB#7 greater than 14 dB and less than or Subband 2 downlink Signal to 10 MHz refers toPRB PRB#6 to of PRB#11 equal to 16 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 2 according to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 (2 CQIs or codewords) that arefor This measurement is provided to PRB#7 greater than 16 dB and less than or Subband 2 downlink Signal to 10 MHz refers toPRB PRB#6 to of PRB#11 equal to 18 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 2 according to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 (2 CQIs or codewords) that arefor This measurement is provided to PRB#7 greater than 18 dB and less than or Subband 2 downlink Signal to 10 MHz refers toPRB PRB#6 to of PRB#11 equal to 20 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 2 according to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 (2 CQIs or codewords) that arefor This measurement is provided to PRB#7 greater than 20 dB and less than or Subband 2 downlink Signal to 10 MHz refers toPRB PRB#6 to of PRB#11 equal to 22 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 2 according to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 (2 CQIs or codewords) that arefor This measurement is provided to PRB#7 greater than 22 dB and less than or Subband 2 downlink Signal to 10 MHz refers toPRB PRB#6 to of PRB#11 equal to 24 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 2 according to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 (2 CQIs or codewords) that arefor This measurement is provided to PRB#7 greater than 24 dB and less than or Subband 2 downlink Signal to 10 MHz refers toPRB PRB#6 to of PRB#11 equal to 26 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 2 according to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 5 MHz refers to PRB#4 (2MHz CQIsand or codewords) that are to PRB#7 greater than 26 dB and less than or 10 MHz PRB#6 to of PRB#11 equal to refers 28 dB.toPRB range 15 MHz and 20 MHz refers to subband 2 according to frequency: PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4
This measurement is provided for Subband 2 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 4 dB and less Subband 2 downlink Signalthan to or equal to 6 dB. PRB range of Interference and Noise Ratio subband 2 according to frequency: (SINR) post-compensation values 3 MHz and 5 MHz refersthat to PRB#4 (2 CQIs or codewords) arefor This measurement is provided to PRB#7 greater than 6 dB and less than Subband 2 downlink Signal to or 10 MHz refers to PRB#6 toofPRB#11 equal to 8 dB. PRB range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 2 according to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refersthat to PRB#4 (2 CQIs or codewords) arefor This measurement is provided to PRB#7 greater than 8 dB and less than Subband 2 downlink Signal to or 10 MHz refers toPRB PRB#6 to of PRB#11 equal to 10 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 2 according to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refersthat to PRB#4 (2 CQIs or codewords) arefor This measurement is provided to PRB#7 greater than 10 dB and less than or Subband 2 downlink Signal to 10 MHz refers toPRB PRB#6 to of PRB#11 equal to 12 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 2 according to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refersthat to PRB#4 (2 CQIs or codewords) arefor This measurement is provided to PRB#7 greater than 12 dB and less than or Subband 2 downlink Signal to 10 MHz refers toPRB PRB#6 to of PRB#11 equal to 14 db. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 2 according to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refersthat to PRB#4 (2 CQIs or codewords) arefor This measurement is provided to PRB#7 greater than 14 dB and less than or Subband 2 downlink Signal to 10 MHz refers toPRB PRB#6 to of PRB#11 equal to 16 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 2 according to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refersthat to PRB#4 (2 CQIs or codewords) arefor This measurement is provided to PRB#7 greater than 16 dB and less than or Subband 2 downlink Signal to 10 MHz refers toPRB PRB#6 to of PRB#11 equal to 18 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 2 according to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refersthat to PRB#4 (2 CQIs or codewords) arefor This measurement is provided to PRB#7 greater than 18 dB and less than or Subband 2 downlink Signal to 10 MHz refers toPRB PRB#6 to of PRB#11 equal to 20 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 2 according to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refersthat to PRB#4 (2 CQIs or codewords) arefor This measurement is provided to PRB#7 greater than 20 dB and less than or Subband 2 downlink Signal to 10 MHz refers toPRB PRB#6 to of PRB#11 equal to 22 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 2 according to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refersthat to PRB#4 (2 CQIs or codewords) arefor This measurement is provided to PRB#7 greater than 22 dB and less than or Subband 2 downlink Signal to 10 MHz refers toPRB PRB#6 to of PRB#11 equal to 24 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 2 according to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 MHz and 5 MHz refersthat to PRB#4 (2 CQIs or codewords) arefor This measurement is provided to PRB#7 greater than 24 dB and less than or Subband 2 downlink Signal to 10 MHz refers toPRB PRB#6 to of PRB#11 equal to 26 dB. range Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 2 according to frequency: (SINR) post-compensation values PRB#8 to PRB#15 3 5 MHz refersthat to PRB#4 (2MHz CQIsand or codewords) are to PRB#7 greater than 26 dB and less than or 10 MHz PRB#6 to of PRB#11 equal to refers 28 dB.toPRB range 15 MHz and 20 MHz refers to subband 2 according to frequency: PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4
to PRB#7 10 MHz refers to PRB#6 to PRB#11 15 MHz and 20 MHz refers to PRB#8 to PRB#15
to PRB#7 10 MHz refers to PRB#6 to PRB#11 15 MHz and 20 MHz refers to PRB#8 to PRB#15
This measurement is provided for Subband 2 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 28 dB and less to than or Subband 3 downlink Signal equal to 30 dB. PRB range of Interference and Noise Ratio subband 2 according to frequency: (SINR) post-compensation values 3 MHz and 5 MHz refers to PRB#4 (2 CQIs or codewords) that arefor This measurement is provided to PRB#7 greater than or equal to -10 dB and Subband 3 downlink Signal to 10 MHz refers to PRB#6 to PRB#11 less than or equal to -8 dB. PRB Interference and Noise Ratio 15 MHz and 20 MHz refers to to range ofpost-compensation subband 3 according (SINR) values PRB#8 to PRB#15 frequency: (2 CQIs or codewords) that arefor This measurement is provided 3 MHz and 5-8 MHz refers to PRB#8 greater than dB and less than or Subband 3 downlink Signal to to PRB#11 equal to -6 dB. PRB range of Interference and Ratio 10 MHz refers to Noise PRB#12 to subband 3 according to frequency: (SINR) post-compensation values PRB#17 3 MHz and 5 MHz refers to PRB#8 (2 CQIs or codewords) that arefor 15 MHz and 20 MHz to This measurement is refers provided to PRB#11 greater than -6 dB and less than or PRB#16 to PRB#23 Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 equal to -4 dB. PRB range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHz and MHz refers to 3 MHz and 520 MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than -4 dB and less than or Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 equal to -2 dB. PRB range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHz and MHz refers to 3 MHz and 520 MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than -2 dB and less than or Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 equal to 0 dB. PRB range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHz and MHz refers to 3 MHz and 520 MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than 0 dB and less than Subband 3 downlink Signaltoto or 10 MHz refers to PRB#12 equal to 2 dB. PRB range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than 2 dB and less than Subband 3 downlink Signaltoto or 10 MHz refers to PRB#12 equal to 4 dB. PRB range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than 4 dB and less than Subband 3 downlink Signaltoto or 10 MHz refers to PRB#12 equal to 6 dB. PRB range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than 6 dB and less than Subband 3 downlink Signaltoto or 10 MHz refers to PRB#12 equal to 8 dB. PRB range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than 8 dB and less than Subband 3 downlink Signaltoto or 10 MHz refers toPRB PRB#12 equal to 10 dB. range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) values 15 MHzpost-compensation and520 MHz refers to 3 MHz MHz refers to PRB#8 (2 CQIsand or codewords) that are PRB#16 to PRB#23 to PRB#11 greater than 10 dB and less than or 10 MHz PRB#12 equal to refers 12 dB.toPRB rangetoof PRB#17 subband 3 according to frequency: 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 PRB#16 to PRB#23 to PRB#11 10 MHz refers to PRB#12 to PRB#17 15 MHz and 20 MHz refers to PRB#16 to PRB#23
This measurement is provided for Subband 2 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 28 dB and less to than or Subband 3 downlink Signal equal to 30 dB. PRB range of Interference and Noise Ratio subband 2 according to frequency: (SINR) post-compensation values 3 MHz and 5 MHz refersthat to PRB#4 (2 CQIs or codewords) arefor This measurement is provided to PRB#7 greater than or equal to -10 dB and Subband 3 downlink Signal to 10 MHz refers to PRB#6 to PRB#11 less than or equal to -8 dB. PRB Interference and Noise Ratio 15 MHz and 20 MHz refers to to range ofpost-compensation subband 3 according (SINR) values PRB#8 to PRB#15 frequency: (2 CQIs or codewords) that arefor This measurement is provided 3 MHz and 5-8 MHz refers to PRB#8 greater than dB and less than or Subband 3 downlink Signal to to PRB#11 equal to -6 dB. PRB range of Interference and Ratio 10 MHz refers to Noise PRB#12 to subband 3 according to frequency: (SINR) post-compensation values PRB#17 3 MHz and 5 MHz refersthat to PRB#8 (2 CQIs or codewords) arefor 15 MHz and 20 MHz to This measurement is refers provided to PRB#11 greater than -6 dB and less than or PRB#16 to PRB#23 Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 equal to -4 dB. PRB range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHz and MHz refers to 3 MHz and 520 MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than -4 dB and less than or Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 equal to -2 dB. PRB range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHz and MHz refers to 3 MHz and 520 MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than -2 dB and less than or Subband 3 downlink Signaltoto 10 MHz refers to PRB#12 equal to 0 dB. PRB range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHz and MHz refers to 3 MHz and 520 MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than 0 dB and less than Subband 3 downlink Signaltoto or 10 MHz refers to PRB#12 equal to 2 dB. PRB range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than 2 dB and less than Subband 3 downlink Signaltoto or 10 MHz refers to PRB#12 equal to 4 dB. PRB range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than 4 dB and less than Subband 3 downlink Signaltoto or 10 MHz refers to PRB#12 equal to 6 dB. PRB range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than 6 dB and less than Subband 3 downlink Signaltoto or 10 MHz refers to PRB#12 equal to 8 dB. PRB range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than 8 dB and less than Subband 3 downlink Signaltoto or 10 MHz refers toPRB PRB#12 equal to 10 dB. range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) values 15 MHzpost-compensation and520 MHz refers to 3 MHz MHz refers to PRB#8 (2 CQIsand or codewords) that are PRB#16 to PRB#23 to PRB#11 greater than 10 dB and less than or 10 MHz PRB#12 equal to refers 12 dB.toPRB rangetoof PRB#17 subband 3 according to frequency: 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 PRB#16 to PRB#23 to PRB#11 10 MHz refers to PRB#12 to PRB#17 15 MHz and 20 MHz refers to PRB#16 to PRB#23
This measurement is provided for Subband 3 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 12 dB and less to than or Subband 3 downlink Signal equal to 14 db. PRB range of Interference and Noise Ratio subband 3 according to frequency: (SINR) post-compensation values 3 MHz and 5 MHz refers to PRB#8 (2 CQIs or codewords) that arefor This measurement is provided to PRB#11 greater than 14 dB and less than or Subband 3 downlink Signaltoto 10 MHz refers toPRB PRB#12 equal to 16 dB. range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHz and MHz refers to 3 MHz and 520 MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than 16 dB and less than or Subband 3 downlink Signaltoto 10 MHz refers toPRB PRB#12 equal to 18 dB. range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHz and MHz refers to 3 MHz and 520 MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than 18 dB and less than or Subband 3 downlink Signaltoto 10 MHz refers toPRB PRB#12 equal to 20 dB. range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHz and MHz refers to 3 MHz and 520 MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than 20 dB and less than or Subband 3 downlink Signaltoto 10 MHz refers toPRB PRB#12 equal to 22 dB. range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHz and MHz refers to 3 MHz and 520 MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than 22 dB and less than or Subband 3 downlink Signaltoto 10 MHz refers toPRB PRB#12 equal to 24 dB. range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHz and MHz refers to 3 MHz and 520 MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than 24 dB and less than or Subband 3 downlink Signaltoto 10 MHz refers toPRB PRB#12 equal to 26 dB. range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHz and MHz refers to 3 MHz and 520 MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than 26 dB and less than or Subband 3 downlink Signaltoto 10 MHz refers toPRB PRB#12 equal to 28 dB. range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHz and MHz refers to 3 MHz and 520 MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than 28 dB and less than or Subband 4 downlink Signaltoto 10 MHz refers toPRB PRB#12 equal to 30 dB. range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHz and MHz refers to 3 MHz and 520 MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than or equal to -10 dB and Subband 4 downlink Signaltoto 10 MHz refers to PRB#12 less than or equal to -8 dB. PRB Interference and Noise Ratio PRB#17 range ofpost-compensation subband 4 according to (SINR) 15 MHz and 20 MHz refers values to frequency: (2 CQIs or that arefor PRB#16 to codewords) PRB#23 This measurement is provided 3 MHz refers todB PRB#12 to than or greater than -8 and less Subband 4 downlink Signal to PRB#14 equal to -6 dB. PRB range of Interference and Noise Ratio 5 MHz refers to PRB#12 to subband 4 according to frequency: (SINR) post-compensation values PRB#15 3 MHz refers to PRB#12 to are (2 CQIs or codewords) that 10 MHz refers to PRB#18 to PRB#14 greater than -6 dB and less than or PRB#23 5 MHztorefers to PRB#12 to equal -4 dB. 15 MHz and 20PRB MHzrange refersof to PRB#15 subband 4 according to frequency: PRB#24 to PRB#31 10 MHzrefers referstotoPRB#12 PRB#18toto 3 MHz PRB#23 PRB#14 15 MHzrefers and 20 refers 5 MHz to MHz PRB#12 to to PRB#24 to PRB#31 PRB#15 10 MHz refers to PRB#18 to PRB#23
This measurement is provided for Subband 3 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 12 dB and less to than or Subband 3 downlink Signal equal to 14 db. PRB range of Interference and Noise Ratio subband 3 according to frequency: (SINR) post-compensation values 3 MHz and 5 MHz refersthat to PRB#8 (2 CQIs or codewords) arefor This measurement is provided to PRB#11 greater than 14 dB and less than or Subband 3 downlink Signaltoto 10 MHz refers toPRB PRB#12 equal to 16 dB. range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHz and MHz refers to 3 MHz and 520 MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than 16 dB and less than or Subband 3 downlink Signaltoto 10 MHz refers toPRB PRB#12 equal to 18 dB. range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHz and MHz refers to 3 MHz and 520 MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than 18 dB and less than or Subband 3 downlink Signaltoto 10 MHz refers toPRB PRB#12 equal to 20 dB. range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHz and MHz refers to 3 MHz and 520 MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than 20 dB and less than or Subband 3 downlink Signaltoto 10 MHz refers toPRB PRB#12 equal to 22 dB. range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHz and MHz refers to 3 MHz and 520 MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than 22 dB and less than or Subband 3 downlink Signaltoto 10 MHz refers toPRB PRB#12 equal to 24 dB. range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHz and MHz refers to 3 MHz and 520 MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than 24 dB and less than or Subband 3 downlink Signaltoto 10 MHz refers toPRB PRB#12 equal to 26 dB. range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHz and MHz refers to 3 MHz and 520 MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than 26 dB and less than or Subband 3 downlink Signaltoto 10 MHz refers toPRB PRB#12 equal to 28 dB. range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHz and MHz refers to 3 MHz and 520 MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than 28 dB and less than or Subband 4 downlink Signaltoto 10 MHz refers toPRB PRB#12 equal to 30 dB. range of Interference and Noise Ratio PRB#17 subband 3 according to frequency: (SINR) post-compensation values 15 MHz and MHz refers to 3 MHz and 520 MHz refers to PRB#8 (2 CQIs or codewords) that arefor PRB#16 to PRB#23 This measurement is provided to PRB#11 greater than or equal to -10 dB and Subband 4 downlink Signaltoto 10 MHz refers to PRB#12 less than or equal to -8 dB. PRB Interference and Noise Ratio PRB#17 range ofpost-compensation subband 4 according to (SINR) 15 MHz and 20 MHz refers values to frequency: (2 CQIs or that arefor PRB#16 to codewords) PRB#23 This measurement is provided 3 MHz refers todB PRB#12 to than or greater than -8 and less Subband 4 downlink Signal to PRB#14 equal to -6 dB. PRB range of Interference and Noise Ratio 5 MHz refers to PRB#12 to subband 4 according to frequency: (SINR) post-compensation values PRB#15 3 MHz refers to PRB#12 to are (2 CQIs or codewords) that 10 MHz refers to PRB#18 to PRB#14 greater than -6 dB and less than or PRB#23 5 MHztorefers to PRB#12 to equal -4 dB. 15 MHz and 20PRB MHzrange refersof to PRB#15 subband 4 according to frequency: PRB#24 to PRB#31 10 MHzrefers referstotoPRB#12 PRB#18toto 3 MHz PRB#23 PRB#14 15 MHzrefers and 20 refers 5 MHz to MHz PRB#12 to to PRB#24 to PRB#31 PRB#15 10 MHz refers to PRB#18 to PRB#23
This measurement is provided for Subband 4 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than -4 dB and less than or Subband 4 downlink Signal to equal to -2 dB. PRB range of Interference and Noise Ratio subband 4 according to frequency: (SINR) post-compensation values 3 MHz refers to PRB#12 to are (2 CQIs or codewords) that This measurement is provided for PRB#14 greater than -2 dB and less to than or Subband 4 downlink Signal 5 MHztorefers toPRB PRB#12 toof equal 0 dB. range Interference and Noise Ratio PRB#15 subband 4 according to frequency: (SINR) post-compensation 10 MHz refers PRB#18totovalues 3 MHz refers totoPRB#12 (2 CQIs or codewords) that arefor PRB#23 This measurement is provided PRB#14 greater than 0 dB and less than 15 MHz and 20 MHz refers Subband 4 downlink Signal to or 5 MHztorefers toPRB PRB#12 toofto equal 2 dB. range PRB#24 to PRB#31 Interference and Noise Ratio PRB#15 subband 4 according to frequency: (SINR) post-compensation 10 MHz refers PRB#18totovalues 3 MHz refers totoPRB#12 (2 CQIs or codewords) that arefor PRB#23 This measurement is provided PRB#14 greater than 2 dB and less than 15 MHz and 20 MHz refers Subband 4 downlink Signal to or 5 MHztorefers toPRB PRB#12 toofto equal 4 dB. range PRB#24 to PRB#31 Interference and Noise Ratio PRB#15 subband 4 according to frequency: (SINR) post-compensation 10 MHz refers PRB#18totovalues 3 MHz refers totoPRB#12 (2 CQIs or codewords) that arefor PRB#23 This measurement is provided PRB#14 greater than 4 dB and less than 15 MHz and 20 MHz refers Subband 4 downlink Signal to or 5 MHztorefers toPRB PRB#12 toofto equal 6 dB. range PRB#24 to PRB#31 Interference and Noise Ratio PRB#15 subband 4 according to frequency: (SINR) post-compensation 10 MHz refers PRB#18totovalues 3 MHz refers totoPRB#12 (2 CQIs or codewords) that arefor PRB#23 This measurement is provided PRB#14 greater than 6 dB and less than 15 MHz and 20 MHz refers Subband 4 downlink Signal to or 5 MHztorefers toPRB PRB#12 toofto equal 8 dB. range PRB#24 to PRB#31 Interference and Noise Ratio PRB#15 subband 4 according to frequency: (SINR) post-compensation 10 MHz refers PRB#18totovalues 3 MHz refers totoPRB#12 (2 CQIs or codewords) that arefor PRB#23 This measurement is provided PRB#14 greater than 8 dB and less than 15 MHz and 20 MHz refers to Subband 4 downlink Signal to or 5 MHztorefers to PRB PRB#12 to of equal 10 dB. range PRB#24 to PRB#31 Interference and Noise Ratio PRB#15 subband 4 according to frequency: (SINR) post-compensation 10 MHz refers PRB#18totovalues 3 MHz refers totoPRB#12 (2 CQIs or codewords) that arefor PRB#23 This measurement is provided PRB#14 greater than 10 dB and lessto than or 15 MHz and 20 MHz refers Subband 4 downlink Signal to 5 MHztorefers to PRB PRB#12 to of equal 12 dB. range PRB#24 to PRB#31 Interference and Noise Ratio PRB#15 subband 4 according to frequency: (SINR) post-compensation 10 MHz refers PRB#18totovalues 3 MHz refers totoPRB#12 (2 CQIs or codewords) that arefor PRB#23 This measurement is provided PRB#14 greater than 12 dB and lessto than or 15 MHz and 20 MHz refers Subband 4 downlink Signal to 5 MHztorefers to PRB PRB#12 to of equal 14 db. range PRB#24 to PRB#31 Interference and Noise Ratio PRB#15 subband 4 according to frequency: (SINR) post-compensation 10 MHz refers PRB#18totovalues 3 MHz refers totoPRB#12 (2 CQIs or codewords) that arefor PRB#23 This measurement is provided PRB#14 greater than 14 dB and lessto than or 15 MHzrefers and 20 MHz refers Subband 4 downlink Signal to 5 MHz to PRB PRB#12 to of equal to 16 dB. range PRB#24 to PRB#31 Interference and Noise Ratio PRB#15 subband 4 according to frequency: (SINR) post-compensation 10 MHz refers PRB#18totovalues 3 MHz refers totoPRB#12 (2 CQIs or codewords) that arefor PRB#23 This measurement is provided PRB#14 greater than 16 dB and lessto than or 15 MHz and 20 MHz refers Subband 4 downlink Signal to 5 MHztorefers to PRB PRB#12 to of equal 18 dB. range PRB#24 to PRB#31 Interference and Noise Ratio PRB#15 subband 4 according to frequency: (SINR) post-compensation 10 MHz refers PRB#18totovalues 3 MHz totoPRB#12 (2 CQIsrefers or codewords) that are PRB#23 PRB#14 greater than 18 dB and lesstothan or 15 MHzrefers and 20 MHz refers 5 MHz to PRB PRB#12 to of equal to 20 dB. range PRB#24 to PRB#31 PRB#15 subband 4 according to frequency: 10 MHzrefers referstotoPRB#12 PRB#18toto 3 MHz PRB#23 PRB#14 15 MHzrefers and 20 refers 5 MHz to MHz PRB#12 to to PRB#24 to PRB#31 PRB#15 10 MHz refers to PRB#18 to PRB#23
This measurement is provided for Subband 4 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than -4 dB and less than or Subband 4 downlink Signal to equal to -2 dB. PRB range of Interference and Noise Ratio subband 4 according to frequency: (SINR) post-compensation values 3 MHz refers to PRB#12 to are (2 CQIs or codewords) that This measurement is provided for PRB#14 greater than -2 dB and less to than or Subband 4 downlink Signal 5 MHztorefers toPRB PRB#12 toof equal 0 dB. range Interference and Noise Ratio PRB#15 subband 4 according to frequency: (SINR) post-compensation 10 MHz refers PRB#18totovalues 3 MHz refers totoPRB#12 (2 CQIs or codewords) that arefor PRB#23 This measurement is provided PRB#14 greater than 0 dB and less than 15 MHz and 20 MHz refers Subband 4 downlink Signal to or 5 MHztorefers toPRB PRB#12 toofto equal 2 dB. range PRB#24 to PRB#31 Interference and Noise Ratio PRB#15 subband 4 according to frequency: (SINR) post-compensation 10 MHz refers PRB#18totovalues 3 MHz refers totoPRB#12 (2 CQIs or codewords) that arefor PRB#23 This measurement is provided PRB#14 greater than 2 dB and less than 15 MHz and 20 MHz refers Subband 4 downlink Signal to or 5 MHztorefers toPRB PRB#12 toofto equal 4 dB. range PRB#24 to PRB#31 Interference and Noise Ratio PRB#15 subband 4 according to frequency: (SINR) post-compensation 10 MHz refers PRB#18totovalues 3 MHz refers totoPRB#12 (2 CQIs or codewords) that arefor PRB#23 This measurement is provided PRB#14 greater than 4 dB and less than 15 MHz and 20 MHz refers Subband 4 downlink Signal to or 5 MHztorefers toPRB PRB#12 toofto equal 6 dB. range PRB#24 to PRB#31 Interference and Noise Ratio PRB#15 subband 4 according to frequency: (SINR) post-compensation 10 MHz refers PRB#18totovalues 3 MHz refers totoPRB#12 (2 CQIs or codewords) that arefor PRB#23 This measurement is provided PRB#14 greater than 6 dB and less than 15 MHz and 20 MHz refers Subband 4 downlink Signal to or 5 MHztorefers toPRB PRB#12 toofto equal 8 dB. range PRB#24 to PRB#31 Interference and Noise Ratio PRB#15 subband 4 according to frequency: (SINR) post-compensation 10 MHz refers PRB#18totovalues 3 MHz refers totoPRB#12 (2 CQIs or codewords) that arefor PRB#23 This measurement is provided PRB#14 greater than 8 dB and less than 15 MHz and 20 MHz refers to Subband 4 downlink Signal to or 5 MHztorefers to PRB PRB#12 to of equal 10 dB. range PRB#24 to PRB#31 Interference and Noise Ratio PRB#15 subband 4 according to frequency: (SINR) post-compensation 10 MHz refers PRB#18totovalues 3 MHz refers totoPRB#12 (2 CQIs or codewords) that arefor PRB#23 This measurement is provided PRB#14 greater than 10 dB and lessto than or 15 MHz and 20 MHz refers Subband 4 downlink Signal to 5 MHztorefers to PRB PRB#12 to of equal 12 dB. range PRB#24 to PRB#31 Interference and Noise Ratio PRB#15 subband 4 according to frequency: (SINR) post-compensation 10 MHz refers PRB#18totovalues 3 MHz refers totoPRB#12 (2 CQIs or codewords) that arefor PRB#23 This measurement is provided PRB#14 greater than 12 dB and lessto than or 15 MHz and 20 MHz refers Subband 4 downlink Signal to 5 MHztorefers to PRB PRB#12 to of equal 14 db. range PRB#24 to PRB#31 Interference and Noise Ratio PRB#15 subband 4 according to frequency: (SINR) post-compensation 10 MHz refers PRB#18totovalues 3 MHz refers totoPRB#12 (2 CQIs or codewords) that arefor PRB#23 This measurement is provided PRB#14 greater than 14 dB and lessto than or 15 MHzrefers and 20 MHz refers Subband 4 downlink Signal to 5 MHz to PRB PRB#12 to of equal to 16 dB. range PRB#24 to PRB#31 Interference and Noise Ratio PRB#15 subband 4 according to frequency: (SINR) post-compensation 10 MHz refers PRB#18totovalues 3 MHz refers totoPRB#12 (2 CQIs or codewords) that arefor PRB#23 This measurement is provided PRB#14 greater than 16 dB and lessto than or 15 MHz and 20 MHz refers Subband 4 downlink Signal to 5 MHztorefers to PRB PRB#12 to of equal 18 dB. range PRB#24 to PRB#31 Interference and Noise Ratio PRB#15 subband 4 according to frequency: (SINR) post-compensation 10 MHz refers PRB#18totovalues 3 MHz totoPRB#12 (2 CQIsrefers or codewords) that are PRB#23 PRB#14 greater than 18 dB and lesstothan or 15 MHzrefers and 20 MHz refers 5 MHz to PRB PRB#12 to of equal to 20 dB. range PRB#24 to PRB#31 PRB#15 subband 4 according to frequency: 10 MHzrefers referstotoPRB#12 PRB#18toto 3 MHz PRB#23 PRB#14 15 MHzrefers and 20 refers 5 MHz to MHz PRB#12 to to PRB#24 to PRB#31 PRB#15 10 MHz refers to PRB#18 to PRB#23
This measurement is provided for Subband 4 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 20 dB and less to than or Subband 4 downlink Signal equal to 22 dB. PRB range of Interference and Noise Ratio subband 4 according to frequency: (SINR) post-compensation values 3 MHz refers to PRB#12 to are (2 CQIs or codewords) that This measurement is provided for PRB#14 greater than 22 dB and less to than or Subband 4 downlink Signal 5 MHztorefers to PRB PRB#12 to of equal 24 dB. range Interference and Noise Ratio PRB#15 subband 4 according to frequency: (SINR) post-compensation 10 MHz refers PRB#18totovalues 3 MHz refers totoPRB#12 (2 CQIs or codewords) that arefor PRB#23 This measurement is provided PRB#14 greater than 24 dB and lessto than or 15 MHz and 20 MHz refers Subband 4 downlink Signal to 5 MHztorefers to PRB PRB#12 to of equal 26 dB. range PRB#24 to PRB#31 Interference and Noise Ratio PRB#15 subband 4 according to frequency: (SINR) post-compensation 10 MHz refers PRB#18totovalues 3 MHz refers totoPRB#12 (2 CQIs or codewords) that arefor PRB#23 This measurement is provided PRB#14 greater than 26 dB and lessto than or 15 MHz and 20 MHz refers Subband 4 downlink Signal to 5 MHztorefers to PRB PRB#12 to of equal 28 dB. range PRB#24 to PRB#31 Interference and Noise Ratio PRB#15 subband 4 according to frequency: (SINR) post-compensation 10 MHz refers PRB#18totovalues 3 MHz refers totoPRB#12 (2 CQIs or codewords) that arefor PRB#23 This measurement is provided PRB#14 greater than 28 dB and lessto than or 15 MHz and 20 MHz refers Subband 5 downlink Signal to 5 MHztorefers to PRB PRB#12 to of equal 30 dB. range PRB#24 to PRB#31 Interference and Noise Ratio PRB#15 subband 4 according to frequency: (SINR) post-compensation 10 MHz refers PRB#18totovalues 3 MHz refers totoPRB#12 (2 CQIs or codewords) that arefor PRB#23 This measurement is provided PRB#14 greater than or equal to -10 to dB and 15 MHz and 20 MHz refers Subband 5 downlink Signal to 5 MHz refers to PRB#12 to PRB less than or equal to -8 dB. PRB#24 to PRB#31 Interference and Noise Ratio PRB#15 range ofpost-compensation subband 5 according to (SINR) 10 MHz refers to PRB#18 tovalues frequency: (2 CQIs or codewords) that arefor PRB#23 This measurement is provided 5 MHz refers todB PRB#16 to than or greater than -8 and less 15 MHz and 20 MHz refers Subband 5 downlink Signal to to PRB#19 equal to -6 PRB range of PRB#24 to dB. PRB#31 Interference and Noise Ratio 10 MHz refers to PRB#24 to subband 5 according to frequency: (SINR) post-compensation values PRB#29 5 MHz refers to PRB#16 to are (2 CQIs or codewords) that 15 MHz and 20 MHz to for This measurement is refers provided PRB#19 greater than -6 dB and less to than or PRB#32 to PRB#39 Subband 5 downlink Signal 10 MHz refers to PRB#24 to equal to -4 dB. PRB range of Interference and Noise Ratio PRB#29 subband 5 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#16 to to (2 CQIs or codewords) that arefor PRB#32 to PRB#39 This measurement is provided PRB#19 greater than -4 dB and less than or Subband 5 downlink Signaltoto 10 MHz refers to PRB#24 equal to -2 dB. PRB range of Interference and Noise Ratio PRB#29 subband 5 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#16 to to (2 CQIs or codewords) that arefor PRB#32 to PRB#39is provided This measurement PRB#19 greater than -2 dB and less than or Subband 5 downlink Signaltoto 10 MHz refers to PRB#24 equal to 0 dB. PRB range of Interference and Noise Ratio PRB#29 subband 5 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#16 to to (2 CQIs or codewords) that arefor PRB#32 to PRB#39 This measurement is provided PRB#19 greater than 0 dB and less than Subband 5 downlink Signaltoto or 10 MHz refers to PRB#24 equal to 2 dB. PRB range of Interference and Noise Ratio PRB#29 subband 5 according to frequency: (SINR) values 15 MHzpost-compensation and 20 refers 5 MHz to MHz PRB#16 to to (2 CQIsrefers or codewords) that are PRB#32 to PRB#39 PRB#19 greater than 2 dB and less than or 10 MHz to PRB#24 to equal to refers 4 dB. PRB range of PRB#29 subband 5 according to frequency: 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to PRB#32 to PRB#39 PRB#19 10 MHz refers to PRB#24 to PRB#29 15 MHz and 20 MHz refers to PRB#32 to PRB#39
This measurement is provided for Subband 4 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 20 dB and less to than or Subband 4 downlink Signal equal to 22 dB. PRB range of Interference and Noise Ratio subband 4 according to frequency: (SINR) post-compensation values 3 MHz refers to PRB#12 to are (2 CQIs or codewords) that This measurement is provided for PRB#14 greater than 22 dB and less to than or Subband 4 downlink Signal 5 MHztorefers to PRB PRB#12 to of equal 24 dB. range Interference and Noise Ratio PRB#15 subband 4 according to frequency: (SINR) post-compensation 10 MHz refers PRB#18totovalues 3 MHz refers totoPRB#12 (2 CQIs or codewords) that arefor PRB#23 This measurement is provided PRB#14 greater than 24 dB and lessto than or 15 MHz and 20 MHz refers Subband 4 downlink Signal to 5 MHztorefers to PRB PRB#12 to of equal 26 dB. range PRB#24 to PRB#31 Interference and Noise Ratio PRB#15 subband 4 according to frequency: (SINR) post-compensation 10 MHz refers PRB#18totovalues 3 MHz refers totoPRB#12 (2 CQIs or codewords) that arefor PRB#23 This measurement is provided PRB#14 greater than 26 dB and lessto than or 15 MHz and 20 MHz refers Subband 4 downlink Signal to 5 MHztorefers to PRB PRB#12 to of equal 28 dB. range PRB#24 to PRB#31 Interference and Noise Ratio PRB#15 subband 4 according to frequency: (SINR) post-compensation 10 MHz refers PRB#18totovalues 3 MHz refers totoPRB#12 (2 CQIs or codewords) that arefor PRB#23 This measurement is provided PRB#14 greater than 28 dB and lessto than or 15 MHz and 20 MHz refers Subband 5 downlink Signal to 5 MHztorefers to PRB PRB#12 to of equal 30 dB. range PRB#24 to PRB#31 Interference and Noise Ratio PRB#15 subband 4 according to frequency: (SINR) post-compensation 10 MHz refers PRB#18totovalues 3 MHz refers totoPRB#12 (2 CQIs or codewords) that arefor PRB#23 This measurement is provided PRB#14 greater than or equal to -10 to dB and 15 MHz and 20 MHz refers Subband 5 downlink Signal to 5 MHz refers to PRB#12 to PRB less than or equal to -8 dB. PRB#24 to PRB#31 Interference and Noise Ratio PRB#15 range ofpost-compensation subband 5 according to (SINR) 10 MHz refers to PRB#18 tovalues frequency: (2 CQIs or codewords) that arefor PRB#23 This measurement is provided 5 MHz refers todB PRB#16 to than or greater than -8 and less 15 MHz and 20 MHz refers Subband 5 downlink Signal to to PRB#19 equal to -6 PRB range of PRB#24 to dB. PRB#31 Interference and Noise Ratio 10 MHz refers to PRB#24 to subband 5 according to frequency: (SINR) post-compensation values PRB#29 5 MHz refers to PRB#16 to are (2 CQIs or codewords) that 15 MHz and 20 MHz to for This measurement is refers provided PRB#19 greater than -6 dB and less to than or PRB#32 to PRB#39 Subband 5 downlink Signal 10 MHz refers to PRB#24 to equal to -4 dB. PRB range of Interference and Noise Ratio PRB#29 subband 5 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#16 to to (2 CQIs or codewords) that arefor PRB#32 to PRB#39 This measurement is provided PRB#19 greater than -4 dB and less than or Subband 5 downlink Signaltoto 10 MHz refers to PRB#24 equal to -2 dB. PRB range of Interference and Noise Ratio PRB#29 subband 5 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#16 to to (2 CQIs or codewords) that arefor PRB#32 to PRB#39is provided This measurement PRB#19 greater than -2 dB and less than or Subband 5 downlink Signaltoto 10 MHz refers to PRB#24 equal to 0 dB. PRB range of Interference and Noise Ratio PRB#29 subband 5 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#16 to to (2 CQIs or codewords) that arefor PRB#32 to PRB#39 This measurement is provided PRB#19 greater than 0 dB and less than Subband 5 downlink Signaltoto or 10 MHz refers to PRB#24 equal to 2 dB. PRB range of Interference and Noise Ratio PRB#29 subband 5 according to frequency: (SINR) values 15 MHzpost-compensation and 20 refers 5 MHz to MHz PRB#16 to to (2 CQIsrefers or codewords) that are PRB#32 to PRB#39 PRB#19 greater than 2 dB and less than or 10 MHz to PRB#24 to equal to refers 4 dB. PRB range of PRB#29 subband 5 according to frequency: 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to PRB#32 to PRB#39 PRB#19 10 MHz refers to PRB#24 to PRB#29 15 MHz and 20 MHz refers to PRB#32 to PRB#39
This measurement is provided for Subband 5 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 4 dB and less Subband 5 downlink Signalthan to or equal to 6 dB. PRB range of Interference and Noise Ratio subband 5 according to frequency: (SINR) post-compensation values 5 MHz refers to PRB#16 to are (2 CQIs or codewords) that This measurement is provided for PRB#19 greater than 6 dB andSignal less than or Subband 5 downlink 10 MHz refers to PRB#24 toto equal to 8 dB. PRB range of Interference and Noise Ratio PRB#29 subband 5 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#16 to to (2 CQIs or codewords) that arefor PRB#32 to PRB#39 This measurement is provided PRB#19 greater than 8 dB and less than Subband 5 downlink Signaltoto or 10 MHz refers toPRB PRB#24 equal to 10 dB. range of Interference and Noise Ratio PRB#29 subband 5 according to frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to (2 CQIs or codewords) that arefor PRB#32 to PRB#39is provided This measurement PRB#19 greater than 10 dB and less than or Subband 5 downlink Signaltoto 10 MHz refers toPRB PRB#24 equal to 12 dB. range of Interference and Noise Ratio PRB#29 subband 5 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#16 to to (2 CQIs or codewords) that arefor PRB#32 to PRB#39 This measurement is provided PRB#19 greater than 12 dB and less than or Subband 5 downlink Signaltoto 10 MHz refers toPRB PRB#24 equal to 14 dB. range of Interference and Noise Ratio PRB#29 subband 5 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#16 to to (2 CQIs or codewords) that arefor PRB#32 to PRB#39is provided This measurement PRB#19 greater than 14 dB and less than or Subband 5 downlink Signaltoto 10 MHz refers toPRB PRB#24 equal to 16 dB. range of Interference and Noise Ratio PRB#29 subband 5 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#16 to to (2 CQIs or codewords) that arefor PRB#32 to PRB#39 This measurement is provided PRB#19 greater than 16 dB and less than or Subband 5 downlink Signaltoto 10 MHz refers toPRB PRB#24 equal to 18 dB. range of Interference and Noise Ratio PRB#29 subband 5 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#16 to to (2 CQIs or codewords) that arefor PRB#32 to PRB#39is provided This measurement PRB#19 greater than 18 dB and less than or Subband 5 downlink Signaltoto 10 MHz refers toPRB PRB#24 equal to 20 dB. range of Interference and Noise Ratio PRB#29 subband 5 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#16 to to (2 CQIs or codewords) that arefor PRB#32 to PRB#39 This measurement is provided PRB#19 greater than 20 dB and less than or Subband 5 downlink Signaltoto 10 MHz refers toPRB PRB#24 equal to 22 dB. range of Interference and Noise Ratio PRB#29 subband 5 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#16 to to (2 CQIs or codewords) that arefor PRB#32 to PRB#39is provided This measurement PRB#19 greater than 22 dB and less than or Subband 5 downlink Signaltoto 10 MHz refers toPRB PRB#24 equal to 24 dB. range of Interference and Noise Ratio PRB#29 subband 5 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#16 to to (2 CQIs or codewords) that arefor PRB#32 to PRB#39 This measurement is provided PRB#19 greater than 24 dB and less than or Subband 5 downlink Signaltoto 10 MHz refers toPRB PRB#24 equal to 26 dB. range of Interference and Noise Ratio PRB#29 subband 5 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz to MHz PRB#16 to to (2 CQIsrefers or codewords) that are PRB#32 to PRB#39 PRB#19 greater than 26 dB and less than or 10 MHz PRB#24 equal to refers 28 dB.toPRB rangetoof PRB#29 subband 5 according to frequency: 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to PRB#32 to PRB#39 PRB#19 10 MHz refers to PRB#24 to PRB#29 15 MHz and 20 MHz refers to PRB#32 to PRB#39
This measurement is provided for Subband 5 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 4 dB and less Subband 5 downlink Signalthan to or equal to 6 dB. PRB range of Interference and Noise Ratio subband 5 according to frequency: (SINR) post-compensation values 5 MHz refers to PRB#16 to are (2 CQIs or codewords) that This measurement is provided for PRB#19 greater than 6 dB andSignal less than or Subband 5 downlink 10 MHz refers to PRB#24 toto equal to 8 dB. PRB range of Interference and Noise Ratio PRB#29 subband 5 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#16 to to (2 CQIs or codewords) that arefor PRB#32 to PRB#39 This measurement is provided PRB#19 greater than 8 dB and less than Subband 5 downlink Signaltoto or 10 MHz refers toPRB PRB#24 equal to 10 dB. range of Interference and Noise Ratio PRB#29 subband 5 according to frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to (2 CQIs or codewords) that arefor PRB#32 to PRB#39is provided This measurement PRB#19 greater than 10 dB and less than or Subband 5 downlink Signaltoto 10 MHz refers toPRB PRB#24 equal to 12 dB. range of Interference and Noise Ratio PRB#29 subband 5 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#16 to to (2 CQIs or codewords) that arefor PRB#32 to PRB#39 This measurement is provided PRB#19 greater than 12 dB and less than or Subband 5 downlink Signaltoto 10 MHz refers toPRB PRB#24 equal to 14 dB. range of Interference and Noise Ratio PRB#29 subband 5 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#16 to to (2 CQIs or codewords) that arefor PRB#32 to PRB#39is provided This measurement PRB#19 greater than 14 dB and less than or Subband 5 downlink Signaltoto 10 MHz refers toPRB PRB#24 equal to 16 dB. range of Interference and Noise Ratio PRB#29 subband 5 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#16 to to (2 CQIs or codewords) that arefor PRB#32 to PRB#39 This measurement is provided PRB#19 greater than 16 dB and less than or Subband 5 downlink Signaltoto 10 MHz refers toPRB PRB#24 equal to 18 dB. range of Interference and Noise Ratio PRB#29 subband 5 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#16 to to (2 CQIs or codewords) that arefor PRB#32 to PRB#39is provided This measurement PRB#19 greater than 18 dB and less than or Subband 5 downlink Signaltoto 10 MHz refers toPRB PRB#24 equal to 20 dB. range of Interference and Noise Ratio PRB#29 subband 5 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#16 to to (2 CQIs or codewords) that arefor PRB#32 to PRB#39 This measurement is provided PRB#19 greater than 20 dB and less than or Subband 5 downlink Signaltoto 10 MHz refers toPRB PRB#24 equal to 22 dB. range of Interference and Noise Ratio PRB#29 subband 5 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#16 to to (2 CQIs or codewords) that arefor PRB#32 to PRB#39is provided This measurement PRB#19 greater than 22 dB and less than or Subband 5 downlink Signaltoto 10 MHz refers toPRB PRB#24 equal to 24 dB. range of Interference and Noise Ratio PRB#29 subband 5 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#16 to to (2 CQIs or codewords) that arefor PRB#32 to PRB#39 This measurement is provided PRB#19 greater than 24 dB and less than or Subband 5 downlink Signaltoto 10 MHz refers toPRB PRB#24 equal to 26 dB. range of Interference and Noise Ratio PRB#29 subband 5 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz to MHz PRB#16 to to (2 CQIsrefers or codewords) that are PRB#32 to PRB#39 PRB#19 greater than 26 dB and less than or 10 MHz PRB#24 equal to refers 28 dB.toPRB rangetoof PRB#29 subband 5 according to frequency: 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to PRB#32 to PRB#39 PRB#19 10 MHz refers to PRB#24 to PRB#29 15 MHz and 20 MHz refers to PRB#32 to PRB#39
This measurement is provided for Subband 5 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 28 dB and less to than or Subband 6 downlink Signal equal to 30 dB. PRB range of Interference and Noise Ratio subband 5 according to frequency: (SINR) post-compensation values 5 MHz refers to PRB#16 to are (2 CQIs or codewords) that This measurement is provided for PRB#19 greater than or equalSignal to -10 to dB and Subband 6 downlink 10 MHz refers to PRB#24 toPRB less than or equal to -8 dB. Interference and Noise Ratio PRB#29 range ofpost-compensation subband 6 according to (SINR) 15 MHz and 20 MHz refers values to frequency: (2 CQIs or that arefor PRB#32 to codewords) PRB#39 This measurement is provided 5 MHz refers todB PRB#20 to than or greater than -8 and less Subband 6 downlink Signal to PRB#23 equal to -6 dB. PRB range of Interference and Ratio 10 MHz refers to Noise PRB#30 to subband 6 according to frequency: (SINR) post-compensation values PRB#35 5 MHz refers to PRB#20 to are (2 CQIs or codewords) that 15 MHz and 20 MHz to for This measurement is refers provided PRB#23 greater than -6 dB and less to than or PRB#40 to PRB#47 Subband 6 downlink Signal 10 MHz refers to PRB#30 to equal to -4 dB. PRB range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47 This measurement is provided PRB#23 greater than -4 dB and less than or Subband 6 downlink Signaltoto 10 MHz refers to PRB#30 equal to -2 dB. PRB range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47is provided This measurement PRB#23 greater than -2 dB and less than or Subband 6 downlink Signaltoto 10 MHz refers to PRB#30 equal to 0 dB. PRB range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47 This measurement is provided PRB#23 greater than 0 dB and less than Subband 6 downlink Signaltoto or 10 MHz refers to PRB#30 equal to 2 dB. PRB range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47is provided This measurement PRB#23 greater than 2 dB and less than Subband 6 downlink Signaltoto or 10 MHz refers to PRB#30 equal to 4 dB. PRB range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47 This measurement is provided PRB#23 greater than 4 dB and less than Subband 6 downlink Signaltoto or 10 MHz refers to PRB#30 equal to 6 dB. PRB range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47is provided This measurement PRB#23 greater than 6 dB and less than Subband 6 downlink Signaltoto or 10 MHz refers to PRB#30 equal to 8 dB. PRB range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47 This measurement is provided PRB#23 greater than 8 dB and less than Subband 6 downlink Signaltoto or 10 MHz refers toPRB PRB#30 equal to 10 dB. range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) values 15 MHzpost-compensation and 20 refers 5 MHz to MHz PRB#20 to to (2 CQIsrefers or codewords) that are PRB#40 to PRB#47 PRB#23 greater than 10 dB and less than or 10 MHz PRB#30 equal to refers 12 dB.toPRB rangetoof PRB#35 subband 6 according to frequency: 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to PRB#40 to PRB#47 PRB#23 10 MHz refers to PRB#30 to PRB#35 15 MHz and 20 MHz refers to PRB#40 to PRB#47
This measurement is provided for Subband 5 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 28 dB and less to than or Subband 6 downlink Signal equal to 30 dB. PRB range of Interference and Noise Ratio subband 5 according to frequency: (SINR) post-compensation values 5 MHz refers to PRB#16 to are (2 CQIs or codewords) that This measurement is provided for PRB#19 greater than or equalSignal to -10 to dB and Subband 6 downlink 10 MHz refers to PRB#24 toPRB less than or equal to -8 dB. Interference and Noise Ratio PRB#29 range ofpost-compensation subband 6 according to (SINR) 15 MHz and 20 MHz refers values to frequency: (2 CQIs or that arefor PRB#32 to codewords) PRB#39 This measurement is provided 5 MHz refers todB PRB#20 to than or greater than -8 and less Subband 6 downlink Signal to PRB#23 equal to -6 dB. PRB range of Interference and Ratio 10 MHz refers to Noise PRB#30 to subband 6 according to frequency: (SINR) post-compensation values PRB#35 5 MHz refers to PRB#20 to are (2 CQIs or codewords) that 15 MHz and 20 MHz to for This measurement is refers provided PRB#23 greater than -6 dB and less to than or PRB#40 to PRB#47 Subband 6 downlink Signal 10 MHz refers to PRB#30 to equal to -4 dB. PRB range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47 This measurement is provided PRB#23 greater than -4 dB and less than or Subband 6 downlink Signaltoto 10 MHz refers to PRB#30 equal to -2 dB. PRB range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47is provided This measurement PRB#23 greater than -2 dB and less than or Subband 6 downlink Signaltoto 10 MHz refers to PRB#30 equal to 0 dB. PRB range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47 This measurement is provided PRB#23 greater than 0 dB and less than Subband 6 downlink Signaltoto or 10 MHz refers to PRB#30 equal to 2 dB. PRB range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47is provided This measurement PRB#23 greater than 2 dB and less than Subband 6 downlink Signaltoto or 10 MHz refers to PRB#30 equal to 4 dB. PRB range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47 This measurement is provided PRB#23 greater than 4 dB and less than Subband 6 downlink Signaltoto or 10 MHz refers to PRB#30 equal to 6 dB. PRB range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47is provided This measurement PRB#23 greater than 6 dB and less than Subband 6 downlink Signaltoto or 10 MHz refers to PRB#30 equal to 8 dB. PRB range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47 This measurement is provided PRB#23 greater than 8 dB and less than Subband 6 downlink Signaltoto or 10 MHz refers toPRB PRB#30 equal to 10 dB. range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) values 15 MHzpost-compensation and 20 refers 5 MHz to MHz PRB#20 to to (2 CQIsrefers or codewords) that are PRB#40 to PRB#47 PRB#23 greater than 10 dB and less than or 10 MHz PRB#30 equal to refers 12 dB.toPRB rangetoof PRB#35 subband 6 according to frequency: 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to PRB#40 to PRB#47 PRB#23 10 MHz refers to PRB#30 to PRB#35 15 MHz and 20 MHz refers to PRB#40 to PRB#47
This measurement is provided for Subband 6 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 12 dB and less to than or Subband 6 downlink Signal equal to 14 db. PRB range of Interference and Noise Ratio subband 6 according to frequency: (SINR) post-compensation values 5 MHz refers to PRB#20 to are (2 CQIs or codewords) that This measurement is provided for PRB#23 greater than 14 dB and less to than or Subband 6 downlink Signal 10 MHz refers toPRB PRB#30 toof equal to 16 dB. range Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47 This measurement is provided PRB#23 greater than 16 dB and less than or Subband 6 downlink Signaltoto 10 MHz refers toPRB PRB#30 equal to 18 dB. range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47is provided This measurement PRB#23 greater than 18 dB and less than or Subband 6 downlink Signaltoto 10 MHz refers toPRB PRB#30 equal to 20 dB. range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47 This measurement is provided PRB#23 greater than 20 dB and less than or Subband 6 downlink Signaltoto 10 MHz refers toPRB PRB#30 equal to 22 dB. range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47is provided This measurement PRB#23 greater than 22 dB and less than or Subband 6 downlink Signaltoto 10 MHz refers toPRB PRB#30 equal to 24 dB. range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47 This measurement is provided PRB#23 greater than 24 dB and less than or Subband 6 downlink Signaltoto 10 MHz refers toPRB PRB#30 equal to 26 dB. range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47is provided This measurement PRB#23 greater than 26 dB and less than or Subband 6 downlink Signaltoto 10 MHz refers toPRB PRB#30 equal to 28 dB. range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47 This measurement is provided PRB#23 greater than 28 dB and less than or Subband 7 downlink Signaltoto 10 MHz refers toPRB PRB#30 equal to 30 dB. range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47is provided This measurement PRB#23 greater than or equal to -10 dB and Subband 7 downlink Signaltoto 10 MHz refers to PRB#30 less than or equal to -8 dB. PRB Interference and Noise Ratio PRB#35 range ofpost-compensation subband 7 according to (SINR) 15 MHz and 20 MHz refers values to frequency: (2 CQIs or that arefor PRB#40 to codewords) PRB#47 This measurement is provided 5 MHz refers todB PRB#24 greater than -8 and less than or Subband 7 downlink Signaltoto 10 MHz refers to PRB#36 equal to -6 dB. PRB range of Interference and Noise Ratio PRB#41 subband 7 according to frequency: (SINR) post-compensation 15 MHz and 20 refers values to 5 MHz to MHz PRB#24 (2 CQIsrefers or codewords) that are PRB#48 to PRB#55 10 MHzthan refers greater -6to dBPRB#36 and lesstothan or PRB#41 equal to -4 dB. PRB range of 15 MHz and 20 MHz refers to subband 7 according to frequency: PRB#48 to PRB#55 5 MHz refers to PRB#24 10 MHz refers to PRB#36 to PRB#41 15 MHz and 20 MHz refers to PRB#48 to PRB#55
This measurement is provided for Subband 6 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 12 dB and less to than or Subband 6 downlink Signal equal to 14 db. PRB range of Interference and Noise Ratio subband 6 according to frequency: (SINR) post-compensation values 5 MHz refers to PRB#20 to are (2 CQIs or codewords) that This measurement is provided for PRB#23 greater than 14 dB and less to than or Subband 6 downlink Signal 10 MHz refers toPRB PRB#30 toof equal to 16 dB. range Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47 This measurement is provided PRB#23 greater than 16 dB and less than or Subband 6 downlink Signaltoto 10 MHz refers toPRB PRB#30 equal to 18 dB. range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47is provided This measurement PRB#23 greater than 18 dB and less than or Subband 6 downlink Signaltoto 10 MHz refers toPRB PRB#30 equal to 20 dB. range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47 This measurement is provided PRB#23 greater than 20 dB and less than or Subband 6 downlink Signaltoto 10 MHz refers toPRB PRB#30 equal to 22 dB. range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47is provided This measurement PRB#23 greater than 22 dB and less than or Subband 6 downlink Signaltoto 10 MHz refers toPRB PRB#30 equal to 24 dB. range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47 This measurement is provided PRB#23 greater than 24 dB and less than or Subband 6 downlink Signaltoto 10 MHz refers toPRB PRB#30 equal to 26 dB. range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47is provided This measurement PRB#23 greater than 26 dB and less than or Subband 6 downlink Signaltoto 10 MHz refers toPRB PRB#30 equal to 28 dB. range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47 This measurement is provided PRB#23 greater than 28 dB and less than or Subband 7 downlink Signaltoto 10 MHz refers toPRB PRB#30 equal to 30 dB. range of Interference and Noise Ratio PRB#35 subband 6 according to frequency: (SINR) post-compensation values 15 MHz and 20 refers 5 MHz refers to MHz PRB#20 to to (2 CQIs or codewords) that arefor PRB#40 to PRB#47is provided This measurement PRB#23 greater than or equal to -10 dB and Subband 7 downlink Signaltoto 10 MHz refers to PRB#30 less than or equal to -8 dB. PRB Interference and Noise Ratio PRB#35 range ofpost-compensation subband 7 according to (SINR) 15 MHz and 20 MHz refers values to frequency: (2 CQIs or that arefor PRB#40 to codewords) PRB#47 This measurement is provided 5 MHz refers todB PRB#24 greater than -8 and less than or Subband 7 downlink Signaltoto 10 MHz refers to PRB#36 equal to -6 dB. PRB range of Interference and Noise Ratio PRB#41 subband 7 according to frequency: (SINR) post-compensation 15 MHz and 20 refers values to 5 MHz to MHz PRB#24 (2 CQIsrefers or codewords) that are PRB#48 to PRB#55 10 MHzthan refers greater -6to dBPRB#36 and lesstothan or PRB#41 equal to -4 dB. PRB range of 15 MHz and 20 MHz refers to subband 7 according to frequency: PRB#48 to PRB#55 5 MHz refers to PRB#24 10 MHz refers to PRB#36 to PRB#41 15 MHz and 20 MHz refers to PRB#48 to PRB#55
This measurement is provided for Subband 7 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than -4 dB and less than or Subband 7 downlink Signal to equal to -2 dB. PRB range of Interference and Noise Ratio subband 7 according to frequency: (SINR) post-compensation values 5 MHz refers to PRB#24 (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers to PRB#36 tothan greater than -2 dB and less Subband 7 downlink Signal to or PRB#41 equal to 0 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 7 according to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers to PRB#36 to greater than 0 dB and less Subband 7 downlink Signalthan to or PRB#41 equal to 2 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 7 according to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers to PRB#36 to greater than 2 dB and less Subband 7 downlink Signalthan to or PRB#41 equal to 4 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 7 according to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers to PRB#36 to greater than 4 dB and less Subband 7 downlink Signalthan to or PRB#41 equal to 6 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 7 according to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers to PRB#36 to greater than 6 dB and less Subband 7 downlink Signalthan to or PRB#41 equal to 8 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 7 according to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers to PRB#36 to greater than 8 dB and less Subband 7 downlink Signalthan to or PRB#41 equal to 10 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 7 according to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers todB PRB#36 to than or greater than 10 and less Subband 7 downlink Signal to PRB#41 equal to 12 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 7 according to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers todB PRB#36 to than or greater than 12 and less Subband 7 downlink Signal to PRB#41 equal to 14 db. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 7 according to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers todB PRB#36 to than greater than 14 and less or Subband 7 downlink Signal to PRB#41 equal to 16 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 7 according to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers todB PRB#36 to than or greater than 16 and less Subband 7 downlink Signal to PRB#41 equal to 18 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 7 according to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 (2 CQIs or codewords) that are 10 MHzthan refers PRB#36 to than or greater 18todB and less PRB#41 equal to 20 dB. PRB range of 15 MHz and 20 MHz refers to subband 7 according to frequency: PRB#48 to PRB#55 5 MHz refers to PRB#24
This measurement is provided for Subband 7 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than -4 dB and less than or Subband 7 downlink Signal to equal to -2 dB. PRB range of Interference and Noise Ratio subband 7 according to frequency: (SINR) post-compensation values 5 MHz refers to PRB#24 (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers to PRB#36 tothan greater than -2 dB and less Subband 7 downlink Signal to or PRB#41 equal to 0 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 7 according to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers to PRB#36 to greater than 0 dB and less Subband 7 downlink Signalthan to or PRB#41 equal to 2 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 7 according to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers to PRB#36 to greater than 2 dB and less Subband 7 downlink Signalthan to or PRB#41 equal to 4 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 7 according to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers to PRB#36 to greater than 4 dB and less Subband 7 downlink Signalthan to or PRB#41 equal to 6 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 7 according to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers to PRB#36 to greater than 6 dB and less Subband 7 downlink Signalthan to or PRB#41 equal to 8 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 7 according to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers to PRB#36 to greater than 8 dB and less Subband 7 downlink Signalthan to or PRB#41 equal to 10 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 7 according to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers todB PRB#36 to than or greater than 10 and less Subband 7 downlink Signal to PRB#41 equal to 12 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 7 according to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers todB PRB#36 to than or greater than 12 and less Subband 7 downlink Signal to PRB#41 equal to 14 db. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 7 according to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers todB PRB#36 to than greater than 14 and less or Subband 7 downlink Signal to PRB#41 equal to 16 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 7 according to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers todB PRB#36 to than or greater than 16 and less Subband 7 downlink Signal to PRB#41 equal to 18 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 7 according to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 (2 CQIs or codewords) that are 10 MHzthan refers PRB#36 to than or greater 18todB and less PRB#41 equal to 20 dB. PRB range of 15 MHz and 20 MHz refers to subband 7 according to frequency: PRB#48 to PRB#55 5 MHz refers to PRB#24
10 MHz refers to PRB#36 to PRB#41 15 MHz and 20 MHz refers to PRB#48 to PRB#55
10 MHz refers to PRB#36 to PRB#41 15 MHz and 20 MHz refers to PRB#48 to PRB#55
This measurement is provided for Subband 7 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 20 dB and less to than or Subband 7 downlink Signal equal to 22 dB. PRB range of Interference and Noise Ratio subband 7 according to frequency: (SINR) post-compensation values 5 MHz refers to PRB#24 (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers todB PRB#36 to than greater than 22 and less or Subband 7 downlink Signal to PRB#41 equal to 24 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 7 according to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers todB PRB#36 to than or greater than 24 and less Subband 7 downlink Signal to PRB#41 equal to 26 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 7 according to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers todB PRB#36 to than greater than 26 and less or Subband 7 downlink Signal to PRB#41 equal to 28 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 7 according to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers todB PRB#36 to than or greater than 28 and less Subband 8 downlink Signal to PRB#41 equal to 30 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 7 according to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 (2 CQIs or codewords) that are This measurement is provided 10 MHz refers to PRB#36 todB for greater than or equal to -10 Subband 8 downlink Signal to and PRB#41 less than or equal to -8 Ratio dB. PRB Interference and Noise 15 MHz and 20 MHz refers to to range of subband 8 according (SINR) post-compensation values PRB#48 to PRB#55 frequency: (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers to PRB#42 tothan greater than -8 dB and less Subband 8 downlink Signal to or PRB#47 equal to -6 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 8 according to frequency: (SINR) post-compensation values PRB#56 to PRB#63 10 MHz refers to PRB#42 (2 CQIs or codewords) thattoarefor This measurement is provided PRB#47 greater than -6 dB and less to than or Subband 8 downlink Signal 15 MHz and 20PRB MHzrange refersof to equal to -4 dB. Interference and Noise Ratio PRB#56 to PRB#63 subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 toare (2 CQIs or codewords) that This measurement is provided for PRB#47 greater than -4 dB and less to than or Subband 8 downlink Signal 15 MHz and 20PRB MHzrange refersof to equal to -2 dB. Interference and Noise Ratio PRB#56 to PRB#63 subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 toare (2 CQIs or codewords) that This measurement is provided for PRB#47 greater than -2 dB and less to than or Subband 8 downlink Signal 15 MHz and 20PRB MHzrange refersofto equal to 0 dB. Interference and Noise Ratio PRB#56 to PRB#63 subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 toare (2 CQIs or codewords) that This measurement is provided for PRB#47 greater than 0 dB andSignal less than Subband 8 downlink to or 15 MHz and 20PRB MHzrange refersofto equal to 2 dB. Interference and Noise Ratio PRB#56 to PRB#63 subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 (2 CQIs or codewords) thattoare PRB#47 greater than 2 dB and less than or 15 MHz 20PRB MHzrange refersofto equal to and 4 dB. PRB#56 to PRB#63 subband 8 according to frequency:
This measurement is provided for Subband 7 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 20 dB and less to than or Subband 7 downlink Signal equal to 22 dB. PRB range of Interference and Noise Ratio subband 7 according to frequency: (SINR) post-compensation values 5 MHz refers to PRB#24 (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers todB PRB#36 to than greater than 22 and less or Subband 7 downlink Signal to PRB#41 equal to 24 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 7 according to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers todB PRB#36 to than or greater than 24 and less Subband 7 downlink Signal to PRB#41 equal to 26 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 7 according to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers todB PRB#36 to than greater than 26 and less or Subband 7 downlink Signal to PRB#41 equal to 28 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 7 according to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers todB PRB#36 to than or greater than 28 and less Subband 8 downlink Signal to PRB#41 equal to 30 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 7 according to frequency: (SINR) post-compensation values PRB#48 to PRB#55 5 MHz refers to PRB#24 (2 CQIs or codewords) that are This measurement is provided 10 MHz refers to PRB#36 todB for greater than or equal to -10 Subband 8 downlink Signal to and PRB#41 less than or equal to -8 Ratio dB. PRB Interference and Noise 15 MHz and 20 MHz refers to to range of subband 8 according (SINR) post-compensation values PRB#48 to PRB#55 frequency: (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers to PRB#42 tothan greater than -8 dB and less Subband 8 downlink Signal to or PRB#47 equal to -6 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 8 according to frequency: (SINR) post-compensation values PRB#56 to PRB#63 10 MHz refers to PRB#42 (2 CQIs or codewords) thattoarefor This measurement is provided PRB#47 greater than -6 dB and less to than or Subband 8 downlink Signal 15 MHz and 20PRB MHzrange refersof to equal to -4 dB. Interference and Noise Ratio PRB#56 to PRB#63 subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 toare (2 CQIs or codewords) that This measurement is provided for PRB#47 greater than -4 dB and less to than or Subband 8 downlink Signal 15 MHz and 20PRB MHzrange refersof to equal to -2 dB. Interference and Noise Ratio PRB#56 to PRB#63 subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 toare (2 CQIs or codewords) that This measurement is provided for PRB#47 greater than -2 dB and less to than or Subband 8 downlink Signal 15 MHz and 20PRB MHzrange refersofto equal to 0 dB. Interference and Noise Ratio PRB#56 to PRB#63 subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 toare (2 CQIs or codewords) that This measurement is provided for PRB#47 greater than 0 dB andSignal less than Subband 8 downlink to or 15 MHz and 20PRB MHzrange refersofto equal to 2 dB. Interference and Noise Ratio PRB#56 to PRB#63 subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 (2 CQIs or codewords) thattoare PRB#47 greater than 2 dB and less than or 15 MHz 20PRB MHzrange refersofto equal to and 4 dB. PRB#56 to PRB#63 subband 8 according to frequency:
10 MHz refers to PRB#42 to PRB#47 15 MHz and 20 MHz refers to PRB#56 to PRB#63
10 MHz refers to PRB#42 to PRB#47 15 MHz and 20 MHz refers to PRB#56 to PRB#63
This measurement is provided for Subband 8 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 4 dB and less Subband 8 downlink Signalthan to or equal to 6 dB. PRB range of Interference and Noise Ratio subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 toare (2 CQIs or codewords) that This measurement is provided for PRB#47 greater than 6 dB andSignal less than Subband 8 downlink to or 15 MHz and 20PRB MHzrange refersofto equal to 8 dB. Interference and Noise Ratio PRB#56 to PRB#63 subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 toare (2 CQIs or codewords) that This measurement is provided for PRB#47 greater than 8 dB andSignal less than Subband 8 downlink to or 15 MHz and 20 PRB MHz range refers of to equal to 10 dB. Interference and Noise Ratio PRB#56 to PRB#63 subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 toare (2 CQIs or codewords) that This measurement is provided for PRB#47 greater than 10 dB and less to than or Subband 8 downlink 15 MHz and 20 PRB MHz Signal refers of to equal to 12 dB. range Interference and Noise Ratio PRB#56 to PRB#63 subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 toare (2 CQIs or codewords) that This measurement is provided for PRB#47 greater than 12 dB and less to than or Subband 8 downlink Signal 15 MHz and 20 PRB MHz range refers of to equal to 14 db. Interference and Noise Ratio PRB#56 to PRB#63 subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 toare (2 CQIs or codewords) that This measurement is provided for PRB#47 greater than 14 dB and less to than or Subband 8 downlink 15 MHz and 20 PRB MHz Signal refers of to equal to 16 dB. range Interference and Noise Ratio PRB#56 to PRB#63 subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 toare (2 CQIs or codewords) that This measurement is provided for PRB#47 greater than 16 dB and less to than or Subband 8 downlink 15 MHz and 20 PRB MHz Signal refers of to equal to 18 dB. range Interference and Noise Ratio PRB#56 to PRB#63 subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 toare (2 CQIs or codewords) that This measurement is provided for PRB#47 greater than 18 dB and less to than or Subband 8 downlink 15 MHz and 20 PRB MHz Signal refers of to equal to 20 dB. range Interference and Noise Ratio PRB#56 to PRB#63 subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 toare (2 CQIs or codewords) that This measurement is provided for PRB#47 greater than 20 dB and less to than or Subband 8 downlink 15 MHz and 20 PRB MHz Signal refers of to equal to 22 dB. range Interference and Noise Ratio PRB#56 to PRB#63 subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 toare (2 CQIs or codewords) that This measurement is provided for PRB#47 greater than 22 dB and less to than or Subband 8 downlink 15 MHz and 20 PRB MHz Signal refers of to equal to 24 dB. range Interference and Noise Ratio PRB#56 to PRB#63 subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 toare (2 CQIs or codewords) that This measurement is provided for PRB#47 greater than 24 dB and less to than or Subband 8 downlink 15 MHz and 20 PRB MHz Signal refers of to equal to 26 dB. range Interference and Noise Ratio PRB#56 to PRB#63 subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 (2 CQIs or codewords) thattoare PRB#47 greater than 26 dB and less than or 15 MHz 20 PRB MHz range refers of to equal to and 28 dB. PRB#56 to PRB#63 subband 8 according to frequency:
This measurement is provided for Subband 8 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 4 dB and less Subband 8 downlink Signalthan to or equal to 6 dB. PRB range of Interference and Noise Ratio subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 toare (2 CQIs or codewords) that This measurement is provided for PRB#47 greater than 6 dB andSignal less than Subband 8 downlink to or 15 MHz and 20PRB MHzrange refersofto equal to 8 dB. Interference and Noise Ratio PRB#56 to PRB#63 subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 toare (2 CQIs or codewords) that This measurement is provided for PRB#47 greater than 8 dB andSignal less than Subband 8 downlink to or 15 MHz and 20 PRB MHz range refers of to equal to 10 dB. Interference and Noise Ratio PRB#56 to PRB#63 subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 toare (2 CQIs or codewords) that This measurement is provided for PRB#47 greater than 10 dB and less to than or Subband 8 downlink 15 MHz and 20 PRB MHz Signal refers of to equal to 12 dB. range Interference and Noise Ratio PRB#56 to PRB#63 subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 toare (2 CQIs or codewords) that This measurement is provided for PRB#47 greater than 12 dB and less to than or Subband 8 downlink Signal 15 MHz and 20 PRB MHz range refers of to equal to 14 db. Interference and Noise Ratio PRB#56 to PRB#63 subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 toare (2 CQIs or codewords) that This measurement is provided for PRB#47 greater than 14 dB and less to than or Subband 8 downlink 15 MHz and 20 PRB MHz Signal refers of to equal to 16 dB. range Interference and Noise Ratio PRB#56 to PRB#63 subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 toare (2 CQIs or codewords) that This measurement is provided for PRB#47 greater than 16 dB and less to than or Subband 8 downlink 15 MHz and 20 PRB MHz Signal refers of to equal to 18 dB. range Interference and Noise Ratio PRB#56 to PRB#63 subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 toare (2 CQIs or codewords) that This measurement is provided for PRB#47 greater than 18 dB and less to than or Subband 8 downlink 15 MHz and 20 PRB MHz Signal refers of to equal to 20 dB. range Interference and Noise Ratio PRB#56 to PRB#63 subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 toare (2 CQIs or codewords) that This measurement is provided for PRB#47 greater than 20 dB and less to than or Subband 8 downlink 15 MHz and 20 PRB MHz Signal refers of to equal to 22 dB. range Interference and Noise Ratio PRB#56 to PRB#63 subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 toare (2 CQIs or codewords) that This measurement is provided for PRB#47 greater than 22 dB and less to than or Subband 8 downlink 15 MHz and 20 PRB MHz Signal refers of to equal to 24 dB. range Interference and Noise Ratio PRB#56 to PRB#63 subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 toare (2 CQIs or codewords) that This measurement is provided for PRB#47 greater than 24 dB and less to than or Subband 8 downlink 15 MHz and 20 PRB MHz Signal refers of to equal to 26 dB. range Interference and Noise Ratio PRB#56 to PRB#63 subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 (2 CQIs or codewords) thattoare PRB#47 greater than 26 dB and less than or 15 MHz 20 PRB MHz range refers of to equal to and 28 dB. PRB#56 to PRB#63 subband 8 according to frequency:
10 MHz refers to PRB#42 to PRB#47 15 MHz and 20 MHz refers to PRB#56 to PRB#63
10 MHz refers to PRB#42 to PRB#47 15 MHz and 20 MHz refers to PRB#56 to PRB#63
This measurement is provided for Subband 8 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 28 dB and less to than or Subband 9 downlink Signal equal to 30 dB. PRB range of Interference and Noise Ratio subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 toare (2 CQIs or codewords) that This measurement is provided for PRB#47 greater than or equalSignal to -10 to dB and Subband 9 downlink 15 MHz and 20 MHz refers to less than or equal to -8 dB. PRB Interference and Noise Ratio PRB#56 to PRB#63 range subband 9 according to (SINR)ofpost-compensation values frequency: (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers to PRB#48 tothan or greater than -8 dB and less Subband 9 downlink Signal to PRB#49 equal to -6 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 9 according to frequency: (SINR) post-compensation values PRB#64 to PRB#71 10 MHz refers to PRB#48 (2 CQIs or codewords) thattoarefor This measurement is provided PRB#49 greater than -6 dB and less to than or Subband 9 downlink Signal 15 MHz and 20PRB MHzrange refersof to equal to -4 dB. Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than -4 dB and less to than or Subband 9 downlink Signal 15 MHz and 20PRB MHzrange refersof to equal to -2 dB. Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than -2 dB and less to than or Subband 9 downlink Signal 15 MHz and 20PRB MHzrange refersofto equal to 0 dB. Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than 0 dB andSignal less than Subband 9 downlink to or 15 MHz and 20PRB MHzrange refersofto equal to 2 dB. Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than 2 dB andSignal less than Subband 9 downlink to or 15 MHz and 20PRB MHzrange refersofto equal to 4 dB. Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than 4 dB andSignal less than Subband 9 downlink to or 15 MHz and 20PRB MHzrange refersofto equal to 6 dB. Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than 6 dB andSignal less than Subband 9 downlink to or 15 MHz and 20PRB MHzrange refersofto equal to 8 dB. Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than 8 dB andSignal less than Subband 9 downlink to or 15 MHz and 20 PRB MHz range refers of to equal to 10 dB. Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 (2 CQIs or codewords) thattoare PRB#49 greater than 10 dB and less than or 15 MHz 20 PRB MHz range refers of to equal to and 12 dB. PRB#64 to PRB#71 subband 9 according to frequency:
This measurement is provided for Subband 8 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 28 dB and less to than or Subband 9 downlink Signal equal to 30 dB. PRB range of Interference and Noise Ratio subband 8 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#42 toare (2 CQIs or codewords) that This measurement is provided for PRB#47 greater than or equalSignal to -10 to dB and Subband 9 downlink 15 MHz and 20 MHz refers to less than or equal to -8 dB. PRB Interference and Noise Ratio PRB#56 to PRB#63 range subband 9 according to (SINR)ofpost-compensation values frequency: (2 CQIs or codewords) that arefor This measurement is provided 10 MHz refers to PRB#48 tothan or greater than -8 dB and less Subband 9 downlink Signal to PRB#49 equal to -6 dB. PRB range of Interference and Noise Ratio 15 MHz and 20 MHz refers to subband 9 according to frequency: (SINR) post-compensation values PRB#64 to PRB#71 10 MHz refers to PRB#48 (2 CQIs or codewords) thattoarefor This measurement is provided PRB#49 greater than -6 dB and less to than or Subband 9 downlink Signal 15 MHz and 20PRB MHzrange refersof to equal to -4 dB. Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than -4 dB and less to than or Subband 9 downlink Signal 15 MHz and 20PRB MHzrange refersof to equal to -2 dB. Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than -2 dB and less to than or Subband 9 downlink Signal 15 MHz and 20PRB MHzrange refersofto equal to 0 dB. Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than 0 dB andSignal less than Subband 9 downlink to or 15 MHz and 20PRB MHzrange refersofto equal to 2 dB. Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than 2 dB andSignal less than Subband 9 downlink to or 15 MHz and 20PRB MHzrange refersofto equal to 4 dB. Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than 4 dB andSignal less than Subband 9 downlink to or 15 MHz and 20PRB MHzrange refersofto equal to 6 dB. Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than 6 dB andSignal less than Subband 9 downlink to or 15 MHz and 20PRB MHzrange refersofto equal to 8 dB. Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than 8 dB andSignal less than Subband 9 downlink to or 15 MHz and 20 PRB MHz range refers of to equal to 10 dB. Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 (2 CQIs or codewords) thattoare PRB#49 greater than 10 dB and less than or 15 MHz 20 PRB MHz range refers of to equal to and 12 dB. PRB#64 to PRB#71 subband 9 according to frequency:
10 MHz refers to PRB#48 to PRB#49 15 MHz and 20 MHz refers to PRB#64 to PRB#71
10 MHz refers to PRB#48 to PRB#49 15 MHz and 20 MHz refers to PRB#64 to PRB#71
This measurement is provided for Subband 9 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 12 dB and less to than or Subband 9 downlink Signal equal to 14 db. PRB range of Interference and Noise Ratio subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than 14 dB and less to than or Subband 9 downlink 15 MHz and 20 PRB MHz Signal refers of to equal to 16 dB. range Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than 16 dB and less to than or Subband 9 downlink 15 MHz and 20 PRB MHz Signal refers of to equal to 18 dB. range Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than 18 dB and less to than or Subband 9 downlink 15 MHz and 20 PRB MHz Signal refers of to equal to 20 dB. range Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than 20 dB and less to than or Subband 9 downlink 15 MHz and 20 PRB MHz Signal refers of to equal to 22 dB. range Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than 22 dB and less to than or Subband 9 downlink 15 MHz and 20 PRB MHz Signal refers of to equal to 24 dB. range Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than 24 dB and less to than or Subband 9 downlink 15 MHz and 20 PRB MHz Signal refers of to equal to 26 dB. range Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than 26 dB and less to than or Subband 9 downlink 15 MHz and 20 PRB MHz Signal refers of to equal to 28 dB. range Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than 28 dB andSignal less than or Subband 10 20 downlink 15 MHz and MHz range refers of toto equal to 30 dB. PRB Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than or equal to -10 dB Subband 10 20 downlink Signal to and 15 MHz and MHz refers to less than or equal to -8 dB. PRB Interference and Noise Ratio PRB#64 to PRB#71 range subband 10 according to (SINR)ofpost-compensation values frequency: (2 CQIs or codewords) that arefor This measurement is provided 15 MHz refers to PRB#72 to greater than -8 dB and less Subband 10 downlink Signalthan to or PRB#74 equal to -6 dB. PRB range of Interference and Ratio 20 MHz refers to Noise PRB#72 to subband 10 according to frequency: (SINR) post-compensation values PRB#79 15 MHz refers to PRB#72 (2 CQIs or codewords) thattoare PRB#74 greater than -6 dB and less than or 20 MHz PRB#72 equal to refers -4 dB. to PRB rangeto of PRB#79 subband 10 according to frequency:
This measurement is provided for Subband 9 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 12 dB and less to than or Subband 9 downlink Signal equal to 14 db. PRB range of Interference and Noise Ratio subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than 14 dB and less to than or Subband 9 downlink 15 MHz and 20 PRB MHz Signal refers of to equal to 16 dB. range Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than 16 dB and less to than or Subband 9 downlink 15 MHz and 20 PRB MHz Signal refers of to equal to 18 dB. range Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than 18 dB and less to than or Subband 9 downlink 15 MHz and 20 PRB MHz Signal refers of to equal to 20 dB. range Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than 20 dB and less to than or Subband 9 downlink 15 MHz and 20 PRB MHz Signal refers of to equal to 22 dB. range Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than 22 dB and less to than or Subband 9 downlink 15 MHz and 20 PRB MHz Signal refers of to equal to 24 dB. range Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than 24 dB and less to than or Subband 9 downlink 15 MHz and 20 PRB MHz Signal refers of to equal to 26 dB. range Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than 26 dB and less to than or Subband 9 downlink 15 MHz and 20 PRB MHz Signal refers of to equal to 28 dB. range Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than 28 dB andSignal less than or Subband 10 20 downlink 15 MHz and MHz range refers of toto equal to 30 dB. PRB Interference and Noise Ratio PRB#64 to PRB#71 subband 9 according to frequency: (SINR) post-compensation values 10 MHz refers to PRB#48 toare (2 CQIs or codewords) that This measurement is provided for PRB#49 greater than or equal to -10 dB Subband 10 20 downlink Signal to and 15 MHz and MHz refers to less than or equal to -8 dB. PRB Interference and Noise Ratio PRB#64 to PRB#71 range subband 10 according to (SINR)ofpost-compensation values frequency: (2 CQIs or codewords) that arefor This measurement is provided 15 MHz refers to PRB#72 to greater than -8 dB and less Subband 10 downlink Signalthan to or PRB#74 equal to -6 dB. PRB range of Interference and Ratio 20 MHz refers to Noise PRB#72 to subband 10 according to frequency: (SINR) post-compensation values PRB#79 15 MHz refers to PRB#72 (2 CQIs or codewords) thattoare PRB#74 greater than -6 dB and less than or 20 MHz PRB#72 equal to refers -4 dB. to PRB rangeto of PRB#79 subband 10 according to frequency:
15 MHz refers to PRB#72 to PRB#74 20 MHz refers to PRB#72 to PRB#79
15 MHz refers to PRB#72 to PRB#74 20 MHz refers to PRB#72 to PRB#79
This measurement is provided for Subband 10 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than -4 dB and less Subband 10 downlink Signalthan to or equal to -2 dB. PRB range of Interference and Noise Ratio subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than dB andSignal less than or Subband 10 -2 downlink 20 MHz refers to PRB#72 to to equal to 0 dB. PRB range of Interference and Noise Ratio PRB#79 subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than dB and Signal less than or Subband 10 0 downlink 20 MHz refers to PRB#72 to to equal to 2 dB. PRB range of Interference and Noise Ratio PRB#79 subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than dB and Signal less than or Subband 10 2 downlink 20 MHz refers to PRB#72 to to equal to 4 dB. PRB range of Interference and Noise Ratio PRB#79 subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than dB and Signal less than or Subband 10 4 downlink 20 MHz refers to PRB#72 to to equal to 6 dB. PRB range of Interference and Noise Ratio PRB#79 subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than dB and Signal less than or Subband 10 6 downlink 20 MHz refers to PRB#72 to to equal to 8 dB. PRB range of Interference and Noise Ratio PRB#79 subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than dB and Signal less than or Subband 10 8 downlink 20 MHz refers toPRB PRB#72 toofto equal to 10 dB. range Interference and Noise Ratio PRB#79 subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than dB andSignal less than or Subband 10 10 downlink 20 MHz refers toPRB PRB#72 toofto equal to 12 dB. range Interference and Noise Ratio PRB#79 subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than dB andSignal less than or Subband 10 12 downlink 20 MHz refers toPRB PRB#72 toofto equal to 14 db. range Interference and Noise Ratio PRB#79 subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than dB andSignal less than or Subband 10 14 downlink 20 MHz refers toPRB PRB#72 toofto equal to 16 dB. range Interference and Noise Ratio PRB#79 subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than dB andSignal less than or Subband 10 16 downlink 20 MHz refers toPRB PRB#72 toofto equal to 18 dB. range Interference and Noise Ratio PRB#79 subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 (2 CQIs or codewords) thattoare PRB#74 greater than 18 dB and less than or 20 MHz PRB#72 equal to refers 20 dB.toPRB rangetoof PRB#79 subband 10 according to frequency:
This measurement is provided for Subband 10 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than -4 dB and less Subband 10 downlink Signalthan to or equal to -2 dB. PRB range of Interference and Noise Ratio subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than dB andSignal less than or Subband 10 -2 downlink 20 MHz refers to PRB#72 to to equal to 0 dB. PRB range of Interference and Noise Ratio PRB#79 subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than dB and Signal less than or Subband 10 0 downlink 20 MHz refers to PRB#72 to to equal to 2 dB. PRB range of Interference and Noise Ratio PRB#79 subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than dB and Signal less than or Subband 10 2 downlink 20 MHz refers to PRB#72 to to equal to 4 dB. PRB range of Interference and Noise Ratio PRB#79 subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than dB and Signal less than or Subband 10 4 downlink 20 MHz refers to PRB#72 to to equal to 6 dB. PRB range of Interference and Noise Ratio PRB#79 subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than dB and Signal less than or Subband 10 6 downlink 20 MHz refers to PRB#72 to to equal to 8 dB. PRB range of Interference and Noise Ratio PRB#79 subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than dB and Signal less than or Subband 10 8 downlink 20 MHz refers toPRB PRB#72 toofto equal to 10 dB. range Interference and Noise Ratio PRB#79 subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than dB andSignal less than or Subband 10 10 downlink 20 MHz refers toPRB PRB#72 toofto equal to 12 dB. range Interference and Noise Ratio PRB#79 subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than dB andSignal less than or Subband 10 12 downlink 20 MHz refers toPRB PRB#72 toofto equal to 14 db. range Interference and Noise Ratio PRB#79 subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than dB andSignal less than or Subband 10 14 downlink 20 MHz refers toPRB PRB#72 toofto equal to 16 dB. range Interference and Noise Ratio PRB#79 subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than dB andSignal less than or Subband 10 16 downlink 20 MHz refers toPRB PRB#72 toofto equal to 18 dB. range Interference and Noise Ratio PRB#79 subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 (2 CQIs or codewords) thattoare PRB#74 greater than 18 dB and less than or 20 MHz PRB#72 equal to refers 20 dB.toPRB rangetoof PRB#79 subband 10 according to frequency:
15 MHz refers to PRB#72 to PRB#74 20 MHz refers to PRB#72 to PRB#79
15 MHz refers to PRB#72 to PRB#74 20 MHz refers to PRB#72 to PRB#79
This measurement is provided for Subband 10 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 20 dB and less than Subband 10 downlink Signal to or equal to 22 dB. PRB range of Interference and Noise Ratio subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than dB andSignal less than or Subband 10 22 downlink 20 MHz refers toPRB PRB#72 toofto equal to 24 dB. range Interference and Noise Ratio PRB#79 subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than dB andSignal less than or Subband 10 24 downlink 20 MHz refers toPRB PRB#72 toofto equal to 26 dB. range Interference and Noise Ratio PRB#79 subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than dB andSignal less than or Subband 10 26 downlink 20 MHz refers toPRB PRB#72 toofto equal to 28 dB. range Interference and Noise Ratio PRB#79 subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than 28 dB andSignal less than or Subband 11 downlink 20 MHz refers toPRB PRB#72 toofto equal to 30 dB. range Interference and Noise Ratio PRB#79 subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than or equal to -10 dB and Subband 11 downlink Signal 20 MHz refers to PRB#72 to to less than or equal to -8 dB. Interference and Noise Ratio PRB#79 Subband 11 for 20 MHz refers to (SINR) post-compensation values PRB#80 to PRB#87. (2 CQIs or codewords) that arefor This measurement is provided greater than -8 dB and less Subband 11 downlink Signalthan to or equal to -6 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
This measurement is provided for Subband 10 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 20 dB and less than Subband 10 downlink Signal to or equal to 22 dB. PRB range of Interference and Noise Ratio subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than dB andSignal less than or Subband 10 22 downlink 20 MHz refers toPRB PRB#72 toofto equal to 24 dB. range Interference and Noise Ratio PRB#79 subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than dB andSignal less than or Subband 10 24 downlink 20 MHz refers toPRB PRB#72 toofto equal to 26 dB. range Interference and Noise Ratio PRB#79 subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than dB andSignal less than or Subband 10 26 downlink 20 MHz refers toPRB PRB#72 toofto equal to 28 dB. range Interference and Noise Ratio PRB#79 subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than 28 dB andSignal less than or Subband 11 downlink 20 MHz refers toPRB PRB#72 toofto equal to 30 dB. range Interference and Noise Ratio PRB#79 subband 10 according to frequency: (SINR) post-compensation values 15 MHz refers to PRB#72 toare (2 CQIs or codewords) that This measurement is provided for PRB#74 greater than or equal to -10 dB and Subband 11 downlink Signal 20 MHz refers to PRB#72 to to less than or equal to -8 dB. Interference and Noise Ratio PRB#79 Subband 11 for 20 MHz refers to (SINR) post-compensation values PRB#80 to PRB#87. (2 CQIs or codewords) that arefor This measurement is provided greater than -8 dB and less Subband 11 downlink Signalthan to or equal to -6 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than -6 dB and less Subband 11 downlink Signalthan to or equal to -4 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than -6 dB and less Subband 11 downlink Signalthan to or equal to -4 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than -4 dB and less Subband 11 downlink Signalthan to or equal to -2 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than -4 dB and less Subband 11 downlink Signalthan to or equal to -2 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than -2 dB and less Subband 11 downlink Signalthan to or equal to 0 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than -2 dB and less Subband 11 downlink Signalthan to or equal to 0 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 0 dB and less than Subband 11 downlink Signal to or equal to 2 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 0 dB and less than Subband 11 downlink Signal to or equal to 2 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that are greater than 2 dB and less than or equal to 4 dB. Subband 11 for 20 MHz refers to PRB#80 to PRB#87.
(2 CQIs or codewords) that are greater than 2 dB and less than or equal to 4 dB. Subband 11 for 20 MHz refers to PRB#80 to PRB#87.
This measurement is provided for Subband 11 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 4 dB and less than Subband 11 downlink Signal to or equal to 6 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
This measurement is provided for Subband 11 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 4 dB and less than Subband 11 downlink Signal to or equal to 6 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 6 dB and less than Subband 11 downlink Signal to or equal to 8 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 6 dB and less than Subband 11 downlink Signal to or equal to 8 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 8 dB and less than Subband 11 downlink Signal to or equal to 10 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 8 dB and less than Subband 11 downlink Signal to or equal to 10 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 10 dB and less than Subband 11 downlink Signal to or equal to 12 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 10 dB and less than Subband 11 downlink Signal to or equal to 12 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 12 dB and less than Subband 11 downlink Signal to or equal to 14 db. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 12 dB and less than Subband 11 downlink Signal to or equal to 14 db. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 14 dB and less than Subband 11 downlink Signal to or equal to 16 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 14 dB and less than Subband 11 downlink Signal to or equal to 16 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 16 dB and less than Subband 11 downlink Signal to or equal to 18 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 16 dB and less than Subband 11 downlink Signal to or equal to 18 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 18 dB and less than Subband 11 downlink Signal to or equal to 20 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 18 dB and less than Subband 11 downlink Signal to or equal to 20 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 20 dB and less than Subband 11 downlink Signal to or equal to 22 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 20 dB and less than Subband 11 downlink Signal to or equal to 22 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 22 dB and less than Subband 11 downlink Signal to or equal to 24 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 22 dB and less than Subband 11 downlink Signal to or equal to 24 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 24 dB and less than Subband 11 downlink Signal to or equal to 26 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 24 dB and less than Subband 11 downlink Signal to or equal to 26 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that are greater than 26 dB and less than or equal to 28 dB. Subband 11 for 20 MHz refers to PRB#80 to PRB#87.
(2 CQIs or codewords) that are greater than 26 dB and less than or equal to 28 dB. Subband 11 for 20 MHz refers to PRB#80 to PRB#87.
This measurement is provided for Subband 11 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 28 dB and less than Subband 12 downlink Signal to or equal to 30 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
This measurement is provided for Subband 11 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 28 dB and less than Subband 12 downlink Signal to or equal to 30 dB. Subband 11 for Interference and Noise Ratio 20 MHz refers to PRB#80 to PRB#87. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than or equal to -10 dB Subband 12 downlink Signal to and less than or equal to -8 dB. Interference and Noise Ratio Subband 12 for 20 MHz refers to (SINR) post-compensation values PRB#88 to PRB#95. (2 CQIs or codewords) that arefor This measurement is provided greater than -8 dB and less Subband 12 downlink Signalthan to or equal to -6 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than -6 dB and less Subband 12 downlink Signalthan to or equal to -4 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than or equal to -10 dB Subband 12 downlink Signal to and less than or equal to -8 dB. Interference and Noise Ratio Subband 12 for 20 MHz refers to (SINR) post-compensation values PRB#88 to PRB#95. (2 CQIs or codewords) that arefor This measurement is provided greater than -8 dB and less Subband 12 downlink Signalthan to or equal to -6 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than -6 dB and less Subband 12 downlink Signalthan to or equal to -4 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than -4 dB and less Subband 12 downlink Signalthan to or equal to -2 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than -4 dB and less Subband 12 downlink Signalthan to or equal to -2 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than -2 dB and less Subband 12 downlink Signalthan to or equal to 0 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than -2 dB and less Subband 12 downlink Signalthan to or equal to 0 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 0 dB and less than Subband 12 downlink Signal to or equal to 2 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 0 dB and less than Subband 12 downlink Signal to or equal to 2 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 2 dB and less than Subband 12 downlink Signal to or equal to 4 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 2 dB and less than Subband 12 downlink Signal to or equal to 4 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 4 dB and less than Subband 12 downlink Signal to or equal to 6 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 4 dB and less than Subband 12 downlink Signal to or equal to 6 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 6 dB and less than Subband 12 downlink Signal to or equal to 8 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 6 dB and less than Subband 12 downlink Signal to or equal to 8 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 8 dB and less than Subband 12 downlink Signal to or equal to 10 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 8 dB and less than Subband 12 downlink Signal to or equal to 10 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that are greater than 10 dB and less than or equal to 12 dB. Subband 12 for 20 MHz refers to PRB#88 to PRB#95.
(2 CQIs or codewords) that are greater than 10 dB and less than or equal to 12 dB. Subband 12 for 20 MHz refers to PRB#88 to PRB#95.
This measurement is provided for Subband 12 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 12 dB and less than Subband 12 downlink Signal to or equal to 14 db. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
This measurement is provided for Subband 12 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 12 dB and less than Subband 12 downlink Signal to or equal to 14 db. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 14 dB and less than Subband 12 downlink Signal to or equal to 16 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 14 dB and less than Subband 12 downlink Signal to or equal to 16 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 16 dB and less than Subband 12 downlink Signal to or equal to 18 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 16 dB and less than Subband 12 downlink Signal to or equal to 18 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 18 dB and less than Subband 12 downlink Signal to or equal to 20 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 18 dB and less than Subband 12 downlink Signal to or equal to 20 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 20 dB and less than Subband 12 downlink Signal to or equal to 22 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 20 dB and less than Subband 12 downlink Signal to or equal to 22 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 22 dB and less than Subband 12 downlink Signal to or equal to 24 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 22 dB and less than Subband 12 downlink Signal to or equal to 24 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 24 dB and less than Subband 12 downlink Signal to or equal to 26 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 24 dB and less than Subband 12 downlink Signal to or equal to 26 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 26 dB and less than Subband 12 downlink Signal to or equal to 28 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 26 dB and less than Subband 12 downlink Signal to or equal to 28 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 28 dB and less than Subband 13 downlink Signal to or equal to 30 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 28 dB and less than Subband 13 downlink Signal to or equal to 30 dB. Subband 12 for Interference and Noise Ratio 20 MHz refers to PRB#88 to PRB#95. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than or equal to -10 dB Subband 13 downlink Signal to and less than or equal to -8 dB. Interference and Noise Ratio Subband 13 for 20 MHz refers to (SINR) post-compensation values PRB#96 to PRB#99. (2 CQIs or codewords) that arefor This measurement is provided greater than -8 dB and less Subband 13 downlink Signalthan to or equal to -6 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values (2 CQIs or codewords) that are greater than -6 dB and less than or equal to -4 dB. Subband 13 for 20 MHz refers to PRB#96 to PRB#99.
(2 CQIs or codewords) that arefor This measurement is provided greater than or equal to -10 dB Subband 13 downlink Signal to and less than or equal to -8 dB. Interference and Noise Ratio Subband 13 for 20 MHz refers to (SINR) post-compensation values PRB#96 to PRB#99. (2 CQIs or codewords) that arefor This measurement is provided greater than -8 dB and less Subband 13 downlink Signalthan to or equal to -6 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values (2 CQIs or codewords) that are greater than -6 dB and less than or equal to -4 dB. Subband 13 for 20 MHz refers to PRB#96 to PRB#99.
This measurement is provided for Subband 13 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than -4 dB and less Subband 13 downlink Signalthan to or equal to -2 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
This measurement is provided for Subband 13 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than -4 dB and less Subband 13 downlink Signalthan to or equal to -2 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than -2 dB and less Subband 13 downlink Signalthan to or equal to 0 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than -2 dB and less Subband 13 downlink Signalthan to or equal to 0 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 0 dB and less than Subband 13 downlink Signal to or equal to 2 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 0 dB and less than Subband 13 downlink Signal to or equal to 2 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 2 dB and less than Subband 13 downlink Signal to or equal to 4 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 2 dB and less than Subband 13 downlink Signal to or equal to 4 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 4 dB and less than Subband 13 downlink Signal to or equal to 6 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 4 dB and less than Subband 13 downlink Signal to or equal to 6 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 6 dB and less than Subband 13 downlink Signal to or equal to 8 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 6 dB and less than Subband 13 downlink Signal to or equal to 8 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 8 dB and less than Subband 13 downlink Signal to or equal to 10 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 8 dB and less than Subband 13 downlink Signal to or equal to 10 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 10 dB and less than Subband 13 downlink Signal to or equal to 12 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 10 dB and less than Subband 13 downlink Signal to or equal to 12 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 12 dB and less than Subband 13 downlink Signal to or equal to 14 db. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 12 dB and less than Subband 13 downlink Signal to or equal to 14 db. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 14 dB and less than Subband 13 downlink Signal to or equal to 16 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 14 dB and less than Subband 13 downlink Signal to or equal to 16 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 16 dB and less than Subband 13 downlink Signal to or equal to 18 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 16 dB and less than Subband 13 downlink Signal to or equal to 18 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that are greater than 18 dB and less than or equal to 20 dB. Subband 13 for 20 MHz refers to PRB#96 to PRB#99.
(2 CQIs or codewords) that are greater than 18 dB and less than or equal to 20 dB. Subband 13 for 20 MHz refers to PRB#96 to PRB#99.
This measurement is provided for Subband 13 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 20 dB and less than Subband 13 downlink Signal to or equal to 22 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
This measurement is provided for Subband 13 downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 20 dB and less than Subband 13 downlink Signal to or equal to 22 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 22 dB and less than Subband 13 downlink Signal to or equal to 24 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 22 dB and less than Subband 13 downlink Signal to or equal to 24 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 24 dB and less than Subband 13 downlink Signal to or equal to 26 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 24 dB and less than Subband 13 downlink Signal to or equal to 26 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 26 dB and less than Subband 13 downlink Signal to or equal to 28 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 26 dB and less than Subband 13 downlink Signal to or equal to 28 dB. Subband 13 for Interference and Noise Ratio 20 MHz refers to PRB#96 to PRB#99. (SINR) post-compensation values
(2 CQIs or codewords) that arefor This measurement is provided greater than 28 dB and lesstothan or Wideband downlink Signal equal to 30 dB. Subband 13 for 20 Interference and Noise Ratio MHz refers to PRB#96 to (SINR) post-compensationPRB#99. values
(2 CQIs or codewords) that arefor This measurement is provided greater than 28 dB and lesstothan or Wideband downlink Signal equal to 30 dB. Subband 13 for 20 Interference and Noise Ratio MHz refers to PRB#96 to (SINR) post-compensationPRB#99. values
that greater thanis or equal tofor -10 This are measurement provided dB and less than or equal to -8 dB. Wideband downlink Signal to
that greater thanis or equal tofor -10 This are measurement provided dB and less than or equal to -8 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis -8 dB andfor less This are measurement provided than or equal to -6 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis -8 dB andfor less This are measurement provided than or equal to -6 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis -6 dB andfor less This are measurement provided than or equal to -4 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis -6 dB andfor less This are measurement provided than or equal to -4 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis -4 dB andfor less This are measurement provided than or equal to -2 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis -4 dB andfor less This are measurement provided than or equal to -2 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis -2 dB andfor less This are measurement provided than or equal to 0 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis -2 dB andfor less This are measurement provided than or equal to 0 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis 0provided dB and less This are measurement for than or equal to 2 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis 0provided dB and less This are measurement for than or equal to 2 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that are greater than 2 dB and less than or equal to 4 dB.
Interference and Noise Ratio (SINR) post-compensation values that are greater than 2 dB and less than or equal to 4 dB.
This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 4provided dB and less This are measurement for than or equal to 6 dB. Wideband downlink Signal to
This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 4provided dB and less This are measurement for than or equal to 6 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis 6provided dB and less This are measurement for than or equal to 8 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis 6provided dB and less This are measurement for than or equal to 8 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis 8provided dB and less This are measurement for than or equal to 10 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis 8provided dB and less This are measurement for than or equal to 10 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis 10 dB andfor This are measurement provided less than or equal to 12 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis 10 dB andfor This are measurement provided less than or equal to 12 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis 12 dB andfor This are measurement provided less than or equal to 14 db. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis 12 dB andfor This are measurement provided less than or equal to 14 db. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis 14 dB andfor This are measurement provided less than or equal to 16 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis 14 dB andfor This are measurement provided less than or equal to 16 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis 16 dB andfor This are measurement provided less than or equal to 18 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis 16 dB andfor This are measurement provided less than or equal to 18 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis 18 dB andfor This are measurement provided less than or equal to 20 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis 18 dB andfor This are measurement provided less than or equal to 20 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis 20 dB andfor This are measurement provided less than or equal to 22 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis 20 dB andfor This are measurement provided less than or equal to 22 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis 22 dB andfor This are measurement provided less than or equal to 24 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis 22 dB andfor This are measurement provided less than or equal to 24 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis 24 dB andfor This are measurement provided less than or equal to 26 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that greater thanis 24 dB andfor This are measurement provided less than or equal to 26 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values that are greater than 26 dB and less than or equal to 28 dB.
Interference and Noise Ratio (SINR) post-compensation values that are greater than 26 dB and less than or equal to 28 dB.
This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 28 dB andfor This are measurement provided less than or equal to 30 dB. Wideband downlink Signal to
This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values that greater thanis 28 dB andfor This are measurement provided less than or equal to 30 dB. Wideband downlink Signal to
Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than or equal to -10todB and Wideband downlink Signal less than or equal to -8 dB. Interference and Noise Ratio
Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than or equal to -10todB and Wideband downlink Signal less than or equal to -8 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than -8 dB and less than or Wideband downlink Signal to equal to -6 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than -8 dB and less than or Wideband downlink Signal to equal to -6 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than -6 dB and less than or Wideband downlink Signal to equal to -4 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than -6 dB and less than or Wideband downlink Signal to equal to -4 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than -4 dB and less than or Wideband downlink Signal to equal to -2 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than -4 dB and less than or Wideband downlink Signal to equal to -2 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than -2 dB and less than or Wideband downlink Signal to equal to 0 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than -2 dB and less than or Wideband downlink Signal to equal to 0 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 0 dB and less Wideband downlink Signal than to or equal to 2 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 0 dB and less Wideband downlink Signal than to or equal to 2 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 2 dB and less Wideband downlink Signal than to or equal to 4 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 2 dB and less Wideband downlink Signal than to or equal to 4 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 4 dB and less Wideband downlink Signal than to or equal to 6 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 4 dB and less Wideband downlink Signal than to or equal to 6 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 6 dB and less Wideband downlink Signal than to or equal to 8 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 6 dB and less Wideband downlink Signal than to or equal to 8 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 8 dB and less Wideband downlink Signal than to or equal to 10 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 8 dB and less Wideband downlink Signal than to or equal to 10 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 10 dB and less than or equal to 12 dB.
(SINR) post-compensation values (2 CQIs or codewords) that are greater than 10 dB and less than or equal to 12 dB.
This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 12 dB and lesstothan or Wideband downlink Signal equal to 14 db. Interference and Noise Ratio
This measurement is provided for Wideband downlink Signal to Interference and Noise Ratio (SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 12 dB and lesstothan or Wideband downlink Signal equal to 14 db. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 14 dB and lesstothan or Wideband downlink Signal equal to 16 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 14 dB and lesstothan or Wideband downlink Signal equal to 16 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 16 dB and lesstothan or Wideband downlink Signal equal to 18 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 16 dB and lesstothan or Wideband downlink Signal equal to 18 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 18 dB and lesstothan or Wideband downlink Signal equal to 20 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 18 dB and lesstothan or Wideband downlink Signal equal to 20 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 20 dB and lesstothan or Wideband downlink Signal equal to 22 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 20 dB and lesstothan or Wideband downlink Signal equal to 22 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 22 dB and lesstothan or Wideband downlink Signal equal to 24 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 22 dB and lesstothan or Wideband downlink Signal equal to 24 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 24 dB and lesstothan or Wideband downlink Signal equal to 26 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 24 dB and lesstothan or Wideband downlink Signal equal to 26 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 26 dB and lesstothan or Wideband downlink Signal equal to 28 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arefor This measurement is provided greater than 26 dB and lesstothan or Wideband downlink Signal equal to 28 dB. Interference and Noise Ratio
(SINR) post-compensation values (2 CQIs or codewords) that arethe This measurement represents greater than 28 dB and less than or number of times a UE was equal to 30 dB. connected in LTE, then
(SINR) post-compensation values (2 CQIs or codewords) that are #N/A greater than 28 dB and less than or equal to 30 dB.
experienced a Radio Link Failure (RLF) in LTE, then selected UTRAN This measurement represents the #N/A to re-connect to, and then renumber of times a UE was connected the LTE system, connected again in LTE,tothen which identified a "late handover" experienced a Radio Link Failure using certain RLF report (RLF) in LTE, then selected UTRAN This measurement represents the #N/A information that isand transmitted from to re-connect to, then renumber ofthe times a UE was insection the the UE to eNB (see also connected again to the LTE system, process of for being handed over from "Updated" the counter trigger which identified a "late handover" LTE to UTRAN for any reason (for description). using certain RLFPSHO, report load example, CSFB, information that is transmitted from balancing, and so on) and In this case, the UE was measuring the UE to the eNB (see also section encountered a handover failure the target UTRAN frequency (that "Updated" for theto counter when attempting acquiretrigger the is, B1 or B2 measurement was description). UTRAN cell. Thereason), LTE system activated for any but the In this case, UEhandover" was measuring identifies an the "early using B2 threshold2 measurement the target UTRAN frequency (that is certain information in the UE threshold for PSHO waswas not met. B1 or B2(see measurement Context also section Note that this counter can onlythe be activated for any but "Updated" for3GPP thereason), counter trigger triggered by Release 11 (or B2 threshold2Inmeasurement description). thisRRC case,RLF the B2 higher) UEs the threshold foras VoLTE was not met.
This measurement represents the number of times a UE was in the process of being handed over from LTE to UTRAN for any reason (for example, CSFB, PSHO, load the This measurement represents balancing, and so on) and number of times a UE attempts a encountered a handover failure handover to UTRAN for any reason when attempting to acquire (e.g. CSFB, PSHO, Load the UTRAN cell.and The LTE system Balancing) the B2-PSHO This measurement represents the identifies an "early handover" using thresholds (T1 and T2)attempts were met number of times a UE a certain information in the UEfor the (see also section "Updated" handover to UTRAN or any reason Context (see also section counter trigger description). This (e.g. CSFB, Load trigger "Updated" forPSHO, the counter counter is used by the Mobility Balancing) and the represents B2-VoLTE description). In this case, the B2 This measurement the Robustness Optimization (MRO) thresholds (T1 and T2) were met threshold2 measurement threshold number ofwhose times that the eNB algorithm function is to (see alsoan section "Updated" for the for VoLTE was receives A2 met. event-related RRC optimize handover thresholds. counter trigger description). This Measurement Report and where counter is used by the Mobility The counter is in the LTE inter-frequency RSRP The counter is updated updated in (MRO) the the This measurement represents Robustness Optimization handover source cell (LTE cell) with threshold2InterFreq was met and it handover source cell (LTE cell) with number of times that the eNB algorithm whose function is to separate counters for each UTRAN was the nearest upper configured separate counters for each UTRAN receives an A2 event-related optimize handover thresholds.RRC (WCDMA) frequency. threshold for A2 event. (WCDMA or TD-SCDMA) Measurement Report and where The is updated in the LTE frequency. LTE counter inter-frequency RSRP The counter is updated in when the the This counter only applies measurement represents cell, where RRC Measurement threshold2InterFreqQci1 was met handover source cell (LTE cell) with LTE1749 (MRO Inter-RAT UTRAN) number times that the eNB Report isofreceived. This counter only applies when and it was the nearest upper separate counters for each UTRAN and LTE56 (PSHO to WCDMA) and receives an A2 event-related RRC This counter only applies when LTE1749 (MRO Inter-RAT UTRAN) configured threshold for A2 event. (WCDMA) frequency. LTE64 (Service based handover Measurement Report and where LTE55 (Inter-frequency HO) and either LTE56 (PSHO The counter isRSRP updated into theisLTE thresholds) are activated. Inter-System activated. WCDMA) or LTE898 (PSHO tothe TDThis measurement represents cell, where This counterRRC onlyMeasurement applies when threshold2Wcdma was met and it SCDMA) are activated. number of times that the eNB Report received. LTE1749 (MRO Inter-RAT UTRAN) was theisnearest upper configured receives an(PSHO A2 event-related RRC This counter only applies when and LTE56 to WCDMA) and threshold for A2 event.and Note: Thewhere counter Measurement Report LTE2112/LTE64 (Dedicated LTE64 (Service based handover The counter isRSRP updated in the LTE includes VoLTE and non-VoLTE Inter-System thresholds for SRVCC/Service thresholds) are activated. This measurement represents the cell, where RRC Measurement connections. threshold2WcdmaQci1 met based handover is number times thresholds) that thewas eNB Report isofreceived. and it was the nearest upper activated. receives an A2 event-related RRC This counter only applies when configured threshold for A2 event. Measurement Report and where LTE56 (PS HO to WCDMA) is The counter is updated the LTE LTE inter-frequency andinInteractivated. This measurement represents the cell, where RRC Measurement Note: The counter System RSRQ threshold2MobRsrq number of times that the eNB Report received. includes andthe non-VoLTE was metisVoLTE and it was nearest receives an A2 event-related RRC This counter only applies when connections. upper configured threshold for A2 Note: The counter includes VoLTE Measurement Report and where LTE2112/LTE64 (Dedicated event. and non-VoLTE connections. the redirect RSRP threshold4 was thresholds for This measurement represents the The counter isSRVCC/Service updated in the LTE met and it was the nearest upper based handover thresholds) is number of times that the eNB cell, where RRC Measurement configured threshold for A2 event. activated. receives A2 event-related RRC Report isan received. The counter is updated in the LTE Measurement Report and where This counter only applies when cell, where RRC Measurement the redirect RSRQbased threshold4Rsrq LTE1198 (RSRQ mobility) This measurement represents theis Report isand received. was met it was the nearest activated. number of times that the eNB This counter only threshold applies when Note: The counter includes VoLTE upper configured for A2 receives an A1Connection event-related RRC LTE423 (RRC Release and non-VoLTE connections. event. Measurement Report and where with Redirect)isis activated. The counter updated in the LTE Note: The counter includes VoLTE the RSRP threshold2a was met and This measurement represents the cell, where RRC Measurement and non-VoLTE connections. itnumber was the nearest lower configured times that the eNB Report isofreceived. threshold forA1 A1event-related event The . If LTE1198 Note: counter receives an RRC This counter only applies when (RSRQ based mobility) is activated includes VoLTE and non-VoLTE Measurement Report and where LTE1407 (RSRQ based redirection) also threshold2aRsrq has towas be connections. the RSRP threshold2aQci1 is activated. met. met and it was the nearest lower The counterthreshold is updated LTE configured forin A1the event. cell, where RRC Measurement The counter is updated in the LTE Note: The counter includes VoLTE Report is received. cell, where RRCconnections. Measurement and non-VoLTE Report is received. Note: The counter includes VoLTE This counter only applies when and non-VoLTE connections. LTE2112/LTE64 (Dedicated thresholds for SRVCC/Service based handover thresholds) is
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
This measurement represents the number of times the eNB activates A4 measurements for Idle Mode Load Balancing (IMLB) in the UE.
#N/A
This measurement represents the #N/A number of times the eNB receives an RRC Measurement ReportThe with counter is updated in the LTE measResult IE for measId of cell, where A4 IMLB activation is sent by "Event E-UTRA A4 " the for Idle Mode This counter counts number of #N/A the eNB (with separate counters for Load Balancing (IMLB) which ispeer data chunks sent to the SCTP each E-UTRA carrier frequency for successfully evaluated the eNB. on theA4 S1measurements interface per by SCTP which is Also, idleModeMobilityControlInfo association. Resent SCTP data activated). IE is inserted into RRC Connection chunks are excluded. This counter counts the number of #N/A Release. data chunks received from the SCTP peer on the S1 interface per SCTP association This counter counts the number of The is data chunks resent tocounter the SCTP updated in the LTE cell, where peer on the S1 interface per SCTP Measurement association. Report for A4 IMLB is received and positively evaluated, This counter iscounters the cumulative with separate for each Eduration of congested periods of a UTRA carrier frequency for which single SCTP association on the S1 event A4 is reported. interface. The counter starts when the user requests the SCTP ThisSCTP counter counts the number of layer to send data but the SCTP occurences when the SCTP layer indicates fullS1 send queue. association on a the interface The counter stops if the SCTP user state changes from "not congested" requests the SCTP layer to send into "congested" state. This the cumulative data counter and the is SCTP layer accepts duration the data of forunavailable sending. periods of a single SCTP association on the S1 interface. The counter starts when the association TheSCTP counter counts thestate number of changes due to "connection occurences when the SCTP lost" or "Graceful Shutdown". association on the S1 interface
#N/A
#N/A
#N/A
#N/A
#N/A
state changes from "connected" to "not This connected". counter counts the number of
#N/A data chunks sent to the SCTP peer on the X2 interface per SCTP association. Resent SCTP data chunks are excluded. This counter counts the number of #N/A data chunks received from the SCTP peer on the X2 interface per SCTP association This counter counts the number of data chunks resent to the SCTP peer on the X2 interface per SCTP association.
#N/A
This counter is the cumulative duration of congested periods of a single SCTP association on the X2 interface. The counter starts when the user requests the SCTP ThisSCTP counter counts the number of layer to send data but the SCTP occurences when the SCTP layer indicates fullX2 send queue. association on a the interface The counter stops if the SCTP user state changes from "not congested" requests the SCTP layer to send into "congested" state. This the cumulative data counter and the is SCTP layer accepts duration of unavailable the data for sending. periods of a single SCTP association on the X2 interface. The counter starts when the association TheSCTP counter counts thestate number of changes due to "connection occurences when the SCTP lost" or "Graceful Shutdown". association on the X2 interface
#N/A
#N/A
#N/A
#N/A
state changes from "connected" to "not-connected". This counter counts the number of
#N/A data chunks sent to the SCTP peer on the M3 interface per SCTP association. Resent SCTP data chunks are excluded. This counter counts the number of #N/A data chunks received from the SCTP peer on the M3 interface per SCTP association This counter counts the number of #N/A data chunks resent to the SCTP peer on the M3 interface per SCTP association. This counter is the cumulative duration of congested periods of a single SCTP association on the M3 interface. The counter starts when the user requests the SCTP ThisSCTP counter counts the number of layer to send data but the SCTP occurences when the SCTP layer indicates fullM3 send queue. association on a the interface The counter stops if the SCTP user state changes from "not congested" requests the SCTP layer to send into "congested" state. This the cumulative data counter and the is SCTP layer accepts duration the data of forunavailable sending. periods of a single SCTP association on the M3 interface. The counter starts when the association TheSCTP counter counts thestate number of changes due to "connection occurences when the SCTP lost" or "Graceful Shutdown". association on the M3 interface state changes from "connected" to "not connected". The number of packets received
#N/A
#N/A
#N/A
#N/A
on the plain IP interface that were delivered to higher-layer protocols.
The number of packets received on the plain IP interface that were delivered to higher-layer protocols.
Fragments shall be counted as individual IP packets.
Fragments shall be counted as individual IP packets.
The total number of kilo-bytes received on the plain IP interface, including framing characters.
The total number of kilo-bytes received on the plain IP interface, including framing characters.
The number of packets that were Fragmentstransmitted shall be counted as successfully over the individual IP packets. plain IP interface
The number of packets that were Fragmentstransmitted shall be counted as successfully over the individual IP packets. plain IP interface
Fragments shall be as The total number of counted kilo-bytes individual IP packets. transmitted over the plain IP the
Fragments shall be as The total number of counted kilo-bytes individual IP packets. transmitted over the plain IP the
interface, including framing characters.
interface, including framing characters.
The number of received IP packets Fragments shall or fragments that are discarded for be counted as individual IP packets. one or more of the following reasons shall be counted in one aggregate counter each IP The number of totalfor outbound transport interface: packets that were dropped in the IP - Time-To-Live exceeded scheduler due to congestion. (TTL=0 or TTL=1 for routed SSE traffic (LTEof only)) Note: In case FZM: LNF5.0 kiloThe number of total outbound IP header checksum failure release, this counter does not bytes- ICMPv4 that werechecksum dropped in thework IP(for failure for the plain (untagged) IP scheduler due to only) congestion. ICMPv4 packets interface, however it works for the plain (priority-tagged) (i.e. VLAN In case of FZM: LNF5.0 release, IPv6 specific discard reasons (apply The number of IP Multicast packets ID=0) interface, as well as for all this counter does not on work for the from LN5.0 / LNT3.0 FSM-r3): or fragments received at the IP VLAN interfaces (VLAN-ID>0. plain (untagged) IP interface, Unspecified as destination network interface. however it works forcounted the plain address Fragments shall be as (priority-tagged) (i.e. VLAN ID=0) Multicast destination address individual packets. The total number interface, as field well as for all VLAN and "scope" =of0kilo-bytes received in IP Multicast packets or interfaces (VLAN-ID>0). - Any IPv6 packet that contains fragments at IP network interface. an unsupported extension header Fragments shallpacket be counted as - Any IPv6 that contains individual packets. a supported header more The number extension of IP Multicast packets than once. transmitted at the IP or fragments - ICMPv6interface. checksum failure (for network ICMPv6 packets only) Fragments shall be counted as -individual Non-ICMPv6 packet contains packets. The total number of kilo-bytes Hop-By-Hop Options extension transmitted in IP Multicast packets header or fragments at the IP network - UDP checksum failure interface. - Overlapping IPv6 Fragments Fragments countedpackets as The numbershall of IPbemulticast individual packets. (unfragmented) or fragments Fragments (before reassembly) shall be counted that have asbeen individualon received IP the packets. IP network interface but discarded due to Thehave total been number of kilo-bytes of IP one or more of the following multicast packets (unfragmented) reasons: or fragments (before reassembly) -that Thehave NE did notreceived join the on the IP been corresponding IP group network interface multicast but have been on the interface on which this discarded due to one or more of the packet has been received. following reasons: -- The destination MAC address The NE did not join the does not match with the destination corresponding IP multicast group MAC address calculated on the interface on whichfrom this the IP multicast address. packet has been received.
The number of received IP packets Fragments shall or fragments that are discarded for be counted as individual IP packets. one or more of the following reasons shall be counted in one aggregate counter each IP The number of totalfor outbound transport interface: packets that were dropped in the IP - Time-To-Live exceeded scheduler due to congestion. (TTL=0 or TTL=1 for routed SSE traffic (LTEof only)) Note: In case FZM: LNF5.0 kiloThe number of total outbound IP header checksum failure release, this counter does not bytes- ICMPv4 that werechecksum dropped in thework IP(for failure for the plain (untagged) IP scheduler due to only) congestion. ICMPv4 packets interface, however it works for the plain (priority-tagged) (i.e. VLAN In case of FZM: LNF5.0 release, IPv6 specific discard reasons (apply #N/A ID=0) interface, as well as for this counter does not on work forall the from LN5.0 / LNT3.0 FSM-r3): VLAN interfaces (VLAN-ID>0. plain-(untagged) interface, UnspecifiedIPas destination however address it works for the plain (priority-tagged) (i.e. VLAN address ID=0) - Multicast destination #N/A interface, as field well as and "scope" = 0for all VLAN interfaces (VLAN-ID>0). - Any IPv6 packet that contains an unsupported extension header - Any IPv6 packet that contains a supported extension header more #N/A than once. - ICMPv6 checksum failure (for ICMPv6 packets only) - Non-ICMPv6 packet contains #N/A Hop-By-Hop Options extension header - UDP checksum failure
- The destination MAC address Note: does not match with the destination -MAC Counted before reassembly. address calculated from the - No IPsec for multicast traffic, so
#N/A Fragments shall be counted as individual IP packets. #N/A
The total number of kilo-bytes transmitted over the plain IP interface, including framing characters, using Expedited Forwarding PHB class. The total number of outbound
The total number of kilo-bytes transmitted over the plain IP interface, including framing characters, using Expedited Forwarding PHB class. The total number of outbound
packets that were successfully transmitted over the plain IP interface within the Expedited Forwarding class. kilo-bytes The numberPHB of outbound
packets that were successfully transmitted over the plain IP interface within the Expedited Forwarding class. kilo-bytes The numberPHB of outbound
within the Expedited Forwarding within the Expedited Forwarding PHB class that were dropped in the PHB class that were dropped in the IP scheduler due to congestion. IP scheduler due to congestion. The number of outbound packets within the Expedited Forwarding PHB class that were dropped in the IP scheduler due to congestion.
The number of outbound packets within the Expedited Forwarding PHB class that were dropped in the IP scheduler due to congestion.
The total number of kilo-bytes transmitted over the plain IP interface, including framing characters, using the Assured Forwarding 4 PHBofclass. The total number outbound
The total number of kilo-bytes transmitted over the plain IP interface, including framing characters, using the Assured Forwarding 4 PHBofclass. The total number outbound
packets that were successfully transmitted over the plain IP interface within the Assured
packets that were successfully transmitted over the plain IP interface within the Assured
The number of outbound kilo-bytes within the Assured Forwarding 4 PHB class that were dropped in the IP scheduler due to congestion.
The number of outbound kilo-bytes within the Assured Forwarding 4 PHB class that were dropped in the IP scheduler due to congestion.
The number of outbound packets within the Assured Forwarding 4 PHB class that were dropped in the IP scheduler due to congestion.
The number of outbound packets within the Assured Forwarding 4 PHB class that were dropped in the IP scheduler due to congestion.
The total number of kilo-bytes transmitted over the plain IP interface out of the interface, including framing characters, using the Forwarding 3 PHB TheAssured total number of outbound class. packets that were successfully
The total number of kilo-bytes transmitted over the plain IP interface out of the interface, including framing characters, using the Forwarding 3 PHB TheAssured total number of outbound class. packets that were successfully
transmitted over the plain IP interface within the Assured Forwarding class. kilo-bytes The number3ofPHB outbound
transmitted over the plain IP interface within the Assured Forwarding class. kilo-bytes The number3ofPHB outbound
within the Assured Forwarding 3 within the Assured Forwarding 3 PHB class that were dropped in the PHB class that were dropped in the IP scheduler due to congestion. IP scheduler due to congestion. The number of outbound packets within the Assured Forwarding 3 PHB class that were dropped in the IP scheduler due to congestion.
The number of outbound packets within the Assured Forwarding 3 PHB class that were dropped in the IP scheduler due to congestion.
The total number of kilo-bytes transmitted over the plain IP interface out of the interface, including framing characters, using the Forwarding 2 PHB TheAssured total number of outbound class. packets that were successfully
The total number of kilo-bytes transmitted over the plain IP interface out of the interface, including framing characters, using the Forwarding 2 PHB TheAssured total number of outbound class. packets that were successfully
transmitted over the plain IP interface within the Assured Forwarding class. kilo-bytes The number2ofPHB outbound
transmitted over the plain IP interface within the Assured Forwarding class. kilo-bytes The number2ofPHB outbound
within the Assured Forwarding 2 within the Assured Forwarding 2 PHB class that were dropped in the PHB class that were dropped in the IP scheduler due to congestion. IP scheduler due to congestion. The number of outbound packets within the Assured Forwarding 2 PHB class that were dropped in the IP scheduler due to congestion.
The number of outbound packets within the Assured Forwarding 2 PHB class that were dropped in the IP scheduler due to congestion.
The total number of kilo-bytes transmitted over the plain IP interface, including framing characters, using the Assured Forwarding 1 PHBofclass. The total number outbound
The total number of kilo-bytes transmitted over the plain IP interface, including framing characters, using the Assured Forwarding 1 PHBofclass. The total number outbound
packets that were successfully transmitted over the plain IP interface within the Assured Forwarding class. kilo-bytes The number1ofPHB outbound
packets that were successfully transmitted over the plain IP interface within the Assured Forwarding class. kilo-bytes The number1ofPHB outbound
within the Assured Forwarding 1 within the Assured Forwarding 1 PHB class that were dropped in the PHB class that were dropped in the IP scheduler due to congestion. IP scheduler due to congestion. The number of outbound packets within the Assured Forwarding 1 PHB class that were dropped in the IP scheduler due to congestion.
The number of outbound packets within the Assured Forwarding 1 PHB class that were dropped in the IP scheduler due to congestion.
The total number of kilo-bytes transmitted over the plain IP interface, including framing characters, using the Best Effort PHB class. The total number of outbound
The total number of kilo-bytes transmitted over the plain IP interface, including framing characters, using the Best Effort PHB class. The total number of outbound
packets that were successfully transmitted over the plain IP interface within the Best Effort PHB class. The number of outbound kilo-bytes
packets that were successfully transmitted over the plain IP interface within the Best Effort PHB class. The number of outbound kilo-bytes
within the Best Effort PHB class that were dropped in the IP scheduler due to congestion.
within the Best Effort PHB class that were dropped in the IP scheduler due to congestion.
The number of outbound packets within the Best Effort PHB class that were dropped in the IP scheduler due to congestion. The counter is available for both the Ethernet-based IP interface and for each VLAN
The number of outbound packets within the Best Effort PHB class that were dropped in the IP scheduler due to congestion. The counter is available for both the Ethernet-based IP interface and for each VLAN
The total number of kilo-bytes received over the plain IP interface, including framing characters, using Expedited Forwarding PHB class. The for both the The counter number is of available inbound packets Ethernet-based IP interface and for that were successfully received each VLAN within the Expedited Forwarding
The total number of kilo-bytes received over the plain IP interface, including framing characters, using Expedited Forwarding PHB class. The for both the The counter number is of available inbound packets Ethernet-based IP interface and for that were successfully received each VLAN within the Expedited Forwarding
PHB class. The is available for both the The counter total number of kilo-bytes Ethernet-based IP interface received out of the interface,and for each VLAN including framing characters, using
PHB class. The is available for both the The counter total number of kilo-bytes Ethernet-based IP interface received out of the interface,and for each VLAN including framing characters, using
the Assured Forwarding 4 PHB class. The number of inbound packets The counter is available for both the that were successfully received Ethernet-based IP interface and4 for within the Assured Forwarding each VLAN PHB class.
the Assured Forwarding 4 PHB class. The number of inbound packets The counter is available for both the that were successfully received Ethernet-based IP interface and4 for within the Assured Forwarding each VLAN PHB class.
The is available for both the The counter total number of kilo-bytes Ethernet-based IP interface received out of the interface,and for each VLAN including framing characters, using
The is available for both the The counter total number of kilo-bytes Ethernet-based IP interface received out of the interface,and for each VLAN including framing characters, using
the Assured Forwarding 3 PHB class. The number of inbound packets The counter is available for both the that were successfully received Ethernet-based IP interface and3 for within the Assured Forwarding each VLAN PHB class.
the Assured Forwarding 3 PHB class. The number of inbound packets The counter is available for both the that were successfully received Ethernet-based IP interface and3 for within the Assured Forwarding each VLAN PHB class.
The is available for both the The counter total number of kilo-bytes Ethernet-based IP interface received out of the interface,and for each VLAN including framing characters, using
The is available for both the The counter total number of kilo-bytes Ethernet-based IP interface received out of the interface,and for each VLAN including framing characters, using
the Assured Forwarding 2 PHB class. The number of inbound packets
the Assured Forwarding 2 PHB class. The number of inbound packets
that were successfully received within the Assured Forwarding 2 PHB class.
that were successfully received within the Assured Forwarding 2 PHB class.
The total number of kilo-bytes received out of the interface, including framing characters, using the Assured Forwarding 1 PHB class. The number of inbound packets
The total number of kilo-bytes received out of the interface, including framing characters, using the Assured Forwarding 1 PHB class. The number of inbound packets
that were successfully received within the Assured Forwarding 1 PHB class.
that were successfully received within the Assured Forwarding 1 PHB class.
The total number of kilo-bytes received out of the interface, including framing characters, using the Best Effort PHB class.
The total number of kilo-bytes received out of the interface, including framing characters, using the Best Effort PHB class.
The number of inbound packets that were successfully received within the Best Effort PHB class.
The number of inbound packets that were successfully received within the Best Effort PHB class.
Number of kilo-bytes in valid frames Number of kilo-bytes in valid frames received on the interface. received on the interface. NOTE: _15 is just a string and has no special Number of relevance kilo-bytes in in counter valid frames name. transmitted on the interface.
NOTE: _15 is just a string and has no special Number of relevance kilo-bytes in in counter valid frames name. transmitted on the interface.
NOTE: _15 is just a string and has no special in counter Number of relevance Ethernet frames name. received on the interface (errored
NOTE: _15 is just a string and has no special in counter Number of relevance Ethernet frames name. received on the interface (errored
and non-errored).
and non-errored).
NOTE: is just a string and has Number_15 of transmitted Ethernet no special relevance in counter frames on the interface. name.
NOTE: is just a string and has Number_15 of transmitted Ethernet no special relevance in counter frames on the interface. name.
NOTE: _15 is just a string and has no special in counter Number of relevance received errored name. Ethernet frames - FCS errors,
NOTE: _15 is just a string and has no special in counter Number of relevance received errored name. Ethernet frames - FCS errors,
undersized packets, oversized frames, jabber frames, frames with errors indicated by the PHY. The number of ingress Ethernet
undersized packets, oversized frames, jabber frames, frames with errors indicated by the PHY. The number of ingress Ethernet
frames discarded due to rate NOTE: limiting._15 is just a string and has no special relevance in counter name. Number of Ethernet discarded recieved packets not matching the VLAN membership configuration for that switch-port.
frames discarded due to rate NOTE: limiting._15 is just a string and has no special relevance in counter name. Number of Ethernet discarded recieved packets not matching the VLAN membership configuration for that switch-port.
Number of Ethernet TX frames discarded due to egress shaping per queue per interface.
Number of Ethernet TX frames discarded due to egress shaping per queue per interface.
Number of Ethernet TX frames discarded due to egress shaping per queue per interface.
Number of Ethernet TX frames discarded due to egress shaping per queue per interface.
Number of Ethernet TX frames discarded due to egress shaping per queue per interface.
Number of Ethernet TX frames discarded due to egress shaping per queue per interface.
Number of Ethernet TX frames discarded due to egress shaping per queue per interface.
Number of Ethernet TX frames discarded due to egress shaping per queue per interface.
Number of Ethernet TX frames discarded due to egress shaping per queue per interface.
Number of Ethernet TX frames discarded due to egress shaping per queue per interface.
Number of Ethernet TX frames discarded due to egress shaping per queue per interface.
Number of Ethernet TX frames discarded due to egress shaping per queue per interface.
The number of ingress Ethernet 64byte blocks discarded due to rate limiting. There is a chance of counter overflow at higher load conditions. The number of successfully sent
The number of ingress Ethernet 64byte blocks discarded due to rate limiting. There is a chance of counter overflow at higher load conditions. The number of successfully sent
ESP packets which are are related to a protect policy.
ESP packets which are are related to a protect policy.
The number of received ESP packets addressed to a local tunnel endpoint which where received with a SPI which is related to a known policyof shall be counted. The number all outgoing packets
The number of received ESP packets addressed to a local tunnel endpoint which where received with a SPI which is related to a known policyof shall counted. The number all be outgoing packets
matching a discard policy are counted. Note 1: Discarded packet matching the will notpackets be Thedefault numberpolicy of dropped not counted with addressed to an local tunnel this counter. endpoint or packets which do not Note have 2: anThe ESPdefault or AH policy headerisshall be DISCARD until IPSec policiesa are counted which matching The number of are bypassed ESP configured. discard in ingress direction. packets policy in egress direction. NOTE: Discarded packet matching the default policy shall not be counted with this counter. The of received Notenumber 2: The default policypackets is not addressed an local tunnel DISCARD untilto IPSec policies are endpoint or packets which do not configured. have an ESP or AH header shall be counted which matching a The number of are dropped packets bypass policy. due to ingress rate limiting.
matching a discard policy shall be counted. NOTE: Discarded packet matching the default policy shall not be this counter Thecounted numberwith of dropped packets not
Packets are counted per BTS, e.g. not per interface. The number of packets discarded
Packets are counted per BTS, e.g. not per interface. The number of packets discarded
due to ingress packet filtering violations. Packets are counted per BTS, e.g. not interface. Theper number of packets received
due to ingress packet filtering violations. Packets are counted per BTS, e.g. not interface. Theper number of packets received
on the plain IP interface that were delivered to higher-layer protocols.
on the plain IP interface that were delivered to higher-layer protocols.
The total number of kilo-bytes Fragments shall be received on the plain IP interface, counted as individual IP packets. including framing characters.
The total number of kilo-bytes Fragments shall be received on the plain IP interface, counted as individual IP packets. including framing characters.
Fragments shall be counted as individual IP packets.
Fragments shall be counted as individual IP packets.
addressed to an local tunnel endpoint or packets which do not have an ESP or AH header shall be counted which matching a The number of are bypassed ESP discard policy in ingress direction. packets in egress direction. NOTE: Discarded packet matching the default policy shall not be counted with this counter The number of received packets not addressed to an local tunnel endpoint or packets which do not have an ESP or AH header shall be counted which matching a The number of are dropped packets bypass policy. due to ingress rate limiting.
The number of packets that were successfully transmitted over the VLAN IP interface.
The number of packets that were successfully transmitted over the VLAN IP interface.
shall be counted as The Fragments total number of kilo-bytes individual IP packets. transmitted over the VLAN IP the interface, including framing characters.
shall be counted as The Fragments total number of kilo-bytes individual IP packets. transmitted over the VLAN IP the interface, including framing characters.
The number of received IP packets shallfor be or fragments thatFragments are discarded counted as individual IP packets. one or more of the following reasons shall be counted in one aggregate counter each IP The number of totalfor outbound transport interface: packets that were dropped in the IP - Time-To-Live exceeded scheduler due to congestion. (TTL=0 or TTL=1 for routed SSE traffic (LTE only)) The number of total outbound kilo- IP header checksum failure bytes- ICMPv4 that werechecksum dropped in the failureIP(for scheduler due to only) congestion. ICMPv4 packets
The number of received IP packets shallfor be or fragments thatFragments are discarded counted as individual IP packets. one or more of the following reasons shall be counted in one aggregate counter each IP The number of totalfor outbound transport interface: packets that were dropped in the IP - Time-To-Live exceeded scheduler due to congestion. (TTL=0 or TTL=1 for routed SSE traffic (LTE only)) The number of total outbound kilo- IP header checksum failure bytes- ICMPv4 that werechecksum dropped in the failureIP(for scheduler due to only) congestion. ICMPv4 packets
IPv6 specific of discard reasons : The number IP Multicast packets Unspecified as destination or fragments received at the IP address network interface. - Multicast Fragments shalldestination be countedaddress as and "scope" field = 0 individual packets. The total number of kilo-bytes - Multicast IPv6 address as received in IP Multicast packets or source address fragments at IP network interface. - Received IPv6 packet which Fragments shall be counted destination IP address is not as individual packets. configured inof the The number IPBTS Multicast packets Any IPv6 packet that or fragments transmitted at contains the IP an unsupported extension header network interface. - Any IPv6 that contains Fragments shallpacket be counted as a supported extension header individual packets. The of kilo-bytes morenumber than once. transmitted at IP network - ICMPv6 the checksum failure interface. Fragments-shall be counted as Non-ICMPv6 packet individual packets. contains The number Hop-By-Hop of IP multicast Options packets
IPv6 #N/A specific discard reasons : - Unspecified as destination address - Multicast destination address and "scope" field = 0 #N/A- Multicast IPv6 address as source address - Received IPv6 packet which destination IP address is not configured in the BTS #N/A - Any IPv6 packet that contains an unsupported extension header - Any IPv6 packet that contains a supported extension header #N/A more than once. - ICMPv6 checksum failure
- Non-ICMPv6 packet contains Hop-By-Hop Options #N/A extension header (unfragmented) or fragments extension header (before - UDP reassembly) checksum that failure have been - UDP checksum failure received - Overlapping on the IP network IPv6 Fragments interface but discarded due to shall be counted as Thehave total been number of kilo-bytes of IP Fragments #N/A Fragments one or more shall of the be following counted as individual IP packets. multicast packets (unfragmented) individual reasons: IP packets. or fragments (before reassembly) -that Thehave NE did notreceived join the on the IP been corresponding IP multicast group network interface but havekilo-bytes been The number of outbound The number of outbound kilo-bytes on the interface on which this discarded due to one ortransmitted more of the that were successfully transmitted that were successfully packet has been received. following reasons: over the VLAN interface within the over the VLAN interface within the -- The destination MAC address The NE did not join the Expedited Forwarding PHB class. Expedited Forwarding PHB class. does not match with the destination corresponding IP multicast group MAC address calculated from the on the interface on which this IP multicast address. packet has been received. - The destination MAC address Note: does not match with the destination -MAC Counted before reassembly. address calculated from the -IPNo IPsec for multicast multicast address. traffic, so decryption does not need to be taken Note: into account. - Counted before reassembly. - No IPsec for multicast traffic, so
The number of outbound packets that were successfully transmitted over the VLAN interface within the Expedited Forwarding PHB class.
The number of outbound packets that were successfully transmitted over the VLAN interface within the Expedited Forwarding PHB class.
The number of outbound kilo-bytes within the Expedited Forwarding PHB class that were dropped in the IP scheduler due to congestion.
The number of outbound kilo-bytes within the Expedited Forwarding PHB class that were dropped in the IP scheduler due to congestion.
The number of outbound packets within the Expedited Forwarding PHB class that were dropped in the IP scheduler due to congestion.
The number of outbound packets within the Expedited Forwarding PHB class that were dropped in the IP scheduler due to congestion.
The number of outbound kilo-bytes that were successfully transmitted over the VLAN interface within the Assured Forwarding 4 PHB class.
The number of outbound kilo-bytes that were successfully transmitted over the VLAN interface within the Assured Forwarding 4 PHB class.
The number of outbound packets that were successfully transmitted over the VLAN interface within the Assured Forwarding 4 PHB class.
The number of outbound packets that were successfully transmitted over the VLAN interface within the Assured Forwarding 4 PHB class.
The number of outbound kilo-bytes within the Assured Forwarding 4 PHB class that were dropped in the IP scheduler due to congestion.
The number of outbound kilo-bytes within the Assured Forwarding 4 PHB class that were dropped in the IP scheduler due to congestion.
The number of outbound packets within the Assured Forwarding 4 PHB class that were dropped in the IP scheduler due to congestion.
The number of outbound packets within the Assured Forwarding 4 PHB class that were dropped in the IP scheduler due to congestion.
The number of outbound kilo-bytes within the Assured Forwarding 3 PHB class that were successfully transmitted over the VLAN interface within the Assured Forwarding 3 The number of outbound packets PHB class. within the Assured Forwarding 3
The number of outbound kilo-bytes within the Assured Forwarding 3 PHB class that were successfully transmitted over the VLAN interface within the Assured Forwarding 3 The number of outbound packets PHB class. within the Assured Forwarding 3
PHB class that were successfully transmitted over the VLAN interface within the Assured Forwarding 3 The number of outbound kilo-bytes PHB class. within the Assured Forwarding 3
PHB class that were successfully transmitted over the VLAN interface within the Assured Forwarding 3 The number of outbound kilo-bytes PHB class. within the Assured Forwarding 3
PHB class that were dropped in the PHB class that were dropped in the IP scheduler due to congestion. IP scheduler due to congestion. The number of outbound packets within the Assured Forwarding 3 PHB class that were dropped in the IP scheduler due to congestion.
The number of outbound packets within the Assured Forwarding 3 PHB class that were dropped in the IP scheduler due to congestion.
The number of outbound kilo-bytes within the Assured Forwarding 2 PHB class that were successfully transmitted over the VLAN interface within the Assured Forwarding 2 PHB class.
The number of outbound kilo-bytes within the Assured Forwarding 2 PHB class that were successfully transmitted over the VLAN interface within the Assured Forwarding 2 PHB class.
The number of outbound packets within the Assured Forwarding 2 PHB class that were successfully transmitted over the VLAN interface within the Assured Forwarding 2 The number of outbound kilo-bytes PHB class. within the Assured Forwarding 2
The number of outbound packets within the Assured Forwarding 2 PHB class that were successfully transmitted over the VLAN interface within the Assured Forwarding 2 The number of outbound kilo-bytes PHB class. within the Assured Forwarding 2
PHB class that were dropped in the PHB class that were dropped in the IP scheduler due to congestion. IP scheduler due to congestion. The number of outbound packets within the Assured Forwarding 2 PHB class that were dropped in the IP scheduler due to congestion.
The number of outbound packets within the Assured Forwarding 2 PHB class that were dropped in the IP scheduler due to congestion.
The number of outbound kilo-bytes within the Assured Forwarding 1 PHB class that were successfully transmitted over the VLAN interface within the Assured Forwarding 1 The number of outbound packets PHB class. within the Assured Forwarding 1
The number of outbound kilo-bytes within the Assured Forwarding 1 PHB class that were successfully transmitted over the VLAN interface within the Assured Forwarding 1 The number of outbound packets PHB class. within the Assured Forwarding 1
PHB class that were successfully transmitted over the VLAN interface within the Assured Forwarding 1 The number of outbound kilo-bytes PHB class. within the Assured Forwarding 1
PHB class that were successfully transmitted over the VLAN interface within the Assured Forwarding 1 The number of outbound kilo-bytes PHB class. within the Assured Forwarding 1
PHB class that were dropped in the PHB class that were dropped in the IP scheduler due to congestion. IP scheduler due to congestion. The number of outbound packets within the Assured Forwarding 1 PHB class that were dropped in the IP scheduler due to congestion.
The number of outbound packets within the Assured Forwarding 1 PHB class that were dropped in the IP scheduler due to congestion.
The number of outbound kilo-bytes within the Best Effort PHB class that were successfully transmitted over the VLAN interface within the Best Effort PHB class. packets The number of outbound
The number of outbound kilo-bytes within the Best Effort PHB class that were successfully transmitted over the VLAN interface within the Best Effort PHB class. packets The number of outbound
within the Best Effort PHB class that were transmitted over the VLAN interface within the Best Effort PHB class. The number of outbound kilo-bytes
within the Best Effort PHB class that were transmitted over the VLAN interface within the Best Effort PHB class. The number of outbound kilo-bytes
within the Best Effort PHB class that were dropped in the IP scheduler due to congestion.
within the Best Effort PHB class that were dropped in the IP scheduler due to congestion.
The number of outbound packets within the Best Effort PHB class that were dropped in the IP scheduler due to congestion.
The number of outbound packets within the Best Effort PHB class that were dropped in the IP scheduler due to congestion.
The total number of kilo-bytes received on the VLAN interface for the Expedited Forwarding PHB class. The counter includes framing characters.
The total number of kilo-bytes received on the VLAN interface for the Expedited Forwarding PHB class. The counter includes framing characters.
The total number of packets received on the VLAN interface for the Expedited Forwarding PHB class. The counter includes framing characters. The total number of kilo-bytes
The total number of packets received on the VLAN interface for the Expedited Forwarding PHB class. The counter includes framing characters. The total number of kilo-bytes
received on the VLAN interface for the Assured Forwarding 4 PHB class. The counter includes framing characters. The total number of packets
received on the VLAN interface for the Assured Forwarding 4 PHB class. The counter includes framing characters. The total number of packets
received on the VLAN interface for the Assured Forwarding 4 PHB class. The counter includes framing characters. The total number of kilo-bytes
received on the VLAN interface for the Assured Forwarding 4 PHB class. The counter includes framing characters. The total number of kilo-bytes
received on the VLAN interface for the Assured Forwarding 3 PHB class. The counter includes framing characters. The total number of packets
received on the VLAN interface for the Assured Forwarding 3 PHB class. The counter includes framing characters. The total number of packets
received on the VLAN interface for the Assured Forwarding 3 PHB class. The counter includes framing characters. The total number of kilo-bytes
received on the VLAN interface for the Assured Forwarding 3 PHB class. The counter includes framing characters. The total number of kilo-bytes
received on the VLAN interface for the Assured Forwarding 2 PHB class. The counter includes framing characters. The total number of packets
received on the VLAN interface for the Assured Forwarding 2 PHB class. The counter includes framing characters. The total number of packets
received on the VLAN interface for the Assured Forwarding 2 PHB class. The counter includes framing characters. The total number of kilo-bytes
received on the VLAN interface for the Assured Forwarding 2 PHB class. The counter includes framing characters. The total number of kilo-bytes
received on the VLAN interface for the Assured Forwarding 1 PHB class. The counter includes framing characters. The total number of packets
received on the VLAN interface for the Assured Forwarding 1 PHB class. The counter includes framing characters. The total number of packets
received on the VLAN interface for the Assured Forwarding 1 PHB class. The counter includes framing characters. The total number of kilo-bytes
received on the VLAN interface for the Assured Forwarding 1 PHB class. The counter includes framing characters. The total number of kilo-bytes
received on the VLAN interface for the Best Effort PHB class. The counter includes framing characters. The total number of packets
received on the VLAN interface for the Best Effort PHB class. The counter includes framing characters. The total number of packets
received on the VLAN interface for the Best Effort PHB class. The counter includes framing characters. The number of ethernet
received on the VLAN interface for the Best Effort PHB class. The counter includes framing characters. The number of ethernet
framesreceived on the interface.
framesreceived on the interface.
The number of ethernet bytes received on the interface. Note: In FlexiZone Micro the system reports the number of bytes The number of ethernet frames of received frames at a VLAN transmitted on the interface. interface with an offset of -14 bytes (i.e .14 bytes missing per frame) as the basic Ethernet header The number ofhas ethernet Bytes decapsulation happened. transmitted on the interface
The number of ethernet bytes received on the interface.
The number of ethernet frames transmitted on the interface.
The number of ethernet Bytes transmitted on the interface
The number of ethernet frames received on the interface. This includes those that may be subsequently discarded due to errors. Number of kilo-bytes in valid frames
The number of ethernet frames received on the interface. This includes those that may be subsequently discarded due to errors. Number of kilo-bytes in valid frames
received on the Ethernet interface layer. Per interface.
received on the Ethernet interface layer. Per interface.
The number of ethernet frames transmitted on the interface.
The number of ethernet frames transmitted on the interface.
The number of ethernet bytes transmitted on the interface.
The number of ethernet bytes transmitted on the interface.
Number of received Ethernet packets with no associated VLAN interface.
Number of received Ethernet packets with no associated VLAN interface.
Total Number of valid Ethernet NOTE 1: _15 is just a string and Multicast Frames conveying IP has no special relevance in counter Payload which are addressed to name. one of the multicast MAC addresses configured for IP Total 2: Number of transmitted Note This of counter is(irrespective not applications the NE Ethernet Multicast Frames that supported in RL50FZ for FZM. of thegenerated configuredby link layer were network element interface) IP applications. Note: Link OAM, Service OAM, Number of transport IEEE1588v2, SyncE, only RSTP Note 1: For eMBMS, control frames/packets discarded due toIP multicast frames do not convey information is transmitted as egress shaping (Buffer overflow). payload thus are not included multicastand frames. here. Note 2: Ethernet Multicast Frames This isare theswitched calculated average which from one Round time (RTT) foranother TWAMP externaltrip Ethernet port to messages that the BTScounter. has sent to are not included in this its remote peer during the last 15 minutes for this TWAMP session.
#N/A NOTE 1: _15 is just a string and has no special relevance in counter name. #N/A 2: This counter is not Note supported in RL50FZ for FZM.
Number of transport frames/packets discarded due to egress shaping (Buffer overflow). This is the calculated average Round trip time (RTT) for TWAMP messages that the BTS has sent to its remote peer during the last 15 minutes for this TWAMP session.
This is the maximum detected Round trip time (RTT) for TWAMP messages that the BTS has sent to its remote peer during the last 15 minutes. This is the minimum detected
This is the maximum detected Round trip time (RTT) for TWAMP messages that the BTS has sent to its remote peer during the last 15 minutes. This is the minimum detected
Round trip time (RTT) for TWAMP messages that the BTS has sent to its remote peer during the last 15 minutes. This is the number of
Round trip time (RTT) for TWAMP messages that the BTS has sent to its remote peer during the last 15 minutes. This is the number of
measurements packets lost when no reply packet is received within timeout period or a reply-packet with (higher) sequence This different is the number of transmitted number is received. TWAMP messages for the TWAMP
measurements packets lost when no reply packet is received within timeout period or a reply-packet with (higher) sequence This different is the number of transmitted number is received. TWAMP messages for the TWAMP
session.
session.
The number of normal GBR connection requests which had been accepted by Tranport Admission Control.
The number of normal GBR connection requests which had been accepted by Tranport Admission Control.
The number of Handover connection requests which had been accepted by Tranport Admission Control.
The number of Handover connection requests which had been accepted by Tranport Admission Control.
The number of Emergency connection requests which had been accepted by Tranport Admission Control.
The number of Emergency connection requests which had been accepted by Tranport Admission Control.
The number of normal GBR connection requests which had been rejected by Tranport Admission Control due to insufficient resources. the numbertransport of Handover connection
The number of normal GBR connection requests which had been rejected by Tranport Admission Control due to insufficient resources. the numbertransport of Handover connection
requests which had been rejected by Tranport Admission Control due to insufficient transport resources.
requests which had been rejected by Tranport Admission Control due to insufficient transport resources.
The number of Emergency connection requests which had been rejected by Tranport Admission Control due to insufficient resources. The mean transport value of UL total GBR
The number of Emergency connection requests which had been rejected by Tranport Admission Control due to insufficient resources. The mean transport value of UL total GBR
rate.
rate.
The maximum value of UL total GBR rate.
The maximum value of UL total GBR rate.
The mean value of DL total GBR rate
The mean value of DL total GBR rate
The maximum value of DL total GBR rate.
The maximum value of DL total GBR rate.
The number of received ToP frequency synchronisation event messages. Event messages are time stamped and used for clock recovery. The minimum value of the timing
The number of received ToP frequency synchronisation event messages. Event messages are time stamped and used for clock recovery. The minimum value of the timing
over packet service estimated freq sync error in ppb during the interval. The unit applicable to FTLB/FTIB HW's is ppb and forofFSMF/FTIF The average value the timing HW is ppb/1000. over packet service freq sync error
over packet service estimated freq sync error in ppb during the interval. The unit applicable to FTLB/FTIB HW's is ppb and forofFSMF/FTIF The average value the timing HW is ppb/1000. over packet service freq sync error
in ppb during the interval. The unit applicable to FTLB/FTIB HW ppb andvalue for FSMF/FTIF HW The is maximum of the timing is ppb/1000. over packet service freq sync error
in ppb during the interval. The unit applicable to FTLB/FTIB HW ppb andvalue for FSMF/FTIF HW The is maximum of the timing is ppb/1000. over packet service freq sync error
in ppb during the interval. The unit applicable to FTLB/FTIB HW ppb and for FSMF/FTIF The is number of seconds during HW this is ppb/1000. interval while the timing over packet
in ppb during the interval. The unit applicable to FTLB/FTIB HW ppb and for FSMF/FTIF The is number of seconds during HW this is ppb/1000. interval while the timing over packet
frequency synchronisation service was in locked state.
frequency synchronisation service was in locked state.
The number of received ToP sync event messages. Event messages are time stamped and used for clock recovery.
The number of received ToP sync event messages. Event messages are time stamped and used for clock recovery.
The minimum value of the estimated phase error, between the current phase of the network element and the estimated phase based on the value ToP traffic used The average of theflow estimated for recovering the timing in phase error, between the current nanoseconds during the interval. phase of the network element and The minimum estimated phase the estimated phase based on the error valueflow has used a sign and can be ToP traffic recovering The maximum value for of the positive or negative. the timing in nanoseconds duringthe estimated phase error, between the interval. The average estimated current phase of the network phase error has a sign and element andvalue the estimated phase can be positive or negative. based on theofToP traffic flow used The number seconds during this for recovering the timing in interval while the timing over packet nanoseconds during theservice interval. phase synchronisation was The maximum estimated phase in locked state. error value has a sign and can be positive or negative.
The minimum value of the estimated phase error, between the current phase of the network element and the estimated phase based on the value ToP traffic used The average of theflow estimated for recovering the timing in phase error, between the current nanoseconds during the interval. phase of the network element and The minimum estimated phase the estimated phase based on the error valueflow has used a sign and can be ToP traffic recovering The maximum value for of the positive or negative. the timing in nanoseconds duringthe estimated phase error, between the interval. The average estimated current phase of the network phase error has a sign and element andvalue the estimated phase can be positive or negative. based on theofToP traffic flow used The number seconds during this for recovering the timing in interval while the timing over packet nanoseconds during theservice interval. phase synchronisation was The maximum estimated phase in locked state. error value has a sign and can be positive or negative.
Number of kilo bytes transmitted in Number of kilo bytes transmitted in uplink traffic from the WiFi access uplink traffic from the WiFi access point. point. Number of kilo bytes received in downlink traffic from the WiFi access point.
Number of kilo bytes received in downlink traffic from the WiFi access point.
Updated
Updated in issue 08
This counter is updated when eNB transmits an S1AP:S1 Setup Request message to MME.
This counter is updated when eNB transmits an S1AP:S1 Setup Request message to MME.
This counter is updated when eNB receives an This counter is updated when eNB S1AP:S1 Setup Response message sent by MME. receives an S1AP:S1 Setup Response message sent by MME. This counter is updated when the timer expires.
This counter is updated when the timer expires.
This counter is updated when eNB receives an S1AP:S1 Setup Failure message sent by MME.
This counter is updated when eNB receives an S1AP:S1 Setup Failure message sent by MME.
This counter is updated when eNB receives an S1AP:Paging message sent by MME.
This counter is updated when eNB receives an S1AP:Paging message sent by MME.
Transmission of a global S1AP: RESET Message
Transmission of a global S1AP: RESET Message
Reception of a global S1AP:RESET Message sent Reception of a global S1AP:RESET by MME to the eNB. Message sent by MME to the eNB.
Transmission of a partial S1AP: RESET Message
Transmission of a partial S1AP: RESET Message
Reception of a partial S1AP:RESET Message sent Reception of a partial S1AP:RESET by MME to the eNB. Message sent by MME to the eNB.
Reception of an S1AP:UE CONTEXT MODIFICATION REQUEST message sent by MME to the eNB in case this message contains the UEAMBR value.
Reception of an S1AP:UE CONTEXT MODIFICATION REQUEST message sent by MME to the eNB in case this message contains the UE-AMBR value.
The counter is incremented when an S1AP:WRITE-REPLACE WARNING RESPONSE message is sent to the MME and the Broadcast Completed Area List IE is not included. The counter is incremented when an S1AP:KILL RESPONSE message is sent to the MME and the Broadcast Cancelled Area List IE is not included.
The counter is incremented when an S1AP:WRITE-REPLACE WARNING RESPONSE message is sent to the MME and the Broadcast Completed Area List IE The counter is incremented when is not included. an S1AP:KILL RESPONSE message is sent to the MME and the Broadcast Cancelled Area List IE is counter not included. This is updated at the
This counter is updated at the transmission of an S1AP: UPLINK NAS TRANSPORT message to the transmission of an S1AP: UPLINK MME. NAS TRANSPORT message to the MME. This counter is updated following the reception of an S1AP: DOWNLINK NAS TRANSPORT message sent by the MME to the eNB.
This counter is updated following the reception of an S1AP: DOWNLINK NAS TRANSPORT message sent by the MME to the Reception of the S1AP: E-RAB SETUP REQUEST eNB. Reception of the S1AP: E-RAB message (eNB <- MME) in case that this message SETUP REQUEST message (eNB contains the ARP (Allocation and Retention <- MME) in case that this message Priority) priority level which is used for emergency contains the ARP (Allocation and sessions (3GPP TS 36.413) Retention Priority) Transmission of the S1AP: E-RAB SETUP Transmission of thepriority S1AP:level E-RAB which is used for emergency RESPONSE message (eNB -> MME) in case that SETUP RESPONSE message sessions (3GPPinTS 36.413) this message contains the E-RAB ID of the IMS (eNB -> MME) case that this emergency session in the E-RAB Setup List AND was sent in response to theE-RAB reception of the S1AP: Transmission of the S1AP: SETUP E-RAB SETUP REQUEST message (eNB <- MME) RESPONSE message (eNB -> MME) in case that containing the ARP (Allocation and Retention this message contains the E-RAB ID of the IMS Priority) priority levelinwhich is usedFailed for emergency emergency session the E-RAB to Setup sessions (3GPP TS 36.413). List (because of missing RB (Radio Bearer) Reception of an S1AP:LOCATION REPORTING resources) was sent to the CONTROL AND message sent in byresponse MME to the eNB. reception of the S1AP: E-RAB SETUP REQUEST message (eNB <- MME) containing the ARP (Allocation and Retention Priority) priority level Transmission S1AP:LOCATION which is used of foran emergency sessions REPORT (3GPP TS message to the MME. 36.413).
message contains the E-RAB ID of the IMS emergency in the Transmission of the session S1AP: E-RAB E-RAB Setup List AND was sent SETUP RESPONSE message in response to the in reception the (eNB -> MME) case thatofthis S1AP: E-RAB SETUP REQUEST message contains the E-RAB ID of message (eNB <- MME) containing the IMS emergency session in the Reception of an S1AP:LOCATION the ARP (Allocation and Retention E-RAB Failed to Setup List REPORTING CONTROL message Priority) priority level RB which is used (because of missing (Radio sent by MME tosessions the eNB.(3GPP for emergency TSin Bearer) resources) AND was sent 36.413). response to the reception of the Transmission an S1AP: E-RABof SETUP REQUEST S1AP:LOCATION REPORT message (eNB <- MME) containing message to the MME. the ARP (Allocation and Retention Priority) priority level which is used for emergency sessions (3GPP TS Reception of S1AP:MME CONFIGURATION Reception of S1AP:MME 36.413). TRANSFER including 'SON Information Reply' with CONFIGURATION TRANSFER 'X2 TNL Configuration Info' including 'SON Information Reply' - (3GPP TS 36.413) with 'X2 TNL Configuration Info' -Transmission (3GPP TS 36.413) Transmission of S1AP:ENB CONFIGURATION of S1AP:ENB TRANSFER including 'SON Information Request' CONFIGURATION TRANSFER for 'X2 TNL Configuration Info'. including 'SON Information - (3GPP TS 36.413) Request' for 'X2 TNL Configuration Info'. The counter is updated when an S1AP:WRITEThe counter is updated when an -S1AP:WRITE-REPLACE (3GPP TS 36.413) REPLACE WARNING REQUEST message is received from MME.
WARNING REQUEST message is received from MME.
The counter is updated when an S1AP:WRITEREPLACE WARNING RESPONSE message is sent to MME.
The counter is updated when an S1AP:WRITE-REPLACE WARNING RESPONSE message is sent to MME.
The counter is updated when an S1AP:KILL REQUEST message is received from MME.
The counter is updated when an S1AP:KILL REQUEST message is received from MME.
The counter is updated when an S1AP:KILL RESPONSE message is sent to MME.
The counter is updated when an S1AP:KILL RESPONSE message is sent to MME.
This counter is updated upon the reception of an S1AP:DOWNLINK UE ASSOCIATED LPPA TRANSPORT message containing an LPPA-PDU IE of type E-CID MEASUREMENT INITIATION REQUEST. This counter is updated upon the transmission of
This counter is updated upon the reception of an S1AP:DOWNLINK UE ASSOCIATED LPPA TRANSPORT message containing an LPPA-PDU of typeupon E-CID This counter is IE updated the MEASUREMENT INITIATION transmission of an S1AP:UPLINK REQUEST. UE ASSOCIATED LPPA
an S1AP:UPLINK UE ASSOCIATED LPPA TRANSPORT message containing an LPPA-PDU IE of type E-CID MEASUREMENT INITIATION RESPONSE. This counter is updated upon the transmission of an S1AP:UPLINK UE ASSOCIATED LPPA TRANSPORT message containing an LPPA-PDU IE of type E-CID MEASUREMENT INITIATION FAILURE withisits Cause upon IE setthe to transmission 'Requested Item This counter updated of not Supported'. an S1AP:UPLINK UE ASSOCIATED LPPA TRANSPORT message containing an LPPA-PDU IE of type E-CID MEASUREMENT INITIATION FAILURE its Cause of IEaset 'Requested At the firstwith transmission TBtocontaining a Item Temporarily not Available'. segment of the SDU.
TRANSPORT message containing an LPPA-PDU of typeupon E-CID This counter is IE updated the MEASUREMENT INITIATION transmission of an S1AP:UPLINK RESPONSE. UE ASSOCIATED LPPA TRANSPORT message containing an LPPA-PDU of typeupon E-CID This counter is IE updated the MEASUREMENT INITIATION transmission of an S1AP:UPLINK FAILURE with its Cause UE ASSOCIATED LPPA IE set to 'Requested Item not Supported'. TRANSPORT message containing
At the first transmission of a TB containing a segment of the SDU.
an LPPA-PDU IE of typeofE-CID At the first transmission a TB MEASUREMENT INITIATION containing a segment of the SDU. FAILURE with its Cause IE set to 'Requested Item Temporarily not Available'. At the first transmission of a TB containing a segment of the SDU.
At the first transmission of a TB containing a segment of the SDU.
At the first transmission of a TB containing a segment of the SDU.
The counter is updated if the current minimum is greater than the last detected delay value at the transmission of the SDU via S1 interface.
The counter is updated if the current minimum is greater than the last detected delay value at the transmission of the SDU via S1 interface. The counter is updated if the
The counter is updated if the current maximum is less than the last detected delay value at the transmission of the SDU via S1 interface.
current maximum is less than the last detected delay value at the transmission of the SDU via S1 interface.
The counter is updated based on currently The counter is updated based on calculated mean delay value at the transmission of currently calculated mean delay the SDU via S1 interface. value at the transmission of the SDU via S1 interface. The reception of an RA preamble group A sent by the UE to the eNB.
The reception of an RA preamble group A sent by the UE to the eNB.
The reception of an RA preamble group B sent by the UE to the eNB.
The reception of an RA preamble group B sent by the UE to the eNB.
The transmission of a RA preamble response sent The transmission of a RA preamble by the eNB to the UE. response sent by the eNB to the UE. The transmission of a TB on PCH.
The transmission of a TB on PCH.
The transmission of a TB on BCH.
The transmission of a TB on BCH.
The transmission of a TB for the first time on DLSCH.
The transmission of a TB for the first time on DL-SCH.
HARQ retransmission of a TB on DL-SCH.
HARQ retransmission of a TB on DL-SCH.
A correctly received TB by original transmission
A correctly received TB by original transmission
A correctly received TB with retransmission.
A correctly received TB with retransmission.
An erroneous TB reception
An erroneous TB reception
When MCS0 is used for transmission.
When MCS0 is used for transmission.
When MCS1 is used for transmission.
When MCS1 is used for transmission.
When MCS2 is used for transmission.
When MCS2 is used for transmission.
When MCS3 is used for transmission.
When MCS3 is used for transmission.
When MCS4 is used for transmission.
When MCS4 is used for transmission.
When MCS5 is used for transmission.
When MCS5 is used for transmission.
When MCS6 is used for transmission.
When MCS6 is used for transmission.
When MCS7 is used for transmission.
When MCS7 is used for transmission.
When MCS8 is used for transmission.
When MCS8 is used for transmission.
When MCS9 is used for transmission.
When MCS9 is used for transmission.
When MCS10 is used for transmission.
When MCS10 is used for transmission.
When MCS11 is used for transmission.
When MCS11 is used for transmission.
When MCS12 is used for transmission.
When MCS12 is used for transmission.
When MCS13 is used for transmission.
When MCS13 is used for transmission.
When MCS14 is used for transmission.
When MCS14 is used for transmission.
When MCS15 is used for transmission.
When MCS15 is used for transmission.
When MCS16 is used for transmission.
When MCS16 is used for transmission.
When MCS17 is used for transmission.
When MCS17 is used for transmission.
When MCS18 is used for transmission.
When MCS18 is used for transmission.
When MCS19 is used for transmission.
When MCS19 is used for transmission.
When MCS20 is used for transmission.
When MCS20 is used for transmission.
When MCS21 is used for transmission.
When MCS21 is used for transmission.
When MCS22 is used for transmission.
When MCS22 is used for transmission.
When MCS23 is used for transmission.
When MCS23 is used for transmission.
When MCS24 is used for transmission.
When MCS24 is used for transmission.
When MCS25 is used for transmission.
When MCS25 is used for transmission.
When MCS26 is used for transmission.
When MCS26 is used for transmission.
When MCS27 is used for transmission.
When MCS27 is used for transmission.
When MCS28 is used for transmission.
When MCS28 is used for transmission.
When MCS0 is used for transmission. SIB, Paging When MCS0 is used for and RA response excluded. transmission. SIB, Paging and RA response excluded. When MCS1 is used for transmission. SIB, Paging When MCS1 is used for and RA response excluded. transmission. SIB, Paging and RA response excluded. When MCS2 is used for transmission. SIB, Paging When MCS2 is used for and RA response excluded. transmission. SIB, Paging and RA response excluded. When MCS3 is used for transmission. SIB, Paging When MCS3 is used for and RA response excluded. transmission. SIB, Paging and RA response excluded. When MCS4 is used for transmission. SIB, Paging When MCS4 is used for and RA response excluded. transmission. SIB, Paging and RA response excluded. When MCS5 is used for transmission. SIB, Paging When MCS5 is used for and RA response excluded. transmission. SIB, Paging and RA response excluded. When MCS6 is used for transmission. SIB, Paging When MCS6 is used for and RA response excluded. transmission. SIB, Paging and RA response excluded. When MCS7 is used for transmission. SIB, Paging When MCS7 is used for and RA response excluded. transmission. SIB, Paging and RA response excluded.
When MCS8 is used for transmission. SIB, Paging When MCS8 is used for and RA response excluded. transmission. SIB, Paging and RA response excluded. When MCS9 is used for transmission. SIB, Paging When MCS9 is used for and RA response excluded. transmission. SIB, Paging and RA response excluded. When MCS10 is used for transmission. SIB, Paging and RA response excluded.
When MCS10 is used for transmission. SIB, Paging and RA response excluded.
When MCS11 is used for transmission. SIB, Paging and RA response excluded.
When MCS11 is used for transmission. SIB, Paging and RA response excluded.
When MCS12 is used for transmission. SIB, Paging and RA response excluded.
When MCS12 is used for transmission. SIB, Paging and RA response excluded.
When MCS13 is used for transmission. SIB, Paging and RA response excluded.
When MCS13 is used for transmission. SIB, Paging and RA response excluded.
When MCS14 is used for transmission. SIB, Paging and RA response excluded.
When MCS14 is used for transmission. SIB, Paging and RA response excluded.
When MCS15 is used for transmission. SIB, Paging and RA response excluded.
When MCS15 is used for transmission. SIB, Paging and RA response excluded.
When MCS16 is used for transmission. SIB, Paging and RA response excluded.
When MCS16 is used for transmission. SIB, Paging and RA response excluded.
When MCS17 is used for transmission. SIB, Paging and RA response excluded.
When MCS17 is used for transmission. SIB, Paging and RA response excluded.
When MCS18 is used for transmission. SIB, Paging and RA response excluded.
When MCS18 is used for transmission. SIB, Paging and RA response excluded.
When MCS19 is used for transmission. SIB, Paging and RA response excluded.
When MCS19 is used for transmission. SIB, Paging and RA response excluded.
When MCS20 is used for transmission. SIB, Paging and RA response excluded.
When MCS20 is used for transmission. SIB, Paging and RA response excluded.
When MCS21 is used for transmission. SIB, Paging and RA response excluded.
When MCS21 is used for transmission. SIB, Paging and RA response excluded.
When MCS22 is used for transmission. SIB, Paging and RA response excluded.
When MCS22 is used for transmission. SIB, Paging and RA response excluded.
When MCS23 is used for transmission. SIB, Paging and RA response excluded.
When MCS23 is used for transmission. SIB, Paging and RA response excluded.
When MCS24 is used for transmission. SIB, Paging and RA response excluded.
When MCS24 is used for transmission. SIB, Paging and RA response excluded.
When MCS25 is used for transmission. SIB, Paging and RA response excluded.
When MCS25 is used for transmission. SIB, Paging and RA response excluded.
When MCS26 is used for transmission. SIB, Paging and RA response excluded.
When MCS26 is used for transmission. SIB, Paging and RA response excluded.
When MCS27 is used for transmission. SIB, Paging and RA response excluded.
When MCS27 is used for transmission. SIB, Paging and RA response excluded.
When MCS28 is used for transmission. SIB, Paging and RA response excluded.
When MCS28 is used for transmission. SIB, Paging and RA response excluded.
When MCS0 is used for transmission.
When MCS0 is used for transmission.
When MCS1 is used for transmission.
When MCS1 is used for transmission.
When MCS2 is used for transmission.
When MCS2 is used for transmission.
When MCS3 is used for transmission.
When MCS3 is used for transmission.
When MCS4 is used for transmission.
When MCS4 is used for transmission.
When MCS5 is used for transmission.
When MCS5 is used for transmission.
When MCS6 is used for transmission.
When MCS6 is used for transmission.
When MCS7 is used for transmission.
When MCS7 is used for transmission.
When MCS8 is used for transmission.
When MCS8 is used for transmission.
When MCS9 is used for transmission.
When MCS9 is used for transmission.
When MCS10 is used for transmission.
When MCS10 is used for transmission.
When MCS11 is used for transmission.
When MCS11 is used for transmission.
When MCS12 is used for transmission.
When MCS12 is used for transmission.
When MCS13 is used for transmission.
When MCS13 is used for transmission.
When MCS14 is used for transmission.
When MCS14 is used for transmission.
When MCS15 is used for transmission.
When MCS15 is used for transmission.
When MCS16 is used for transmission.
When MCS16 is used for transmission.
When MCS17 is used for transmission.
When MCS17 is used for transmission.
When MCS18 is used for transmission.
When MCS18 is used for transmission.
When MCS19 is used for transmission.
When MCS19 is used for transmission.
When MCS20 is used for transmission.
When MCS20 is used for transmission.
When MCS21 is used for transmission.
When MCS21 is used for transmission.
When MCS22 is used for transmission.
When MCS22 is used for transmission.
When MCS23 is used for transmission.
When MCS23 is used for transmission.
When MCS24 is used for transmission.
When MCS24 is used for transmission.
When MCS25 is used for transmission.
When MCS25 is used for transmission.
When MCS26 is used for transmission.
When MCS26 is used for transmission.
When MCS27 is used for transmission.
When MCS27 is used for transmission.
When MCS28 is used for transmission.
When MCS28 is used for transmission.
When MCS0 is used for transmission.
When MCS0 is used for transmission.
When MCS1 is used for transmission.
When MCS1 is used for transmission.
When MCS2 is used for transmission.
When MCS2 is used for transmission.
When MCS3 is used for transmission.
When MCS3 is used for transmission.
When MCS4 is used for transmission.
When MCS4 is used for transmission.
When MCS5 is used for transmission.
When MCS5 is used for transmission.
When MCS6 is used for transmission.
When MCS6 is used for transmission.
When MCS7 is used for transmission.
When MCS7 is used for transmission.
When MCS8 is used for transmission.
When MCS8 is used for transmission.
When MCS9 is used for transmission.
When MCS9 is used for transmission.
When MCS10 is used for transmission.
When MCS10 is used for transmission.
When MCS11 is used for transmission.
When MCS11 is used for transmission.
When MCS12 is used for transmission.
When MCS12 is used for transmission.
When MCS13 is used for transmission.
When MCS13 is used for transmission.
When MCS14 is used for transmission.
When MCS14 is used for transmission.
When MCS15 is used for transmission.
When MCS15 is used for transmission.
When MCS16 is used for transmission.
When MCS16 is used for transmission.
When MCS17 is used for transmission.
When MCS17 is used for transmission.
When MCS18 is used for transmission.
When MCS18 is used for transmission.
When MCS19 is used for transmission.
When MCS19 is used for transmission.
When MCS20 is used for transmission.
When MCS20 is used for transmission.
When MCS21 is used for transmission.
When MCS21 is used for transmission.
When MCS22 is used for transmission.
When MCS22 is used for transmission.
When MCS23 is used for transmission.
When MCS23 is used for transmission.
When MCS24 is used for transmission.
When MCS24 is used for transmission.
When MCS25 is used for transmission.
When MCS25 is used for transmission.
When MCS26 is used for transmission.
When MCS26 is used for transmission.
When MCS27 is used for transmission.
When MCS27 is used for transmission.
When MCS28 is used for transmission.
When MCS28 is used for transmission.
The counter is updated when RLC SDU on DL DTCH is sent
The counter is updated when RLC SDU on DL DTCH is sent
The counter is updated when RLC SDU on DL DCCH is sent
The counter is updated when RLC SDU on DL DCCH is sent
The counter is updated when RLC SDU on UL DTCH is received
The counter is updated when RLC SDU on UL DTCH is received
The counter is updated when RLC SDU on UL DCCH is received
The counter is updated when RLC SDU on UL DCCH is received
The counter is updated when RLC AM/UM data PDU is transmitted for the first time on the RLC level
The counter is updated when RLC AM/UM data PDU is transmitted for the first time on the RLC level
The counter is updated when a RLC AM data PDU The counter is updated when a is retransmitted on the RLC level. RLC AM data PDU is retransmitted on the RLC level. The counter is updated when a non-duplicate RLC The counter is updated when a AM/UM data PDU is received non-duplicate RLC AM/UM data PDU is received The counter is updated when RLC Control PDU related to DCCH or DTCH is transmitted first time on RLC level.
The counter is updated when RLC Control PDU related to DCCH or DTCH is transmitted first time on RLC level.
The counter is updated when RLC Data PDU related to DTCH is transmitted first time on the RLC level.
The counter is updated when RLC Data PDU related to DTCH is transmitted first time on the RLC level.
The counter is updated when an UL RLC PDU is received.
The counter is updated when an UL RLC PDU is received.
The counter is updated when a duplicate UL RLC PDU is received. Valid for duplicate AMD PDU, AMD PDU segment and UMD PDU.
The counter is updated when a duplicate UL RLC PDU is received. Valid for duplicate AMD PDU, AMD PDU segment and UMD PDU.
This counter is updated when a retransmission is requested on the RLC level for a UL RLC PDU.
This counter is updated when a retransmission is requested on the RLC level for a UL RLC PDU.
This counter is updated when a UL RLC PDU has been discarded. Duplicate RLC PDU's received and RLC PDU's received outside of the reception window trigger updates to this counter.
This counter is updated when a UL RLC PDU has been discarded. Duplicate RLC PDU's received and RLC PDU's received outside of the reception window triggerwhen updates to This counter is updated RLC this counter. SDU is received from the PDCP
This counter is updated when RLC SDU is received from the PDCP layer.
layer. The arithmetical average number of UE contexts per TTI with buffered DL RLC data is updated to this counter. DL RLC buffer status is sampled for each active TTI, where data is in the DL RLC buffer for least onenumber UE. Theatmaximum of UE contexts with UP data
The arithmetical average number of UE contexts per TTI with buffered DL RLC data is updated to this counter. DL RLC buffer status is sampled for each activeofTTI, The maximum number UE where data is in the DL RLC buffer at contexts with UP data on DLfor RLC least one UE. buffer is updated to this counter.
on DL RLC buffer is updated to this counter. DL RLC buffer status is sampled for each active TTI, where data is in the DL RLC buffer for at least one DL RLC buffer status is sampled for UE. each active TTI, where datawhen is in The aggregation is started when Control Plane The aggregation is started the DL RLC buffer for at least enters Overload level 1 and it is stopped when Control Plane enters Overloadone level UE. Overload level 1 is left. 1 and it is stopped when Overload level 1 is left.
This counter is updated based on the buffer status reports. The value is the arithmetical average of samples taken from the number of UE contexts with UL buffered data. The UL buffer status is sampled for each active based TTI, where data is status This counter is updated on the buffer scheduled for at least one UE. reports. The maximum number of UE contexts with
This counter is updated based on the buffer status reports. The value is the arithmetical average of samples taken from the number of UE UL buffered Thiscontexts counter with is updated baseddata. on The UL buffer status is sampled for the buffer status reports. The each active TTI, where data is UL buffered data is updated to this counter. UL maximum number of UE contexts for at least one UE. to buffer status is sampled for each active TTI, where scheduled with UL buffered data is updated data is scheduledisfor at least oneControl UE. Plane this UL buffer status is The aggregation started when The counter. aggregation is started when sampled for each active TTI, where enters Overload level 2 and it is stopped when Control Plane enters Overload level data at least one Overload level 2 is left. 2 andisitscheduled is stoppedfor when Overload UE. level 2 is left. This counter is updated on the reception of an PDCP SDU from UE.
This counter is updated on the reception of an PDCP SDU from UE.
This counter is updated for successful PDCP SDU transmissions during the measurement period. RLC UM: Transmission of an PDCP SDU towards the UE. RLC AM: When MAC layer informs PDCP of a successful SDU delivery This counter is updated whentoa UE. PDCP SDU is
This counter is updated for successful PDCP SDU transmissions during the measurement period. RLC UM: Transmission an PDCP SDU This counter isofupdated when a towards the UE. RLC AM: When PDCP SDU is removed from the MAC layer informs a eNB without havingPDCP startedofthe successful SDU delivery to UE. transmission.
removed from the eNB without having started the transmission. This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated by the number of UEs using UL intra-eNB CoMP in each TTI when PUSCH is scheduled.
This counter is updated by the number of UEs using UL intra-eNB CoMP in each TTI when PUSCH is scheduled.
This counter is updated after each sampling interval with the arithmetical average of samples each representing the number of UEs in RRC_CONNECTED state at that moment.
This counter is updated after each sampling interval with the arithmetical average of samples each representing the number of UEs RRC_CONNECTED This in counter is updated afterstate eachat that moment. sampling interval with the peak
This counter is updated after each sampling interval with the peak number of UEs in RRC_CONNECTED state during the measurement number of UEs in period. RRC_CONNECTED state during the period.when the This counter is updated when the maximum Thismeasurement counter is updated number of HARQ retransmissions has been exceeded for the TB.
maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
The counter is updated when the size of the RLC The counter is updated when the buffer changes, except when there is no data in the size of the RLC buffer changes, buffer. except when there is no data in the buffer.
The counter is updated when the size of the RLC The counter is updated when the buffer changes, except when there is no data in the size of the RLC buffer changes, buffer. except when there is no data in the buffer. The counter is updated when the size of the RLC The counter is updated when the buffer changes, except when there is no data in the size of the RLC buffer changes, buffer. except when there is no data in the buffer. The counter is updated when the size of the RLC The counter is updated when the buffer changes, except when there is no data in the size of the RLC buffer changes, buffer. except when there is no data in the buffer. The counter is updated when the size of the RLC The counter is updated when the buffer changes, except when there is no data in the size of the RLC buffer changes, buffer. except when there is no data in the buffer. The counter is updated when the size of the RLC The counter is updated when the buffer changes, except when there is no data in the size of the RLC buffer changes, buffer. except when there is no data in the buffer. The counter is updated after the end of the sampling period by the average number of PRBs available for dynamic scheduling of user plane traffic (DCCH and DTCH). The counter is updated after the end of the sampling period by the average number of PRBs available for dynamic scheduling of user plane traffic (DCCH and DTCH). This counter is updated on the transmission of an RLC data block on BCCH towards the UE.
The counter is updated after the end of the sampling period by the average number of PRBs available for dynamic scheduling of user plane traffic (DCCH andafter DTCH). The counter is updated the end of the sampling period by the average number of PRBs available for dynamic scheduling of user plane traffic (DCCH and on DTCH). This counter is updated the transmission of an RLC data block on BCCH towards the UE.
This counter is updated on the transmission of an RLC SDU on CCCH towards the UE.
This counter is updated on the transmission of an RLC SDU on CCCH towards the UE.
This counter is updated on the transmission of an RLC SDU on PCCH towards the UE.
This counter is updated on the transmission of an RLC SDU on PCCH towards the UE.
This counter is updated on the reception of an RLC This counter is updated on the SDU on CCCH from UE. reception of an RLC SDU on CCCH from UE. The arithmetical average of samples taken from the number of active UEs.
The arithmetical average of samples taken from the number of active UEs.
The maximum value of the samples of active UEs during a measurement period.
The maximum value of the samples of active UEs during a measurement period.
The arithmetical average number of UE contexts per TTI with buffered DL RLC data for QCI1 bearer is updated to this counter. DL RLC buffer status is sampled for each active TTI, where data is in the DL buffer foraverage at leastnumber one UE.of UE contexts TheRLC arithmetical
The arithmetical average number of UE contexts per TTI with buffered DL RLC data for QCI1 bearer is updated to this counter. DL RLC buffer status is sampled each of The arithmetical averagefor number active TTI, where data is in the DL per TTI with buffered DL RLC data for QCI2 bearer UE contexts per TTI with buffered RLC buffer for at least one UE. is updated to this counter. DL RLC buffer status is DL RLC data for QCI2 bearer is sampled for each active TTI, where data is in the updated to this counter. DL RLC DL RLC buffer for at least one UE. buffer status is sampled each of The arithmetical average number of UE contexts The arithmetical averagefor number active TTI, where data is in the DL per TTI with buffered DL RLC data for QCI3 bearer UE contexts per TTI with buffered RLC buffer for at least one UE. is updated to this counter. DL RLC buffer status is DL RLC data for QCI3 bearer is sampled for each active TTI, where data is in the DL buffer foraverage at leastnumber one UE.of UE contexts TheRLC arithmetical
updated to this counter. DL RLC buffer status is sampled each of The arithmetical averagefor number active TTI, where data is in the DL per TTI with buffered DL RLC data for QCI4 bearer UE contexts per TTI with buffered RLC buffer for at least one UE. is updated to this counter. DL RLC buffer status is DL RLC data for QCI4 bearer is sampled for each active TTI, where data is in the updated to this counter. DL RLC DL RLC buffer for at least one UE. buffer status is is updated sampledwhen for each The counter is updated when the primary ETWS The counter the active TTI, where data is DL notification is sent via SIB10. primary ETWS notificationinisthe sent RLC buffer for at least one UE. via SIB10. The counter is updated when the secondary ETWS notification is sent via SIB11. In case of segmented warning message contents the counter is updated when the last segment is sent. The counter is updated when the CMAS notification is sent via SIB12. In case of segmented warning message contents the counter is updated when the last segment is sent. The eNB-internal average calculation of the number of active UEs with UE Category 8 (3GPP TS 36.306, 36.331); the average is calculated as the arithmetical average over the measurement period. The arithmetical average number of UE contexts per TTI with buffered DL RLC data for non-GBR bearer is updated to this counter. DL RLC buffer status is sampled for each active TTI, where data is in the DL RLC buffer for at least UE. This counter is updated after each one sampling interval with the sample taken from the number of Active UEs with buffered data in DL.
The counter is updated when the secondary ETWS notification is sent via SIB11. In case of segmented warning message contents the counter is The counter is updated when the updated when the last segment is CMAS notification is sent via sent. SIB12. In case of segmented warning message contents the counter is #N/A updated when the last segment is sent. The arithmetical average number of UE contexts per TTI with buffered DL RLC data for non-GBR bearer is updated to this counter. DL RLC buffer status is for each This counter is sampled updated after each active TTI, where data is the DL sampling interval with theinsample RLC for at least one UE. takenbuffer from the number of Active UEs with buffered data in DL.
This counter is updated by value 1 when the number of Active UEs is summed to counter SUM_ACTIVE_UE_DATA_DL.
This counter is updated by value 1 when the number of Active UEs is summed to counter SUM_ACTIVE_UE_DATA_DL.
This counter is updated after each sampling interval with the sample taken from the number of Active UEs with buffered data in UL.
This counter is updated after each sampling interval with the sample taken from the number of Active UEs with buffered data in UL.
This counter is updated by value 1 when the number of Active UEs is summed to counter SUM_ACTIVE_UE_DATA_UL.
This counter is updated by value 1 when the number of Active UEs is summed to counter SUM_ACTIVE_UE_DATA_UL.
The time starts at the reception of the PDCP SDU in the eNB. The time ends at the first transmission of a TB containing a segment of the SDU. Discarded SDUsatwill excluded the SDU The time starts thebe reception of from the PDCP measurement. in the eNB.
The time starts at the reception of the PDCP SDU in the eNB. The time ends at the first transmission of a TB containing a segment the at SDU. The time of starts the reception of Discarded SDUs excluded the PDCP SDU inwill thebe eNB. from the measurement. The time ends at the first
The time ends at the first transmission of a TB containing a segment of the SDU. Discarded SDUsatwill excluded the SDU The time starts thebe reception of from the PDCP measurement. in the eNB. The time ends at the first transmission of a TB containing a segment of the SDU. Discarded SDUsatwill excluded the SDU The time starts thebe reception of from the PDCP measurement. in the eNB. The time ends at the first transmission of a TB containing a segment of the SDU. Discarded SDUsatwill excluded the SDU The time starts thebe reception of from the PDCP measurement. in the eNB. The time ends at the first transmission of a TB containing a segment of the SDU. Discarded SDUs be excluded from the sent by The reception of awill dedicated RA preamble measurement. the UE to the eNB. (cf. 3GPP TS 36.300)
transmission of a TB containing a segment the at SDU. The time of starts the reception of Discarded SDUs excluded the PDCP SDU inwill thebe eNB. from the measurement. The time ends at the first transmission of a TB containing a segment the at SDU. The time of starts the reception of Discarded SDUs excluded the PDCP SDU inwill thebe eNB. from the measurement. The time ends at the first transmission of a TB containing a segment the at SDU. The time of starts the reception of Discarded SDUs excluded the PDCP SDU inwill thebe eNB. from the measurement. The time ends at the first transmission of a TB containing a segment of theofSDU. The reception a dedicated RA Discarded SDUs preamble sent bywill thebe UEexcluded to the from the measurement. eNB. (cf. 3GPP TS 36.300)
The counter is incremented by each UL grant for which the eNB expects a UE to use for the transmission of the DRB data. The actually received UL data is not considered for the Thiscounter. counter is incremented by 1 in each TTI when Note: Theis eNB hasintouplink. make certain assumptions the eNB "on air" depending on the cause for the allocated UL grants due to: - LCG level UL BSR delivery (no bearer level This counter is updated in each TTI with the accuracy); number that had (no datainformation scheduled in - nature of active the SRUEs mechanism DL. about data type in buffer); and - other uncertainties This counter is incremented by 1 in each TTI when These assumptions listed below in detail. The the eNB is "on air" inare downlink. counter is incremented if the UL grant for the SR is assigned, and if the eNB assumes that DRB data will be sent. This is also true if the UE does not actually send any data using the assigned grant. The counter is not incremented in case of: - The UL grant for the UE reporting only LCG0 data transmission in UE buffers. This also applies in case QCI5 DRB is mapped to LCG0; - The UL grant to a UE without the reception of a positive SR; or the reception of a BSR indication data in buffer (proactive UL scheduling); - The UL grant for RA msg3/1st scheduled UL
This counter is updated in each TTI with the number of active UEs that had data scheduled in UL. This counter is incremented by 1 in each TTI when the eNB is "on air" in uplink. This counter is updated in each TTI with the number of active UEs that had data scheduled in DL. This counter is incremented by 1 in each TTI when the eNB is "on air" in downlink.
The accumulation is started when the user plane enters Overload level 1 and it is stopped when Overload level 1 is left.
The accumulation is started when the user plane enters Overload level 1 and it is stopped when Overload level 1 is left.
The accumulation is started when the user plane enters Overload level 2 and it is stopped when Overload level 2 is left.
The accumulation is started when the user plane enters Overload level 2 and it is stopped when Overload level 2 is left.
This counter is updated when a PDCP SDU for a QCI 1 bearer is delivered to higher layers.
This counter is updated when a PDCP SDU for a QCI 1 bearer is delivered to higher layers.
This counter is updated when a PDCP SDU for a QCI 2 bearer is delivered to higher layers.
This counter is updated when a PDCP SDU for a QCI 2 bearer is delivered to higher layers.
This counter is updated when a PDCP SDU for a QCI 3 bearer is delivered to higher layers.
This counter is updated when a PDCP SDU for a QCI 3 bearer is delivered to higher layers.
This counter is updated when a PDCP SDU for a QCI 4 bearer is delivered to higher layers.
This counter is updated when a PDCP SDU for a QCI 4 bearer is delivered to higher layers.
The time starts at the reception of the PDCP SDU in the eNB. The time ends at the first transmission of a TB containing a segment of the SDU. Discarded SDUsatwill excluded the SDU The time starts thebe reception of from the PDCP measurement. in the eNB.
The time starts at the reception of the PDCP SDU in the eNB. The time ends at the first transmission of a TB containing a segment the at SDU. The time of starts the reception of Discarded SDUs excluded the PDCP SDU inwill thebe eNB. from the measurement. The time ends at the first
The time ends at the first transmission of a TB containing a segment of the SDU. Discarded SDUsatwill excluded the SDU The time starts thebe reception of from the PDCP measurement. in the eNB. The time ends at the first transmission of a TB containing a segment of the SDU. Discarded SDUsatwill excluded the SDU The time starts thebe reception of from the PDCP measurement. in the eNB. The time ends at the first transmission of a TB containing a segment of the SDU. Discarded SDUsatwill excluded the SDU The time starts thebe reception of from the PDCP measurement. in the eNB. The time ends at the first transmission of a TB containing a segment of the SDU. Discarded SDUs will be excluded The number of transmitted PDCP from SDUsthe in measurement. downlink for QCI 1
transmission of a TB containing a segment the at SDU. The time of starts the reception of Discarded SDUs excluded the PDCP SDU inwill thebe eNB. from the measurement. The time ends at the first transmission of a TB containing a segment the at SDU. The time of starts the reception of Discarded SDUs excluded the PDCP SDU inwill thebe eNB. from the measurement. The time ends at the first transmission of a TB containing a segment the at SDU. The time of starts the reception of Discarded SDUs excluded the PDCP SDU inwill thebe eNB. from the measurement. The time ends at the first transmission of a TB containing a segment of the SDU. The number of transmitted PDCP Discarded SDUs excluded SDUs in downlinkwill for be QCI 1 from the measurement.
This counter is updated when a PDCP SDU of a QCI2 bearer is sent to the UE.
This counter is updated when a PDCP SDU of a QCI2 bearer is sent to the UE.
This counter is updated when a PDCP SDU of a QCI3 bearer is sent to the UE.
This counter is updated when a PDCP SDU of a QCI3 bearer is sent to the UE.
This counter is updated when a PDCP SDU of a QCI4 bearer is sent to the UE.
This counter is updated when a PDCP SDU of a QCI4 bearer is sent to the UE.
This counter is updated after each sampling interval with the sample taken from the number of UEs in RRC_CONNECTED state.
This counter is updated after each sampling interval with the sample taken from the number of UEs in RRC_CONNECTED state.
This counter is updated by value 1 when the number of RRC Connected UEs is summed to counter SUM_RRC_CONN_UE.
This counter is updated by value 1 when the number of RRC Connected UEs is summed to counter SUM_RRC_CONN_UE.
This counter is updated after each sampling interval with the sample taken from the number of Active UEs.
This counter is updated after each sampling interval with the sample taken from the number of Active UEs.
This counter is updated by value 1 when the number of Active UEs is summed to counter SUM_ACTIVE_UE.
This counter is updated by value 1 when the number of Active UEs is summed to counter SUM_ACTIVE_UE.
The accumulation is started when the broadcast of the automatic Access Class Barring information due to overload is started in SIB2 and/or in SIB8, and it is stopped when the broadcast of the automatic Access Class when Barring information This counter is updated a PDCP SDU due of a to overload is stopped. QCI1 bearer is removed from the eNB without
The accumulation is started when the broadcast of the automatic Access Class Barring information due to overload is started in SIB2 and/or in SIB8, and it is stopped This counter is updated when a when the broadcast of bearer the PDCP SDU of a QCI1 is automatic Access Barring removed from the Class eNB without information duethe to transmission. overload is having started stopped. This counter is updated when a PDCP SDU of a QCI2 bearer is removed from the eNB without having started the transmission.
having started the transmission. This counter is updated when a PDCP SDU of a QCI2 bearer is removed from the eNB without having started the transmission. This counter is updated when a PDCP SDU of a QCI3 bearer is removed from the eNB without having started the transmission.
This counter is updated when a PDCP SDU of a QCI3 bearer is removed from the eNB without having started the transmission.
This counter is updated when a PDCP SDU of a QCI4 bearer is removed from the eNB without having started the transmission.
This counter is updated when a PDCP SDU of a QCI4 bearer is removed from the eNB without having started the transmission.
The value is the arithmetical average of samples taken from the number of UE contexts with buffered data in UL for logical channel group, which has VOIP (QCI1) bearer that is mapped. The samples taken from eachaverage active TTI, where The valueare is the arithmetical of samples there is UL data scheduled for at least one taken from the number of UE contexts with UE.
The value is the arithmetical average of samples taken from the number of UE contexts with buffered data in UL for logical channel group, has VOIP The value is thewhich arithmetical (QCI1) bearer that is mapped. average of samples taken fromThe the are fromwith each active buffered data in UL for logical channel groups with samples number of UEtaken contexts TTI, where there is UL non-GBR (QCI5...9) bearer that is mapped. The buffered data in UL for data logical scheduled for at least one UE. samples are taken from each active TTI, where channel groups with non-GBR Transmission of a PDCCH order (eNB -> UE; Transmission of a PDCCH order there UL36.321, data scheduled forto atinitiate least one UE. (QCI5...9) bearer that mapped. 3GPPisTS TS 36.212) a UE (eNB -> UE; 3GPP TSis36.321, TS The samples are taken from each Random Access. This counter is not only updated 36.212) to initiate a UE Random TTI, where there data when the first (initial) PDCCH order is transmitted active Access. This counter is is notUL only scheduled for at least one UE. to a UE, but this counter also updated with -> updated whenofthe (initial) Transmission of an initial isPDCCH order (eNB Transmission anfirst initial PDCCH PDCCH order transmission repetitions. PDCCH order is transmitted UE; 3GPP TS 36.321, TS 36.212) to initiate a UE order (eNB -> UE; 3GPP TS to a UE, but TS this36.212) counter to is initiate also updated Random Access; that is this counter is updated 36.321, a UE with PDCCH order transmission when the first (initial) PDCCH order is transmitted Random Access; that is this counter repetitions. to a UE; this is counter is not updated with PDCCH updated the firstwhen (initial) The counter updated when the Random Access is The counterwhen is updated the transmission repetitions. PDCCH order is transmitted to a -> Response (eNB -> UE; 3GPP TS 36.300) was sent Random Access Response (eNB UE; counter is not updated to a UE after transmission of the related PDCCH UE; this 3GPP TS 36.300) was sentwith to PDCCH transmission repetitions. order (eNB -> UE; 3GPP TS 36.321, TS 36.212) a UE after transmission of the which initiatedtrigger the Random Access of a UE. related PDCCH order (eNB -> UE; eNB-internal eNB-internal trigger 3GPP TS 36.321, TS 36.212) which initiated the Random Access of a UE. eNB-internal trigger
eNB-internal trigger
eNB-internal trigger
eNB-internal trigger
eNB-internal trigger
eNB-internal trigger
eNB-internal average calculation of the number of UEs in Uplink-In-Sync; the average is calculated as the arithmetical average over the measurement period.
eNB-internal average calculation of the number of UEs in Uplink-InSync; the average is calculated as the arithmetical average over the measurement period. calculation of eNB-internal average
eNB-internal average calculation of the number of RRC connected UEs which have set the "deviceType" in the "UE-EUTRA-Capability" to "noBenFromBatConsumpOpt" (3GPP TS 36.331, TS averagewhen is calculated as the This36.306); counterthe is updated the measured arithmetical average over the measurement period. Uplink-Out-Of-Sync time T of a UE was in the range 0 seconds < T <= 0.5 seconds.
the number of RRC connected UEs which have set the "deviceType" in the "UE-EUTRA-Capability" to "noBenFromBatConsumpOpt" This counter is updated when the (3GPP TS Uplink-Out-Of-Sync 36.331, TS 36.306);time the measured average is calculated as the T of a UE was in the range arithmetical the 0 seconds
This counter is updated when the measured Uplink-Out-Of-Sync time T of a UE was in the range 0.5 seconds < T <= 2.5 seconds.
This counter is updated when the measured Uplink-Out-Of-Sync time T of a UE was in the range 0.5 seconds < T <= 2.5 seconds.
This counter is updated when the measured Uplink-Out-Of-Sync time T of a UE was in the range 2.5 seconds < T <= 10 seconds.
This counter is updated when the measured Uplink-Out-Of-Sync time T of a UE was in the range 2.5 seconds < T <= 10 seconds.
This counter is updated when the measured Uplink-Out-Of-Sync time T of a UE was in the range 10 seconds < T <= 100 seconds.
This counter is updated when the measured Uplink-Out-Of-Sync time T of a UE was in the range 10 seconds < T <= 100 seconds.
This counter is updated when the measured This counter is updated when the Uplink-Out-Of-Sync time T of a UE was larger than measured Uplink-Out-Of-Sync time 100 seconds. T of a UE was larger than 100 seconds. When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is received for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
When 1st transmission on PUSCH is nacked for used MCS
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
eNB-internal average calculation of the number of #N/A active UEs with UE Category 5 (3GPP TS 36.306, 36.331); the average is calculated as the arithmetical average over the measurement period. The counter is updated by the arithmetical average The arithmetical average of of samples taken from the number of UEs that are samples taken from the number of DL CA-capable for 2 component carriers. DL CA-capable UEs.
The arithmetical average of samples taken from the number of UEs with a configured SCell.
The arithmetical average of samples taken from the number of UEs with a configured SCell.
The arithmetical average of samples taken from the number of UEs with an activated SCell.
The arithmetical average of samples taken from the number of UEs with an activated SCell.
The counter is updated by the arithmetical average The counter is updated by the of samples taken from the number of UEs that are arithmetical average of samples DL CA-capable for 3 component carriers. taken from those UEs that are DL CA-capable for 3 component This counter is updated by the arithmetical average carriers. This counter is updated by the of samples taken from the number of UEs with two arithmetical average of samples configured SCells. taken from the number of UEs with two configured SCells. The arithmetical average of samples taken from the number of UEs with two activated SCells.
The arithmetical average of samples taken from the number of UEs with two activated SCells.
This counter is updated when an X2AP message has been received from any source eNB.
This counter is updated when an X2AP message has been received from any source eNB.
This counter is updated when an X2AP message is This counter is updated when an transmitted towards any target eNB. X2AP message is transmitted towards any target eNB. This counter is updated on the reception of an DL Data Forwarding GTP-U: G-PDU from any source eNB
This counter is updated on the reception of an DL Data Forwarding GTP-U: G-PDU from any source eNB
This counter is updated on the transmission of DL Data Forwarding GTP-U: G-PDU towards any target eNB
This counter is updated on the transmission of DL Data Forwarding GTP-U: G-PDU towards any target eNB
The counter is updated when the UE-related RSSI The counter is updated when the for PUCCH minimum value is detected UE-related RSSI for PUCCH minimum value is detected The counter is updated when the UE-related RSSI The counter is updated when the for PUCCH maximum value is detected UE-related RSSI for PUCCH maximum value is detected The counter is updated with the average value of the UE-related RSSI for PUCCH over the measurement period.
The counter is updated with the average value of the UE-related RSSI for PUCCH over the measurement period.
The counter is updated when the UE-related RSSI The counter is updated when the for PUSCH minimum value is detected UE-related RSSI for PUSCH minimum value is detected The counter is updated when the UE-related RSSI The counter is updated when the for PUSCH maximum value is detected UE-related RSSI for PUSCH maximum value is detected The counter is updated with the average value of UE-related RSSI for PUSCH over the measurement period.
The counter is updated with the average value of UE-related RSSI for PUSCH over the measurement period.
The counter is updated when a UE-related RSSI for PUCCH value <= -120 dBm is detected. This counter is used for UE-related RSSI for the PUCCH histogram.
The counter is updated when a UErelated RSSI for PUCCH value <= -120 dBm is detected. This counter is used for UE-related RSSI for the PUCCH histogram. The counter is updated when a UE-
The counter is updated when a UE-related RSSI for PUCCH value in the range of -120 dBm < RssiPucchUe <= -118 dBm is detected. This counter is used for UE-related RSSI for the PUCCH histogram. The counter is updated when a UE-related RSSI for PUCCH value in the range of -118 dBm < RssiPucchUe <= -116 dBm is detected. This counter is used for UE-related RSSI for the PUCCH histogram. The counter is updated when a UE-related RSSI for PUCCH value in the range of -116 dBm < RssiPucchUe <= -114 dBm is detected. This counter is used for UE-related RSSI for the PUCCH histogram. The counter is updated when a UE-related RSSI for PUCCH value in the range of -114 dBm < RssiPucchUe <= -112 dBm is detected. This counter is used for UE-related RSSI for the PUCCH histogram. The counter is updated when a UE-related RSSI for PUCCH value in the range of -112 dBm < RssiPucchUe <= -110 dBm is detected. This counter is used for UE-related RSSI for the PUCCH histogram. The counter is updated when a UE-related RSSI for PUCCH value in the range of -110 dBm < RssiPucchUe <= -108 dBm is detected. This counter is used for UE-related RSSI for the PUCCH histogram. The counter is updated when a UE-related RSSI for PUCCH value in the range of -108 dBm < RssiPucchUe <= -106 dBm is detected. This counter is used for UE-related RSSI for the PUCCH histogram. The counter is updated when a UE-related RSSI for PUCCH value in the range of -106 dBm < RssiPucchUe <= -104 dBm is detected. This counter is used for UE-related RSSI for the PUCCH histogram.
related RSSI for PUCCH value in the range of -120 dBm < RssiPucchUe <= -118 dBm is detected. This usedafor The counter is counter updatediswhen UEUE-related RSSI for the PUCCH related RSSI for PUCCH value in histogram. the range of -118 dBm < RssiPucchUe <= -116 dBm is detected. This usedafor The counter is counter updatediswhen UEUE-related RSSI for the PUCCH related RSSI for PUCCH value in histogram. the range of -116 dBm < RssiPucchUe <= -114 dBm is detected. This usedafor The counter is counter updatediswhen UEUE-related RSSI for the PUCCH related RSSI for PUCCH value in histogram. the range of -114 dBm < RssiPucchUe <= -112 dBm is detected. This usedafor The counter is counter updatediswhen UEUE-related RSSI for the PUCCH related RSSI for PUCCH value in histogram. the range of -112 dBm < RssiPucchUe <= -110 dBm is detected. This usedafor The counter is counter updatediswhen UEUE-related RSSI for the PUCCH related RSSI for PUCCH value in histogram. the range of -110 dBm < RssiPucchUe <= -108 dBm is detected. This usedafor The counter is counter updatediswhen UEUE-related RSSI for the PUCCH related RSSI for PUCCH value in histogram. the range of -108 dBm < RssiPucchUe <= -106 dBm is detected. This usedafor The counter is counter updatediswhen UEUE-related RSSI for the PUCCH related RSSI for PUCCH value in histogram. the range of -106 dBm < RssiPucchUe <= -104 dBm is detected. This counter is used for UE-related RSSI for the PUCCH histogram.
The counter is updated when a UE-related RSSI for PUCCH value in the range of -104 dBm < RssiPucchUe <= -102 dBm is detected. This counter is used for UE-related RSSI for the PUCCH histogram. The counter is updated when a UE-related RSSI for PUCCH value in the range of -102 dBm < RssiPucchUe <= -100 dBm is detected. This counter is used for UE-related RSSI for the PUCCH histogram. The counter is updated when a UE-related RSSI
The counter is updated when a UErelated RSSI for PUCCH value in the range of -104 dBm < RssiPucchUe <= -102 dBm is detected. This usedafor The counter is counter updatediswhen UEUE-related RSSI for the PUCCH related RSSI for PUCCH value in histogram. the range of -102 dBm <
RssiPucchUe <= -100 dBm is detected. This usedafor The counter is counter updatediswhen UEUE-related RSSI for the PUCCH for PUCCH value in the range of -100 dBm < related RSSI for PUCCH value in RssiPucchUe <= -98 dBm is detected. This counter histogram. the range of -100 dBm < is used for UE-related RSSI for the PUCCH RssiPucchUe <= -98 dBm is histogram. detected. This usedafor The counter is updated when a UE-related RSSI The counter is counter updatediswhen UEUE-related RSSI for the PUCCH for PUCCH value in the range of -98 dBm < related RSSI for PUCCH value in RssiPucchUe <= -96 dBm is detected. This counter histogram. the range of -98 dBm < is used for UE related RSSI for the PUCCH histogram. The counter is updated when a UE-related RSSI
RssiPucchUe <= -96 dBm is detected. This usedafor The counter is counter updatediswhen UEUE related RSSI for the PUCCH for PUCCH value in the range of -96 dBm < related RSSI for PUCCH value in RssiPucchUe <= -94 dBm is detected. This counter histogram. the range of -96 dBm < is used for UE related RSSI for the PUCCH RssiPucchUe <= -94 dBm is histogram. detected. This usedafor The counter is updated when a UE-related RSSI The counter is counter updatediswhen UEUE related RSSI for the PUCCH for PUCCH value in the range of -94 dBm < related RSSI for PUCCH value in RssiPucchUe <= -92 dBm is detected. This counter histogram. the range of -94 dBm < is used for UE related RSSI for the PUCCH histogram. The counter is updated when a UE-related RSSI
RssiPucchUe <= -92 dBm is detected. This usedafor The counter is counter updatediswhen UEUE related RSSI for the PUCCH for PUCCH value in the range of -92 dBm < related RSSI for PUCCH value in RssiPucchUe <= -90 dBm is detected. This counter histogram. the range of -92 dBm < is used for UE related RSSI for the PUCCH RssiPucchUe <= -90 dBm is histogram. detected. This usedafor The counter is updated when a UE-related RSSI The counter is counter updatediswhen UEUE related RSSI for the PUCCH for PUCCH value in the range of -90 dBm < related RSSI for PUCCH value in RssiPucchUe <= -88 dBm is detected. This counter histogram. the range of -90 dBm < is used for UE related RSSI for the PUCCH histogram. The counter is updated when a UE-related RSSI
RssiPucchUe <= -88 dBm is detected. This usedafor The counter is counter updatediswhen UEUE related RSSI for the PUCCH for PUCCH value in the range of -88 dBm < related RSSI for PUCCH value in RssiPucchUe <= -86 dBm is detected. This counter histogram. the range of -88 dBm < is used for UE related RSSI for the PUCCH RssiPucchUe <= -86 dBm is histogram. detected. This usedafor The counter is updated when a UE-related RSSI The counter is counter updatediswhen UEUE related RSSI for the PUCCH for PUCCH value in the range of -86 dBm < related RSSI for PUCCH value in RssiPucchUe <= -84 dBm is detected. This counter histogram. the range of -86 dBm < is used for UE related RSSI for the PUCCH histogram. The counter is updated when a UE-related RSSI
RssiPucchUe <= -84 dBm is detected. This usedafor The counter is counter updatediswhen UEUE related RSSI for the PUCCH for PUCCH value in the range of -84 dBm < related RSSI for PUCCH value in RssiPucchUe <= -82 dBm is detected. This counter histogram. the range of -84 dBm < is used for UE related RSSI for the PUCCH RssiPucchUe <= -82 dBm is histogram. detected. This usedafor The counter is updated when a UE-related RSSI The counter is counter updatediswhen UEUE related RSSI for the PUCCH for PUCCH value in the range of -82 dBm < related RSSI for PUCCH value in RssiPucchUe <= -80 dBm is detected. This counter histogram. the range of -82 dBm < is used for UE related RSSI for the PUCCH histogram.
RssiPucchUe <= -80 dBm is detected. This counter is used for UE related RSSI for the PUCCH histogram.
The counter is updated when a UE-related RSSI for PUCCH value in the range of RssiPucchUe > -80 dBm is detected. This counter is used for UE related RSSI for the PUCCH histogram. The counter is updated when a UE-related RSSI for PUSCH value <= -120 dBm is detected. This counter is used for UE related RSSI for the PUSCH histogram. The counter is updated when a UE-related RSSI for PUSCH value in the range of -120 dBm < RssiPUSCHUe <= -118 dBm is detected. This counter is used for UE related RSSI for the PUSCH histogram. The counter is updated when a UE-related RSSI for PUSCH value in the range of -118 dBm < RssiPUSCHUe <= -116 dBm is detected. This counter is used for UE related RSSI for the PUSCH histogram. The counter is updated when a UE-related RSSI for PUSCH value in the range of -116 dBm < RssiPUSCHUe <= -114 dBm is detected. This counter is used for a UE-related RSSI for the PUSCH histogram. The counter is updated when a UE-related RSSI for PUSCH value in the range of -114 dBm < RssiPUSCHUe <= -112 dBm is detected. This counter is used for a UE-related RSSI for the PUSCH histogram. The counter is updated when a UE-related RSSI for PUSCH value in the range of -112 dBm < RssiPUSCHUe <= -110 dBm is detected. This counter is used for a UE-related RSSI for the PUSCH histogram. The counter is updated when a UE-related RSSI for PUSCH value in the range of -110 dBm < RssiPUSCHUe <= -108 dBm is detected. This counter is used for a UE-related RSSI for the PUSCH histogram. The counter is updated when a UE-related RSSI for PUSCH value in the range of -108 dBm < RssiPUSCHUe <= -106 dBm is detected. This counter is used for a UE-related RSSI for the PUSCH histogram. The counter is updated when a UE-related RSSI for PUSCH value in the range of -106 dBm < RssiPUSCHUe <= -104 dBm is detected. This counter is used for a UE-related RSSI for the PUSCH histogram. The counter is updated when a UE-related RSSI for PUSCH value in the range of -104 dBm < RssiPUSCHUe <= -102 dBm is detected. This counter is used for a UE-related RSSI for the PUSCH histogram. The counter is updated when a UE-related RSSI for PUSCH value in the range of -102 dBm < RssiPUSCHUe <= -100 dBm is detected. This counter is used for a UE-related RSSI for the PUSCH histogram.
The counter is updated when a UErelated RSSI for PUCCH value in the range of RssiPucchUe > -80 dBm is detected. This counter is used for UE related RSSI for the The counter is updated when a UEPUCCH histogram. related RSSI for PUSCH value <= -120 dBm is detected. This counter is used for UE related RSSI for the PUSCH histogram. The counter is updated when a UErelated RSSI for PUSCH value in the range of -120 dBm < RssiPUSCHUe <= -118 dBm is detected. This usedafor The counter is counter updatediswhen UEUE related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -118 dBm < RssiPUSCHUe <= -116 dBm is detected. This usedafor The counter is counter updatediswhen UEUE related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -116 dBm < RssiPUSCHUe <= -114 dBm is detected. This usedafor a The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -114 dBm < RssiPUSCHUe <= -112 dBm is detected. This usedafor a The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -112 dBm < RssiPUSCHUe <= -110 dBm is detected. This usedafor a The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -110 dBm < RssiPUSCHUe <= -108 dBm is detected. This usedafor a The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -108 dBm < RssiPUSCHUe <= -106 dBm is detected. This usedafor a The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -106 dBm < RssiPUSCHUe <= -104 dBm is detected. This usedafor a The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -104 dBm < RssiPUSCHUe <= -102 dBm is detected. This usedafor a The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -102 dBm < RssiPUSCHUe <= -100 dBm is detected. This counter is used for a UE-related RSSI for the PUSCH histogram.
The counter is updated when a UE-related RSSI for PUSCH value in the range of -100 dBm < RssiPUSCHUe <= -98 dBm is detected. This counter is used for a UE-related RSSI for the PUSCH histogram. The counter is updated when a UE-related RSSI for PUSCH value in the range of -98 dBm < RssiPUSCHUe <= -96 dBm is detected. This counter is used for a UE-related RSSI for the PUSCH histogram. The counter is updated when a UE-related RSSI for PUSCH value in the range of -96 dBm < RssiPUSCHUe <= -94 dBm is detected. This counter is used for a UE-related RSSI for the PUSCH histogram. The counter is updated when a UE-related RSSI for PUSCH value in the range of -94 dBm < RssiPUSCHUe <= -92 dBm is detected. This counter is used for a UE-related RSSI for the PUSCH histogram. The counter is updated when a UE-related RSSI for PUSCH value in the range of -92 dBm < RssiPUSCHUe <= -90 dBm is detected. This counter is used for a UE-related RSSI for the PUSCH histogram. The counter is updated when a UE-related RSSI for PUSCH value in the range of -90 dBm < RssiPUSCHUe <= -88 dBm is detected. This counter is used for a UE-related RSSI for the PUSCH histogram. The counter is updated when a UE-related RSSI for PUSCH value in the range of -88 dBm < RssiPUSCHUe <= -86 dBm is detected. This counter is used for a UE-related RSSI for the PUSCH histogram. The counter is updated when a UE-related RSSI for PUSCH value in the range of -86 dBm < RssiPUSCHUe <= -84 dBm is detected. This counter is used for a UE-related RSSI for the PUSCH histogram. The counter is updated when a UE-related RSSI for PUSCH value in the range of -84 dBm < RssiPUSCHUe <= -82 dBm is detected. This counter is used for a UE-related RSSI for the PUSCH histogram. The counter is updated when a UE-related RSSI for PUSCH value in the range of -82 dBm < RssiPUSCHUe <= -80 dBm is detected. This counter is used for a UE-related RSSI for the PUSCH histogram. The counter is updated when a UE-related RSSI
The counter is updated when a UErelated RSSI for PUSCH value in the range of -100 dBm < RssiPUSCHUe <= -98 dBm is detected. This usedafor a The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -98 dBm < RssiPUSCHUe <= -96 dBm is detected. This usedafor a The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -96 dBm < RssiPUSCHUe <= -94 dBm is detected. This usedafor a The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -94 dBm < RssiPUSCHUe <= -92 dBm is detected. This usedafor a The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -92 dBm < RssiPUSCHUe <= -90 dBm is detected. This usedafor a The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -90 dBm < RssiPUSCHUe <= -88 dBm is detected. This usedafor a The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -88 dBm < RssiPUSCHUe <= -86 dBm is detected. This usedafor a The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -86 dBm < RssiPUSCHUe <= -84 dBm is detected. This usedafor a The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -84 dBm < RssiPUSCHUe <= -82 dBm is detected. This usedafor a The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -82 dBm <
RssiPUSCHUe <= -80 dBm is detected. This usedafor a The counter is counter updatediswhen UEUE-related RSSI for the PUSCH for PUSCH value in the range of RssiPUSCHUe > related RSSI for PUSCH value in -80 dBm is detected. This counter is used for a UE- histogram. the range of RssiPUSCHUe > -80 related RSSI for the PUSCH histogram. dBm is detected. This counter is UE-related RSSI for the When UE Power Headroom value in the range of used Whenfor UEa Power Headroom value PUSCH histogram. -23dB <= PHR < -21dB is detected. in the range of -23dB <= PHR < -21dB is detected.
When UE Power Headroom value in the range of -21dB <= PHR < -19dB is detected.
When UE Power Headroom value in the range of -21dB <= PHR < -19dB is detected.
When UE Power Headroom value in the range of -19dB <= PHR < -17dB is detected.
When UE Power Headroom value in the range of -19dB <= PHR < -17dB is detected.
When UE Power Headroom value in the range of -17dB <= PHR < -15dB is detected.
When UE Power Headroom value in the range of -17dB <= PHR < -15dB is detected.
When UE Power Headroom value in the range of -15dB <= PHR < -13dB is detected.
When UE Power Headroom value in the range of -15dB <= PHR < -13dB is detected.
When UE Power Headroom value in the range of -13dB <= PHR < -11dB is detected.
When UE Power Headroom value in the range of -13dB <= PHR < -11dB is detected.
When UE Power Headroom value in the range of -11dB <= PHR < -9dB is detected.
When UE Power Headroom value in the range of -11dB <= PHR < -9dB is detected.
When UE Power Headroom value in the range of -9dB <= PHR < -7dB is detected.
When UE Power Headroom value in the range of -9dB <= PHR < -7dB is detected.
When UE Power Headroom value in the range of -7dB <= PHR < -5dB is detected.
When UE Power Headroom value in the range of -7dB <= PHR < -5dB is detected.
When UE Power Headroom value in the range of -5dB <= PHR < -3dB is detected.
When UE Power Headroom value in the range of -5dB <= PHR < -3dB is detected.
When UE Power Headroom value in the range of -3dB <= PHR < -1dB is detected.
When UE Power Headroom value in the range of -3dB <= PHR < -1dB is detected.
When UE Power Headroom value in the range of -1dB <= PHR < 1dB is detected.
When UE Power Headroom value in the range of -1dB <= PHR < 1dB is detected.
When UE Power Headroom value in the range of 1dB <= PHR < 3dB is detected.
When UE Power Headroom value in the range of 1dB <= PHR < 3dB is detected.
When UE Power Headroom value in the range of 3dB <= PHR < 5dB is detected.
When UE Power Headroom value in the range of 3dB <= PHR < 5dB is detected.
When UE Power Headroom value in the range of 5dB <= PHR < 7dB is detected.
When UE Power Headroom value in the range of 5dB <= PHR < 7dB is detected.
When UE Power Headroom value in the range of 7dB <= PHR < 9dB is detected.
When UE Power Headroom value in the range of 7dB <= PHR < 9dB is detected.
When UE Power Headroom value in the range of 9dB <= PHR < 11dB is detected.
When UE Power Headroom value in the range of 9dB <= PHR < 11dB is detected.
When UE Power Headroom value in the range of 11dB <= PHR < 13dB is detected.
When UE Power Headroom value in the range of 11dB <= PHR < 13dB is detected.
When UE Power Headroom value in the range of 13dB <= PHR < 15dB is detected.
When UE Power Headroom value in the range of 13dB <= PHR < 15dB is detected.
When UE Power Headroom value in the range of 15dB <= PHR < 17dB is detected.
When UE Power Headroom value in the range of 15dB <= PHR < 17dB is detected.
When UE Power Headroom value in the range of 17dB <= PHR < 19dB is detected.
When UE Power Headroom value in the range of 17dB <= PHR < 19dB is detected.
When UE Power Headroom value in the range of 19dB <= PHR < 21dB is detected.
When UE Power Headroom value in the range of 19dB <= PHR < 21dB is detected.
When UE Power Headroom value in the range of 21dB <= PHR < 23dB is detected.
When UE Power Headroom value in the range of 21dB <= PHR < 23dB is detected.
When UE Power Headroom value in the range of 23dB <= PHR < 25dB is detected.
When UE Power Headroom value in the range of 23dB <= PHR < 25dB is detected.
When UE Power Headroom value in the range of 25dB <= PHR < 27dB is detected.
When UE Power Headroom value in the range of 25dB <= PHR < 27dB is detected.
When UE Power Headroom value in the range of 27dB <= PHR < 29dB is detected.
When UE Power Headroom value in the range of 27dB <= PHR < 29dB is detected.
When UE Power Headroom value in the range of 29dB <= PHR < 31dB is detected.
When UE Power Headroom value in the range of 29dB <= PHR < 31dB is detected.
When UE Power Headroom value in the range of 31dB <= PHR < 33dB is detected.
When UE Power Headroom value in the range of 31dB <= PHR < 33dB is detected.
When UE Power Headroom value in the range of 33dB <= PHR < 35dB is detected.
When UE Power Headroom value in the range of 33dB <= PHR < 35dB is detected.
When UE Power Headroom value in the range of 35dB <= PHR < 37dB is detected.
When UE Power Headroom value in the range of 35dB <= PHR < 37dB is detected.
When UE Power Headroom value in the range of 37dB <= PHR < 39dB is detected.
When UE Power Headroom value in the range of 37dB <= PHR < 39dB is detected.
When UE Power Headroom value in the range of 39 dB <= PHR is detected.
When UE Power Headroom value in the range of 39 dB <= PHR is detected.
When the minimum UE power headroom value is detected.
When the minimum UE power headroom value is detected.
When the maximum UE power headroom value is detected.
When the maximum UE power headroom value is detected.
Updated for each TTI.
Updated for each TTI.
The counter is updated when the signal-toThe counter is updated when the interference-and-noise ratio (SINR) minimum value signal-to-interference-and-noise for the PUCCH is detected ratio (SINR) minimum value for the PUCCH is detected The counter is updated when the signal-tointerference-and-noise ratio (SINR) maximum value for the PUCCH is detected
The counter is updated when the signal-to-interference-and-noise ratio (SINR) maximum value for the PUCCH is detected
The counter is updated with the average value of signal-to-interference-and-noise ratio (SINR) over the measurement period.
The counter is updated with the average value of signal-tointerference-and-noise ratio (SINR) over the measurement period.
The counter is updated when the signal-toThe counter is updated when the interference-and-noise ratio (SINR) minimum value signal-to-interference-and-noise for the PUSCH is detected ratio (SINR) minimum value for the PUSCH is detected The counter is updated when the signal-tointerference-and-noise ratio (SINR) maximum value for the PUSCH is detected
The counter is updated when the signal-to-interference-and-noise ratio (SINR) maximum value for the PUSCH is detected
The counter is updated with the average value of signal-to-interference-and-noise ratio (SINR) over the measurement period.
The counter is updated with the average value of signal-tointerference-and-noise ratio (SINR) over the measurement period.
When SINR PUCCH value in the range of <= -10dB is detected
When SINR PUCCH value in the range of <= -10dB is detected
When SINR PUCCH value in the range of -10dB < When SINR PUCCH value in the SINR <= -8dB is detected range of -10dB < SINR <= -8dB is detected When SINR PUCCH value in the range of -8dB < SINR <= -6dB is detected
When SINR PUCCH value in the range of -8dB < SINR <= -6dB is detected
When SINR PUCCH value in the range of -6dB < SINR <= -4dB is detected
When SINR PUCCH value in the range of -6dB < SINR <= -4dB is detected
When SINR PUCCH value in the range of -4dB < SINR <= -2dB is detected
When SINR PUCCH value in the range of -4dB < SINR <= -2dB is detected
When SINR PUCCH value in the range of -2dB < SINR <= 0dB is detected
When SINR PUCCH value in the range of -2dB < SINR <= 0dB is detected
When SINR PUCCH value in the range of 0dB < SINR <= 2dB is detected
When SINR PUCCH value in the range of 0dB < SINR <= 2dB is detected
When SINR PUCCH value in the range of 2dB < SINR <= 4dB is detected
When SINR PUCCH value in the range of 2dB < SINR <= 4dB is detected
When SINR PUCCH value in the range of 4dB < SINR <= 6dB is detected
When SINR PUCCH value in the range of 4dB < SINR <= 6dB is detected
When SINR PUCCH value in the range of 4dB < SINR <= 6dB is detected
When SINR PUCCH value in the range of 4dB < SINR <= 6dB is detected
When SINR PUCCH value in the range of 8dB < SINR <= 10dB is detected
When SINR PUCCH value in the range of 8dB < SINR <= 10dB is detected
When SINR PUCCH value in the range of 10dB < SINR <= 12dB is detected
When SINR PUCCH value in the range of 10dB < SINR <= 12dB is detected
When SINR PUCCH value in the range of 12dB < SINR <= 14dB is detected
When SINR PUCCH value in the range of 12dB < SINR <= 14dB is detected
When SINR PUCCH value in the range of 14dB < SINR <= 16dB is detected
When SINR PUCCH value in the range of 14dB < SINR <= 16dB is detected
When SINR PUCCH value in the range of 16dB < SINR <= 18dB is detected
When SINR PUCCH value in the range of 16dB < SINR <= 18dB is detected
When SINR PUCCH value in the range of 18dB < SINR <= 20dB is detected
When SINR PUCCH value in the range of 18dB < SINR <= 20dB is detected
When SINR PUCCH value in the range of 20dB < SINR <= 22dB is detected
When SINR PUCCH value in the range of 20dB < SINR <= 22dB is detected
When SINR PUCCH value in the range of 22dB < SINR <= 24dB is detected
When SINR PUCCH value in the range of 22dB < SINR <= 24dB is detected
When SINR PUCCH value in the range of 24dB < SINR <= 26dB is detected
When SINR PUCCH value in the range of 24dB < SINR <= 26dB is detected
When SINR PUCCH value in the range of 26dB < SINR <= 28dB is detected
When SINR PUCCH value in the range of 26dB < SINR <= 28dB is detected
When SINR PUCCH value in the range of 28dB < SINR <= 30dB is detected
When SINR PUCCH value in the range of 28dB < SINR <= 30dB is detected
When SINR PUCCH value in the range of > 30dB is detected
When SINR PUCCH value in the range of > 30dB is detected
When SINR PUSCH value in the range of <= -10dB is detected
When SINR PUSCH value in the range of <= -10dB is detected
When SINR PUSCH value in the range of -10dB < When SINR PUSCH value in the SINR <= -8dB is detected range of -10dB < SINR <= -8dB is detected When SINR PUSCH value in the range of -8dB < SINR <= -6dB is detected
When SINR PUSCH value in the range of -8dB < SINR <= -6dB is detected
When SINR PUSCH value in the range of -6dB < SINR <= -4dB is detected
When SINR PUSCH value in the range of -6dB < SINR <= -4dB is detected
When SINR PUSCH value in the range of -4dB < SINR <= -2dB is detected
When SINR PUSCH value in the range of -4dB < SINR <= -2dB is detected
When SINR PUSCH value in the range of -2dB < SINR <= 0dB is detected
When SINR PUSCH value in the range of -2dB < SINR <= 0dB is detected
When SINR PUSCH value in the range of 0dB < SINR <= 2dB is detected
When SINR PUSCH value in the range of 0dB < SINR <= 2dB is detected
When SINR PUSCH value in the range of 2dB < SINR <= 4dB is detected
When SINR PUSCH value in the range of 2dB < SINR <= 4dB is detected
When SINR PUSCH value in the range of 4dB < SINR <= 6dB is detected
When SINR PUSCH value in the range of 4dB < SINR <= 6dB is detected
When SINR PUSCH value in the range of 6dB < SINR <= 8dB is detected
When SINR PUSCH value in the range of 6dB < SINR <= 8dB is detected
When SINR PUSCH value in the range of 8dB < SINR <= 10dB is detected
When SINR PUSCH value in the range of 8dB < SINR <= 10dB is detected
When SINR PUSCH value in the range of 10dB < SINR <= 12dB is detected
When SINR PUSCH value in the range of 10dB < SINR <= 12dB is detected
When SINR PUSCH value in the range of 12dB < SINR <= 14dB is detected
When SINR PUSCH value in the range of 12dB < SINR <= 14dB is detected
When SINR PUSCH value in the range of 14dB < SINR <= 16dB is detected
When SINR PUSCH value in the range of 14dB < SINR <= 16dB is detected
When SINR PUSCH value in the range of 16dB < SINR <= 18dB is detected
When SINR PUSCH value in the range of 16dB < SINR <= 18dB is detected
When SINR PUSCH value in the range of 18dB < SINR <= 20dB is detected
When SINR PUSCH value in the range of 18dB < SINR <= 20dB is detected
When SINR PUSCH value in the range of 20dB < SINR <= 22dB is detected
When SINR PUSCH value in the range of 20dB < SINR <= 22dB is detected
When SINR PUSCH value in the range of 22dB < SINR <= 24dB is detected
When SINR PUSCH value in the range of 22dB < SINR <= 24dB is detected
When SINR PUSCH value in the range of 24dB < SINR <= 26dB is detected
When SINR PUSCH value in the range of 24dB < SINR <= 26dB is detected
When SINR PUSCH value in the range of 26dB < SINR <= 28dB is detected
When SINR PUSCH value in the range of 26dB < SINR <= 28dB is detected
When SINR PUSCH value in the range of 28dB < SINR <= 30dB is detected
When SINR PUSCH value in the range of 28dB < SINR <= 30dB is detected
When SINR PUSCH value in the range of > 30dB is detected
When SINR PUSCH value in the range of > 30dB is detected
This counter is updated every time UL AMC recommended MCS is upgraded. Both Outer Loop AMC and Inner Loop AMC decisions are considered. This counter is updated every time UL AMC recommended MCS is downgraded. Both Outer Loop AMC and Inner Loop AMC decisions are considered.
This counter is updated every time UL AMC recommended MCS is upgraded. Both Outer Loop AMC and Inner Loop AMC decisions are considered. This counter is updated every time UL AMC recommended MCS is downgraded. Both Outer Loop AMC and Inner Loop AMC decisions are considered. This counter is updated if the
This counter is updated if the current cell-wide RSSI value on PUCCH is smaller than the last cell- current cell-wide RSSI value on wide RSSI minimum. PUCCH is smaller than the last cellwide RSSI minimum. This counter is updated if the current cell-wide This counter is updated if the RSSI value on PUCCH is greater than the last cell- current cell-wide RSSI value on wide RSSI maximum. PUCCH is greater than the last cellwide RSSI maximum. The counter is updated after every TTI. Mean value is calculated as follows: conversion from dBm into mW, arithmetic mean computation in mW and conversion back to dBm. The counter is updated after every TTI if the cellwide RSSI value on PUCCH is <= -120 dBm.
The counter is updated after every TTI. Mean value is calculated as follows: conversion from dBm into mW, arithmetic mean computation in mW and conversion The counter is updatedback after to every dBm. TTI if the cell-wide RSSI value on PUCCH is <= -120 dBm.
The counter is updated after every TTI if the cellwide RSSI value on PUCCH is -120 dBm < x <= -118 dBm.
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -120 dBm < x <= -118 dBm.
The counter is updated after every TTI if the cellwide RSSI value on PUCCH is -118 dBm < x <= -116 dBm.
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -118 dBm < x <= -116 dBm.
The counter is updated after every TTI if the cellwide RSSI value on PUCCH is -116 dBm < x <= -114 dBm.
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -116 dBm < x <= -114 dBm.
The counter is updated after every TTI if the cellwide RSSI value on PUCCH is -114 dBm < x <= -112 dBm.
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -114 dBm < x <= -112 dBm.
The counter is updated after every TTI if the cellwide RSSI value on PUCCH is -112 dBm < x <= -110 dBm.
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -112 dBm < x <= -110 dBm.
The counter is updated after every TTI if the cellwide RSSI value on PUCCH is -110 dBm < x <= -108 dBm.
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -110 dBm < x <= -108 dBm.
The counter is updated after every TTI if the cellwide RSSI value on PUCCH is -108 dBm < x <= -106 dBm.
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -108 dBm < x <= -106 dBm.
The counter is updated after every TTI if the cellwide RSSI value on PUCCH is -106 dBm < x <= -104 dBm.
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -106 dBm < x <= -104 dBm.
The counter is updated after every TTI if the cellwide RSSI value on PUCCH is -104 dBm < x <= -102 dBm.
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -104 dBm < x <= -102 dBm.
The counter is updated after every TTI if the cellwide RSSI value on PUCCH is -102 dBm < x <= -100 dBm.
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -102 dBm < x <= -100 dBm.
The counter is updated after every TTI if the cellwide RSSI value on PUCCH is -100 dBm < x <= -98 dBm.
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -100 dBm < x <= -98 dBm.
The counter is updated after every TTI if the cellThe counter is updated after every wide RSSI value on PUCCH is -98 dBm < x <= -96 TTI if the cell-wide RSSI value on dBm. PUCCH is -98 dBm < x <= -96 dBm. The counter is updated after every TTI if the cellThe counter is updated after every wide RSSI value on PUCCH is -96 dBm < x <= -94 TTI if the cell-wide RSSI value on dBm. PUCCH is -96 dBm < x <= -94 dBm. The counter is updated after every TTI if the cellThe counter is updated after every wide RSSI value on PUCCH is -94 dBm < x <= -92 TTI if the cell-wide RSSI value on dBm. PUCCH is -94 dBm < x <= -92 dBm. The counter is updated after every TTI if the cellThe counter is updated after every wide RSSI value on PUCCH is -92 dBm < x <= -90 TTI if the cell-wide RSSI value on dBm. PUCCH is -92 dBm < x <= -90 dBm. The counter is updated after every TTI if the cellThe counter is updated after every wide RSSI value on PUCCH is -90 dBm < x <= -88 TTI if the cell-wide RSSI value on dBm. PUCCH is -90 dBm < x <= -88 dBm. The counter is updated after every TTI if the cellThe counter is updated after every wide RSSI value on PUCCH is -88 dBm < x <= -86 TTI if the cell-wide RSSI value on dBm. PUCCH is -88 dBm < x <= -86 dBm. The counter is updated after every TTI if the cellThe counter is updated after every wide RSSI value on PUCCH is -86 dBm < x <= -84 TTI if the cell-wide RSSI value on dBm. PUCCH is -86 dBm < x <= -84 dBm.
The counter is updated after every TTI if the cellThe counter is updated after every wide RSSI value on PUCCH is -84 dBm < x <= -82 TTI if the cell-wide RSSI value on dBm. PUCCH is -84 dBm < x <= -82 dBm. The counter is updated after every TTI if the cellThe counter is updated after every wide RSSI value on PUCCH is -82 dBm < x <= -80 TTI if the cell-wide RSSI value on dBm. PUCCH is -82 dBm < x <= -80 dBm. The counter is updated after every TTI if the cellwide RSSI value on PUCCH is greater than -80 dBm.
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is greater than -80 dBm.
This counter is updated if the current cell-wide This counter is updated if the RSSI value on PUSCH is smaller than the last cell- current cell-wide RSSI value on wide RSSI minimum. PUSCH is smaller than the last cellwide RSSI minimum. This counter is updated if the current cell-wide This counter is updated if the RSSI value on PUSCH is greater than the last cell- current cell-wide RSSI value on wide RSSI maximum. PUSCH is greater than the last cellwide RSSI maximum. The counter is updated after every TTI. Mean value is calculated as follows: conversion from dBm into mW, arithmetic mean computation in mW and conversion back to dBm. The counter is updated after every TTI if the cellwide RSSI value on PUSCH is <= -120 dBm.
The counter is updated after every TTI. Mean value is calculated as follows: conversion from dBm into mW, arithmetic mean computation in mW and conversion The counter is updatedback after to every dBm. TTI if the cell-wide RSSI value on PUSCH is <= -120 dBm.
The counter is updated after every TTI if the cellwide RSSI value on PUSCH is -120 dBm < x <= -118 dBm.
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -120 dBm < x <= -118 dBm.
The counter is updated after every TTI if the cellwide RSSI value on PUSCH is -118 dBm < x <= -116 dBm.
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -118 dBm < x <= -116 dBm.
The counter is updated after every TTI if the cellwide RSSI value on PUSCH is -116 dBm < x <= -114 dBm.
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -116 dBm < x <= -114 dBm.
The counter is updated after every TTI if the cellwide RSSI value on PUSCH is -114 dBm < x <= -112 dBm.
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -114 dBm < x <= -112 dBm.
The counter is updated after every TTI if the cellwide RSSI value on PUSCH is -112 dBm < x <= -110 dBm.
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -112 dBm < x <= -110 dBm.
The counter is updated after every TTI if the cellwide RSSI value on PUSCH is -110 dBm < x <= -108 dBm.
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -110 dBm < x <= -108 dBm.
The counter is updated after every TTI if the cellwide RSSI value on PUSCH is -108 dBm < x <= -106 dBm.
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -108 dBm < x <= -106 dBm.
The counter is updated after every TTI if the cellwide RSSI value on PUSCH is -106 dBm < x <= -104 dBm.
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -106 dBm < x <= -104 dBm.
The counter is updated after every TTI if the cellwide RSSI value on PUSCH is -104 dBm < x <= -102 dBm.
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -104 dBm < x <= -102 dBm.
The counter is updated after every TTI if the cellwide RSSI value on PUSCH is -102 dBm < x <= -100 dBm.
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -102 dBm < x <= -100 dBm.
The counter is updated after every TTI if the cellwide RSSI value on PUSCH is -100 dBm < x <= -98 dBm.
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -100 dBm < x <= -98 dBm.
The counter is updated after every TTI if the cellThe counter is updated after every wide RSSI value on PUSCH is -98 dBm < x <= -96 TTI if the cell-wide RSSI value on dBm. PUSCH is -98 dBm < x <= -96 dBm. The counter is updated after every TTI if the cellThe counter is updated after every wide RSSI value on PUSCH is -96 dBm < x <= -94 TTI if the cell-wide RSSI value on dBm. PUSCH is -96 dBm < x <= -94 dBm. The counter is updated after every TTI if the cellThe counter is updated after every wide RSSI value on PUSCH is -94 dBm < x <= -92 TTI if the cell-wide RSSI value on dBm. PUSCH is -94 dBm < x <= -92 dBm. The counter is updated after every TTI if the cellThe counter is updated after every wide RSSI value on PUSCH is -92 dBm < x <= -90 TTI if the cell-wide RSSI value on dBm. PUSCH is -92 dBm < x <= -90 dBm. The counter is updated after every TTI if the cellThe counter is updated after every wide RSSI value on PUSCH is -90 dBm < x <= -88 TTI if the cell-wide RSSI value on dBm. PUSCH is -90 dBm < x <= -88 dBm. The counter is updated after every TTI if the cellThe counter is updated after every wide RSSI value on PUSCH is -88 dBm < x <= -86 TTI if the cell-wide RSSI value on dBm. PUSCH is -88 dBm < x <= -86 dBm.
The counter is updated after every TTI if the cellThe counter is updated after every wide RSSI value on PUSCH is -86 dBm < x <= -84 TTI if the cell-wide RSSI value on dBm. PUSCH is -86 dBm < x <= -84 dBm. The counter is updated after every TTI if the cellThe counter is updated after every wide RSSI value on PUSCH is -84 dBm < x <= -82 TTI if the cell-wide RSSI value on dBm. PUSCH is -84 dBm < x <= -82 dBm. The counter is updated after every TTI if the cellThe counter is updated after every wide RSSI value on PUSCH is -82 dBm < x <= -80 TTI if the cell-wide RSSI value on dBm. PUSCH is -82 dBm < x <= -80 dBm. The counter is updated after every TTI if the cellwide RSSI value on PUSCH is greater than -80 dBm.
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is greater than -80 dBm.
This counter is updated if the current cell-wide This counter is updated if the SINR value on PUCCH is smaller than the last cell- current cell-wide SINR value on wide SINR minimum. PUCCH is smaller than the last cellwide SINR minimum. This counter is updated if the current cell-wide This counter is updated if the SINR value on PUCCH is greater than the last cell- current cell-wide SINR value on wide SINR maximum. PUCCH is greater than the last cellwide SINR maximum. The counter is updated after every TTI. Mean value is calculated as follows: SINR mean value calculation must be done on dB (instead of linear ratio). The counter is updated after every TTI if the cellwide SINR value on PUCCH is <= -10 dB.
The counter is updated after every TTI if the cellwide SINR value on PUCCH is -10 dB < x <= -8 dB.
The counter is updated after every TTI. Mean value is calculated as follows: SINR mean value calculation must be done on dB (instead of linear ratio). after every The counter is updated TTI if the cell-wide SINR value on PUCCH is <= -10 dB. The counter is updated after every TTI if the cell-wide SINR value on PUCCH is -10 dB < x <= -8 dB.
The counter is updated after every TTI if the cellThe counter is updated after every wide SINR value on PUCCH is -8 dB < x <= -6 dB. TTI if the cell-wide SINR value on PUCCH is -8 dB < x <= -6 dB. The counter is updated after every TTI if the cellThe counter is updated after every wide SINR value on PUCCH is -6 dB < x <= -4 dB. TTI if the cell-wide SINR value on PUCCH is -6 dB < x <= -4 dB. The counter is updated after every TTI if the cellThe counter is updated after every wide SINR value on PUCCH is -4 dB < x <= -2 dB. TTI if the cell-wide SINR value on PUCCH is -4 dB < x <= -2 dB.
The counter is updated after every TTI if the cellwide SINR value on PUCCH is -2 dB < x <= 0 dB.
The counter is updated after every TTI if the cell-wide SINR value on PUCCH is -2 dB < x <= 0 dB.
The counter is updated after every TTI if the cellwide SINR value on PUCCH is 0 dB < x <= 2 dB.
The counter is updated after every TTI if the cell-wide SINR value on PUCCH is 0 dB < x <= 2 dB.
The counter is updated after every TTI if the cellwide SINR value on PUCCH is 2 dB < x <= 4 dB.
The counter is updated after every TTI if the cell-wide SINR value on PUCCH is 2 dB < x <= 4 dB.
The counter is updated after every TTI if the cellwide SINR value on PUCCH is 4 dB < x <= 6 dB.
The counter is updated after every TTI if the cell-wide SINR value on PUCCH is 4 dB < x <= 6 dB.
The counter is updated after every TTI if the cellwide SINR value on PUCCH is 6 dB < x <= 8 dB.
The counter is updated after every TTI if the cell-wide SINR value on PUCCH is 6 dB < x <= 8 dB.
The counter is updated after every TTI if the cellwide SINR value on PUCCH is 8 dB < x <= 10 dB.
The counter is updated after every TTI if the cell-wide SINR value on PUCCH is 8 dB < x <= 10 dB.
The counter is updated after every TTI if the cellThe counter is updated after every wide SINR value on PUCCH is 10 dB < x <= 12 dB. TTI if the cell-wide SINR value on PUCCH is 10 dB < x <= 12 dB. The counter is updated after every TTI if the cellThe counter is updated after every wide SINR value on PUCCH is 12 dB < x <= 14 dB. TTI if the cell-wide SINR value on PUCCH is 12 dB < x <= 14 dB. The counter is updated after every TTI if the cellThe counter is updated after every wide SINR value on PUCCH is 14 dB < x <= 16 dB. TTI if the cell-wide SINR value on PUCCH is 14 dB < x <= 16 dB. The counter is updated after every TTI if the cellThe counter is updated after every wide SINR value on PUCCH is 16 dB < x <= 18 dB. TTI if the cell-wide SINR value on PUCCH is 16 dB < x <= 18 dB. The counter is updated after every TTI if the cellThe counter is updated after every wide SINR value on PUCCH is 18 dB < x <= 20 dB. TTI if the cell-wide SINR value on PUCCH is 18 dB < x <= 20 dB. The counter is updated after every TTI if the cellThe counter is updated after every wide SINR value on PUCCH is 20 dB < x <= 22 dB. TTI if the cell-wide SINR value on PUCCH is 20 dB < x <= 22 dB.
The counter is updated after every TTI if the cellThe counter is updated after every wide SINR value on PUCCH is 22 dB < x <= 24 dB. TTI if the cell-wide SINR value on PUCCH is 22 dB < x <= 24 dB. The counter is updated after every TTI if the cellThe counter is updated after every wide SINR value on PUCCH is 24dB < x <= 26 dB. TTI if the cell-wide SINR value on PUCCH is 24dB < x <= 26 dB. The counter is updated after every TTI if the cellThe counter is updated after every wide SINR value on PUCCH is 26 dB < x <= 28 dB. TTI if the cell-wide SINR value on PUCCH is 26 dB < x <= 28 dB. The counter is updated after every TTI if the cellThe counter is updated after every wide SINR value on PUCCH is 28 dB < x <= 30 dB. TTI if the cell-wide SINR value on PUCCH is 28 dB < x <= 30 dB. The counter is updated after every TTI if the cellThe counter is updated after every wide SINR value on PUCCH is greater than 30 dB. TTI if the cell-wide SINR value on PUCCH is greater than 30 dB. This counter is updated if the current cell-wide This counter is updated if the SINR value on PUSCH is smaller than the last cell- current cell-wide SINR value on wide SINR minimum. PUSCH is smaller than the last cellwide SINR minimum. This counter is updated if the current cell-wide This counter is updated if the SINR value on PUSCH is greater than the last cell- current cell-wide SINR value on wide SINR maximum. PUSCH is greater than the last cellwide SINR maximum. The counter is updated after every TTI. Mean value is calculated as follows: SINR mean value calculation must be done on dB (instead of linear ratio). The counter is updated after every TTI if the cellwide SINR value on PUSCH is <= -10 dB.
The counter is updated after every TTI if the cellwide SINR value on PUSCH is -10 dB < x <= -8 dB.
The counter is updated after every TTI. Mean value is calculated as follows: SINR mean value calculation must be done on dB (instead of linear ratio). after every The counter is updated TTI if the cell-wide SINR value on PUSCH is <= -10 dB. The counter is updated after every TTI if the cell-wide SINR value on PUSCH is -10 dB < x <= -8 dB.
The counter is updated after every TTI if the cellThe counter is updated after every wide SINR value on PUSCH is -8 dB < x <= -6 dB. TTI if the cell-wide SINR value on PUSCH is -8 dB < x <= -6 dB. The counter is updated after every TTI if the cellThe counter is updated after every wide SINR value on PUSCH is -6 dB < x <= -4 dB. TTI if the cell-wide SINR value on PUSCH is -6 dB < x <= -4 dB.
The counter is updated after every TTI if the cellThe counter is updated after every wide SINR value on PUSCH is -4 dB < x <= -2 dB. TTI if the cell-wide SINR value on PUSCH is -4 dB < x <= -2 dB. The counter is updated after every TTI if the cellwide SINR value on PUSCH is -2 dB < x <= 0 dB.
The counter is updated after every TTI if the cell-wide SINR value on PUSCH is -2 dB < x <= 0 dB.
The counter is updated after every TTI if the cellwide SINR value on PUSCH is 0 dB < x <= 2 dB.
The counter is updated after every TTI if the cell-wide SINR value on PUSCH is 0 dB < x <= 2 dB.
The counter is updated after every TTI if the cellwide SINR value on PUSCH is 2 dB < x <= 4 dB.
The counter is updated after every TTI if the cell-wide SINR value on PUSCH is 2 dB < x <= 4 dB.
The counter is updated after every TTI if the cellwide SINR value on PUSCH is 4 dB < x <= 6 dB.
The counter is updated after every TTI if the cell-wide SINR value on PUSCH is 4 dB < x <= 6 dB.
The counter is updated after every TTI if the cellwide SINR value on PUSCH is 6 dB < x <= 8 dB.
The counter is updated after every TTI if the cell-wide SINR value on PUSCH is 6 dB < x <= 8 dB.
The counter is updated after every TTI if the cellwide SINR value on PUSCH is 8 dB < x <= 10 dB.
The counter is updated after every TTI if the cell-wide SINR value on PUSCH is 8 dB < x <= 10 dB.
The counter is updated after every TTI if the cellThe counter is updated after every wide SINR value on PUSCH is 10 dB < x <= 12 dB. TTI if the cell-wide SINR value on PUSCH is 10 dB < x <= 12 dB. The counter is updated after every TTI if the cellThe counter is updated after every wide SINR value on PUSCH is 12 dB < x <= 14 dB. TTI if the cell-wide SINR value on PUSCH is 12 dB < x <= 14 dB. The counter is updated after every TTI if the cellThe counter is updated after every wide SINR value on PUSCH is 14 dB < x <= 16 dB. TTI if the cell-wide SINR value on PUSCH is 14 dB < x <= 16 dB. The counter is updated after every TTI if the cellThe counter is updated after every wide SINR value on PUSCH is 16 dB < x <= 18 dB. TTI if the cell-wide SINR value on PUSCH is 16 dB < x <= 18 dB. The counter is updated after every TTI if the cellThe counter is updated after every wide SINR value on PUSCH is 18 dB < x <= 20 dB. TTI if the cell-wide SINR value on PUSCH is 18 dB < x <= 20 dB.
The counter is updated after every TTI if the cellThe counter is updated after every wide SINR value on PUSCH is 20 dB < x <= 22 dB. TTI if the cell-wide SINR value on PUSCH is 20 dB < x <= 22 dB. The counter is updated after every TTI if the cellThe counter is updated after every wide SINR value on PUSCH is 22 dB < x <= 24 dB. TTI if the cell-wide SINR value on PUSCH is 22 dB < x <= 24 dB. The counter is updated after every TTI if the cellThe counter is updated after every wide SINR value on PUSCH is 24 dB < x <= 26 dB. TTI if the cell-wide SINR value on PUSCH is 24 dB < x <= 26 dB. The counter is updated after every TTI if the cellThe counter is updated after every wide SINR value on PUSCH is 26 dB < x <= 28 dB. TTI if the cell-wide SINR value on PUSCH is 26 dB < x <= 28 dB. The counter is updated after every TTI if the cellThe counter is updated after every wide SINR value on PUSCH is 28 dB < x <= 30 dB. TTI if the cell-wide SINR value on PUSCH is 28 dB < x <= 30 dB. The counter is updated after every TTI if the cellThe counter is updated after every wide SINR value on PUSCH is greater than 30 dB. TTI if the cell-wide SINR value on PUSCH is greater than 30 dB. This measurement is updated by accumulating the RTWP in milliwatts for Rx antenna 1 from every sample period and calculating the average at the end of the collection interval.
This measurement is updated by accumulating the RTWP in milliwatts for Rx antenna 1 from every sample period and calculating at the end of the by This measurement is updated by accumulating the the Thisaverage measurement is updated collection interval. RTWP in milliwatts for Rx antenna 2 from every accumulating the RTWP in sample period and calculating the average at the milliwatts for Rx antenna 2 from end of the collection interval. every sample period and calculating at the end of the by This measurement is updated by accumulating the the Thisaverage measurement is updated collection interval. RTWP in milliwatts for Rx antenna 3 from every accumulating the RTWP in sample period and calculating the average at the end of the collection interval.
milliwatts for Rx antenna 3 from every sample period and calculating at the end of the by This measurement is updated by accumulating the the Thisaverage measurement is updated collection interval. RTWP in milliwatts for Rx antenna 4 from every accumulating the RTWP in sample period and calculating the average at the milliwatts for Rx antenna 4 from end of the collection interval. every sample period and calculating at the end of the by This measurement is updated by accumulating the the Thisaverage measurement is updated collection interval. RTWP in milliwatts for Rx antenna 5 from every accumulating the RTWP in sample period and calculating the average at the end of the collection interval.
milliwatts for Rx antenna 5 from every sample period and calculating at the end of the by This measurement is updated by accumulating the the Thisaverage measurement is updated collection interval. RTWP in milliwatts for Rx antenna 6 from every accumulating the RTWP in sample period and calculating the average at the milliwatts for Rx antenna 6 from end of the collection interval. every sample period and calculating the average at the end of the collection interval.
This measurement is updated by accumulating the RTWP in milliwatts for Rx antenna 7 from every sample period and calculating the average at the end of the collection interval.
This measurement is updated by accumulating the RTWP in milliwatts for Rx antenna 7 from every sample period and calculating at the end of the by This measurement is updated by accumulating the the Thisaverage measurement is updated collection interval. RTWP in milliwatts for Rx antenna 8 from every accumulating the RTWP in sample period and calculating the average at the milliwatts for Rx antenna 8 from end of the collection interval. every sample period and calculating the at the end of the by This measurement is updated by collecting the Thisaverage measurement is updated collection interval. individual antenna RTWP values in milliwatts every collecting the individual antenna sample period and comparing to a stored maximum value. If any of the new collected values are than the existing maximum value, the Thislarger measurement is updated by calculating the largest collected value replaces the maximum IoT every sample period the noise measurement is value. The is RB reported with the received as measurement per the PUSCH distribution bin 0 maximum dBm value at the end of the collection and taking the 50 percentile value at the end of the interval. collection interval. is updated by calculating the This measurement IoT every sample period the noise measurement is received as per the PUSCH RB distribution bin 1 and taking the 50 percentile value at the end of the collection interval. is updated by calculating the This measurement
RTWP values in milliwatts every sample period and comparing to a stored maximum value. If any of This measurement is updated bythe new collected values are larger calculating the IoT every sample than the existing maximum value, period the noise measurement is the largest collected value replaces received as per the PUSCH RB the maximum The the 50 distribution binvalue. 0 and This measurement is taking updated by measurement is reported with the percentile value at every the end of the calculating the IoT sample maximum dBm value at the end of collection period theinterval. noise measurement is the collection interval. received as per the PUSCH RB distribution bin 1 and theby50 This measurement is taking updated percentile value at the end of the IoT every sample period the noise measurement is calculating the IoT every sample collection interval. received as per the PUSCH RB distribution bin 2 period the noise measurement is and taking the 50 percentile value at the end of the received as per the PUSCH RB collection interval. is updated by calculating the distribution bin 2 and theby50 This measurement This measurement is taking updated percentile value at the end of the IoT every sample period the noise measurement is calculating the IoT every sample collection interval. received as per the PUSCH RB distribution bin 3 period the noise measurement is and taking the 50 percentile value at the end of the received as per the PUSCH RB collection interval. is updated by calculating the distribution bin 3 and theby50 This measurement This measurement is taking updated percentile value at the end of the IoT every sample period the noise measurement is calculating the IoT every sample collection interval. received as per the PUSCH RB distribution bin 4 period the noise measurement is and taking the 50 percentile value at the end of the received as per the PUSCH RB collection interval. is updated by calculating the distribution bin 4 and theby50 This measurement This measurement is taking updated percentile value at the end of the IoT every sample period the noise measurement is calculating the IoT every sample collection interval. received as per the PUSCH RB distribution bin 5 period the noise measurement is and taking the 50 percentile value at the end of the received as per the PUSCH RB collection interval. is updated by calculating the distribution bin 5 and theby50 This measurement This measurement is taking updated percentile value at the end of the IoT every sample period the noise measurement is calculating the IoT every sample collection interval. received as per the PUSCH RB distribution bin 6 period the noise measurement is and taking the 50 percentile value at the end of the received as per the PUSCH RB collection interval. is updated by calculating the distribution bin 6 and theby50 This measurement This measurement is taking updated percentile value at the end of the IoT every sample period the noise measurement is calculating the IoT every sample collection interval. received as per the PUSCH RB distribution bin 7 period the noise measurement is and taking the 50 percentile value at the end of the received as per the PUSCH RB collection interval. is updated by calculating the distribution bin 7 and theby50 This measurement This measurement is taking updated percentile value at the end of the IoT every sample period the noise measurement is calculating the IoT every sample collection interval. received as per the PUSCH RB distribution bin 8 period the noise measurement is and taking the 50 percentile value at the end of the received as per the PUSCH RB collection interval. distribution bin 8 and taking the 50 percentile value at the end of the collection interval.
This measurement is updated by calculating the SIR for each of the in-use PUSCH PRBs every sample period and incrementing the corresponding bin having an average SIR value less than 1.0 dB. This measurement is updated by calculating the SIR for each of the in-use PUSCH PRBs every sample period and incrementing the corresponding bin having an average SIR value from 1.0 dB to less 4.0 dB. is updated by calculating the This than measurement
This measurement is updated by calculating the SIR for each of the in-use PUSCH PRBs every sample period and incrementing the corresponding bin having an by This measurement is updated average SIR value less than 1.0 dB. calculating the SIR for each of the
in-use PUSCH PRBs every sample period and incrementing the corresponding bin having an by This measurement is updated average SIR value from 1.0 to SIR for each of the in-use PUSCH PRBs every calculating the SIR for each dB of the less than 4.0 dB. sample period and incrementing the corresponding in-use PUSCH PRBs every sample bin having an average SIR value from 4.0 dB to period and incrementing the less than 7.0 dB. corresponding bin having an by This measurement is updated by calculating the This measurement is updated average SIR value from 4.0 to SIR for each of the in-use PUSCH PRBs every calculating the SIR for each dB of the less than 7.0 dB. sample period and incrementing the corresponding in-use PUSCH PRBs every sample bin having an average SIR value from 7.0 dB to less 10.0 dB. is updated by calculating the This than measurement
period and incrementing the corresponding bin having an by This measurement is updated average SIR value from 7.0 to SIR for each of the in-use PUSCH PRBs every calculating the SIR for each dB of the less than 10.0 dB. sample period and incrementing the corresponding in-use PUSCH PRBs every sample bin having an average SIR value from 10.0 dB to period and incrementing the less than 13.0 dB. corresponding bin having an by This measurement is updated by calculating the This measurement is updated average SIR value from 10.0 to SIR for each of the in-use PUSCH PRBs every calculating the SIR for each ofdB the less than 13.0 dB. sample period and incrementing the corresponding in-use PUSCH PRBs every sample bin having an average SIR value from 13.0 dB to less 16.0 dB. is updated by calculating the This than measurement
period and incrementing the corresponding bin having an by This measurement is updated average SIR value from 13.0 to SIR for each of the in-use PUSCH PRBs every calculating the SIR for each ofdB the less than 16.0 dB. sample period and incrementing the corresponding in-use PUSCH PRBs every sample bin having an average SIR value from 16.0 dB to period and incrementing the less than 19.0 dB. corresponding bin having an by This measurement is updated by calculating the This measurement is updated average SIR value from 16.0 to SIR for each of the in-use PUSCH PRBs every calculating the SIR for each ofdB the less than 19.0 dB. sample period and incrementing the corresponding in-use PUSCH PRBs every sample bin having an average SIR value from 19.0 dB to less 22.0 dB. is updated by calculating the This than measurement
period and incrementing the corresponding bin having an by This measurement is updated average SIR value from 19.0 to SIR for each of the in-use PUSCH PRBs every calculating the SIR for each ofdB the less than 22.0 dB. sample period and incrementing the corresponding in-use PUSCH PRBs every sample bin having an average SIR value from 22.0 dB to period and incrementing the less than 25.0 dB. corresponding bin having an by This measurement is updated by calculating the This measurement is updated average SIR value from 22.0 to SIR for each of the in-use PUSCH PRBs every calculating the SIR for each ofdB the less than 25.0 dB. sample period and incrementing the corresponding in-use PUSCH PRBs every sample bin having an average SIR value equal or greater than 25.0 dB. of an S1AP:Initial Context Setup The reception Request or an S1AP:E-RAB SETUP REQUEST message sent by MME to the eNB.
period and incrementing the corresponding binanhaving an The reception of S1AP:Initial average SIR value equal or greater Context Setup Request or an than 25.0 dB. S1AP:E-RAB SETUP REQUEST message sent by MME to the eNB.
The transmission of an S1AP:Initial Context Setup The transmission of an S1AP:Initial Response or an S1AP:E-RAB SETUP RESPONSE Context Setup Response or an message sent by the eNB to MME. S1AP:E-RAB SETUP RESPONSE message sent by the eNB to MME.
Reception of an S1AP:E-RAB RELEASE COMMAND or an S1AP:UE CONTEXT RELEASE COMMAND message sent by MME to the eNB. The counter is not incremented in case that the S1AP:UE RELEASE COMMAND is ReceptionCONTEXT of an S1AP:E-RAB RELEASE received as a response to a previously COMMAND or an S1AP:UE CONTEXTsent RELEASE S1AP:UE CONTEXT REQUEST. COMMAND messageRELEASE sent by MME to the eNB.
Reception of an S1AP:E-RAB RELEASE COMMAND or an S1AP:UE CONTEXT RELEASE COMMAND message sent by MME to the eNB.ofThe is not Reception an counter S1AP:E-RAB incremented in case that RELEASE COMMAND orthe an S1AP:UE S1AP:UE CONTEXT CONTEXT RELEASE RELEASE COMMAND receivedsent as aby MME The counter is not incremented in case that the COMMAND is message response to a previously sent S1AP:UE RELEASE COMMAND is to the eNB.ofThe is not ReceptionCONTEXT of an S1AP:E-RAB RELEASE Reception an counter S1AP:E-RAB S1AP:UE CONTEXT RELEASE received as a response to a previously sent incremented in case that the COMMAND or an S1AP:UE CONTEXT RELEASE RELEASE COMMAND or an REQUEST. S1AP:UE CONTEXT REQUEST. S1AP:UE COMMAND messageRELEASE sent by MME to the eNB. S1AP:UE CONTEXT CONTEXT RELEASE RELEASE COMMAND receivedsent as aby MME The counter is not incremented in case that the COMMAND is message response to a previously sent S1AP:UE RELEASE COMMAND is to the eNB.ofThe is not ReceptionCONTEXT of an S1AP:E-RAB RELEASE Reception an counter S1AP:E-RAB S1AP:UE CONTEXT RELEASE received as a response to a previously sent incremented in case that the COMMAND or an S1AP:UE CONTEXT RELEASE REQUEST. RELEASE COMMAND or an S1AP:UE CONTEXT REQUEST. S1AP:UE COMMAND messageRELEASE sent by MME to the eNB. S1AP:UE CONTEXT CONTEXT RELEASE RELEASE COMMAND receivedsent as aby MME The counter is not incremented in case that the COMMAND is message response to a previously sent S1AP:UE CONTEXT RELEASE is to the eNB. The counter is not This counter is updated followingCOMMAND the transmission #N/A S1AP:UE CONTEXT RELEASE received as a response to a previously sent incremented in case that the of an S1AP:UE CONTEXT RELEASE REQUEST REQUEST. S1AP:UE CONTEXT RELEASE message sent by the eNB to the REQUEST. MME. The counter S1AP:UE CONTEXT RELEASE COMMAND is received as a is incremented with the number of E-RABs The counter is updated if the release cause does response to a previously sent released with the TNL cause "TNL Unspecified" Thismatch measurement isfailure obtained by sampling the This measurement is RELEASE obtained by not any other counter. S1AP:UE CONTEXT (3GPP 36.413). numberTS of simultaneous E-RABs with QCI 1 sampling the number of REQUEST. characteristics at a pre-defined interval (1 sec) and simultaneous E-RABs with QCI 1 then adding up these sample values over the characteristics at a pre-defined The counter is updated if the measurement period. interval (1 sec) and is then addingany release cause does not match This measurement is obtained by sampling the This measurement obtained byup these sample values over the other failure counter. number of simultaneous E-RABs with QCI 2 sampling the number of period. with QCI 2 characteristics at a pre-defined interval (1 sec) and measurement simultaneous E-RABs then adding up these sample values over the characteristics at a pre-defined measurement period. interval (1 sec) and is then addingbyup This measurement is obtained by sampling the This measurement obtained these sample values over number of simultaneous E-RABs with QCI 3 sampling the number of the period. with QCI 3 characteristics at a pre-defined interval (1 sec) and measurement simultaneous E-RABs then adding up these sample values over the measurement period. This measurement is obtained by sampling the
characteristics at a pre-defined interval (1 sec) and is then addingbyup This measurement obtained these sample values over number of simultaneous E-RABs with QCI 4 sampling the number of the period. with QCI 4 characteristics at a pre-defined interval (1 sec) and measurement simultaneous E-RABs then adding up these sample values over the characteristics at a pre-defined measurement period. interval (1 sec) and is then addingbyup This measurement is obtained by sampling the This measurement obtained these sample values over number of simultaneous E-RABs with QCI 5 sampling the number of the period. with QCI 5 characteristics at a pre-defined interval (1 sec) and measurement simultaneous E-RABs then adding up these sample values over the measurement period. This measurement is obtained by sampling the
characteristics at a pre-defined interval (1 sec) and is then addingbyup This measurement obtained these sample values over number of simultaneous E-RABs with QCI 6 sampling the number of the period. with QCI 6 characteristics at a pre-defined interval (1 sec) and measurement simultaneous E-RABs then adding up these sample values over the characteristics at a pre-defined measurement period. interval (1 sec) and is then addingbyup This measurement is obtained by sampling the This measurement obtained these sample values over number of simultaneous E-RABs with QCI 7 sampling the number of the period. with QCI 7 characteristics at a pre-defined interval (1 sec) and measurement simultaneous E-RABs then adding up these sample values over the measurement period.
characteristics at a pre-defined interval (1 sec) and then adding up these sample values over the measurement period.
This measurement is obtained by sampling the number of simultaneous E-RABs with QCI 8 characteristics at a pre-defined interval (1 sec) and then adding up these sample values over the measurement period. This measurement is obtained by sampling the
This measurement is obtained by sampling the number of simultaneous E-RABs with QCI 8 characteristics at a pre-defined interval (1 sec) and is then addingbyup This measurement obtained these sample values over number of simultaneous E-RABs with QCI 9 sampling the number of the period. with QCI 9 characteristics at a pre-defined interval (1 sec) and measurement simultaneous E-RABs then adding up these sample values over the characteristics at a pre-defined measurement period. (1 sec) and then adding up This counter is incremented when the check for the interval This counter is incremented when these sample values over the respective sampling counters for the number of the check for the respective measurement period. simultaneous E-RABs sampling counters for the number (SUM_SIMUL_ERAB_QCI_x) is done.
of simultaneous E-RABs Reception of an S1AP:E-RAB MODIFY REQUEST (SUM_SIMUL_ERAB_QCI_x) Reception of an S1AP:E-RAB is message sent by MME to the eNB. The counter is done. MODIFY REQUEST message sent incremented by the number of QCI1 bearers by MME to the eNB. The counter is contained in the "E-RAB to be Modified List" IE incremented by the number of QCI1 (3GPP TS 36.413). contained in the "E-RAB to Reception of an S1AP:E-RAB MODIFY REQUEST bearers Reception of an S1AP:E-RAB be Modified List" IE TS sent message sent by MME to the eNB. The counter is MODIFY REQUEST(3GPP message 36.413). incremented by the number of QCI2 bearers by MME to the eNB. The counter is contained in the "E-RAB to be Modified List" IE incremented by the number of QCI2 (3GPP TS 36.413). contained in the "E-RAB to Reception of an S1AP:E-RAB MODIFY REQUEST bearers Reception of an S1AP:E-RAB be Modified List" IE TS sent message sent by MME to the eNB. The counter is MODIFY REQUEST(3GPP message 36.413). incremented by the number of QCI3 bearers by MME to the eNB. The counter is contained in the "E-RAB to be Modified List" IE incremented by the number of QCI3 (3GPP TS 36.413). contained in the "E-RAB to Reception of an S1AP:E-RAB MODIFY REQUEST bearers Reception of an S1AP:E-RAB be Modified List" IE TS sent message sent by MME to the eNB. The counter is MODIFY REQUEST(3GPP message 36.413). incremented by the number of QCI4 bearers by MME to the eNB. The counter is contained in the "E-RAB to be Modified List" IE incremented by the number of QCI4 (3GPP TS 36.413). contained in the "E-RAB to Reception of an S1AP:E-RAB MODIFY REQUEST bearers Reception of an S1AP:E-RAB be Modified List" IE TS sent message sent by MME to the eNB. The counter is MODIFY REQUEST(3GPP message 36.413). incremented by the number of QCI5 bearers by MME to the eNB. The counter is contained in the "E-RAB to be Modified List" IE incremented by the number of QCI5 (3GPP TS 36.413). contained in the "E-RAB to Reception of an S1AP:E-RAB MODIFY REQUEST bearers Reception of an S1AP:E-RAB be Modified List" IE TS sent message sent by MME to the eNB. The counter is MODIFY REQUEST(3GPP message 36.413). incremented by the number of QCI6 bearers by MME to the eNB. The counter is contained in the "E-RAB to be Modified List" IE incremented by the number of QCI6 (3GPP TS 36.413). contained in the "E-RAB to Reception of an S1AP:E-RAB MODIFY REQUEST bearers Reception of an S1AP:E-RAB be Modified List" IE TS sent message sent by MME to the eNB. The counter is MODIFY REQUEST(3GPP message 36.413). incremented by the number of QCI7 bearers by MME to the eNB. The counter is contained in the "E-RAB to be Modified List" IE incremented by the number of QCI7 (3GPP TS 36.413). contained in the "E-RAB to Reception of an S1AP:E-RAB MODIFY REQUEST bearers Reception of an S1AP:E-RAB be Modified List" IE TS sent message sent by MME to the eNB. The counter is MODIFY REQUEST(3GPP message 36.413). incremented by the number of QCI8 bearers by MME to the eNB. The counter is contained in the "E-RAB to be Modified List" IE incremented by the number of QCI8 (3GPP TS 36.413). contained in the "E-RAB to Reception of an S1AP:E-RAB MODIFY REQUEST bearers Reception of an S1AP:E-RAB be Modified List" IE TS sent message sent by MME to the eNB. The counter is MODIFY REQUEST(3GPP message 36.413). incremented by the number of QCI9 bearers by MME to the eNB. The counter is contained in the "E-RAB to be Modified List" IE incremented by the number of QCI9 (3GPP TS 36.413). bearers contained in the "E-RAB to be Modified List" IE (3GPP TS 36.413).
Transmission of an S1AP:E-RAB MODIFY RESPONSE message sent by eNB to the MME. The counter is incremented by the number of QCI1 bearers contained in the "E-RAB Modify List".
Transmission of an S1AP:E-RAB MODIFY RESPONSE message sent by eNB to the MME. The counter is incremented by the number of QCI1 bearers contained Transmission of an S1AP:E-RAB in the "E-RAB Modify List". MODIFY RESPONSE message
Transmission of an S1AP:E-RAB MODIFY RESPONSE message sent by eNB to the MME. The counter is incremented by the number of QCI2 sent by eNB to the MME. The bearers contained in the "E-RAB Modify List". counter is incremented by the number of QCI2 bearers contained Transmission of an S1AP:E-RAB MODIFY Transmission of an S1AP:E-RAB in the "E-RAB Modify List". RESPONSE message sent by eNB to the MME. MODIFY RESPONSE message The counter is incremented by the number of QCI3 sent by eNB to the MME. The bearers contained in the "E-RAB Modify List". counter is incremented by the number of QCI3 bearers contained Transmission of an S1AP:E-RAB MODIFY Transmission of an S1AP:E-RAB in the "E-RAB Modify List". RESPONSE message sent by eNB to the MME. MODIFY RESPONSE message The counter is incremented by the number of QCI4 sent by eNB to the MME. The bearers contained in the "E-RAB Modify List". counter is incremented by the number of QCI4 bearers contained Transmission of an S1AP:E-RAB MODIFY Transmission of an S1AP:E-RAB in the "E-RAB Modify List". RESPONSE message sent by eNB to the MME. MODIFY RESPONSE message The counter is incremented by the number of QCI5 sent by eNB to the MME. The bearers contained in the "E-RAB Modify List". counter is incremented by the number of QCI5 bearers contained Transmission of an S1AP:E-RAB MODIFY Transmission of an S1AP:E-RAB in the "E-RAB Modify List". RESPONSE message sent by eNB to the MME. MODIFY RESPONSE message The counter is incremented by the number of QCI6 sent by eNB to the MME. The bearers contained in the "E-RAB Modify List". counter is incremented by the number of QCI6 bearers contained Transmission of an S1AP:E-RAB MODIFY Transmission of an S1AP:E-RAB in the "E-RAB Modify List". RESPONSE message sent by eNB to the MME. MODIFY RESPONSE message The counter is incremented by the number of QCI7 sent by eNB to the MME. The bearers contained in the "E-RAB Modify List". counter is incremented by the number of QCI7 bearers contained Transmission of an S1AP:E-RAB MODIFY Transmission of an S1AP:E-RAB in the "E-RAB Modify List". RESPONSE message sent by eNB to the MME. MODIFY RESPONSE message The counter is incremented by the number of QCI8 sent by eNB to the MME. The bearers contained in the "E-RAB Modify List". counter is incremented by the number of QCI8 bearers contained Transmission of an S1AP:E-RAB MODIFY Transmission of an S1AP:E-RAB in the "E-RAB Modify List". RESPONSE message sent by eNB to the MME. MODIFY RESPONSE message The counter is incremented by the number of QCI9 sent by eNB to the MME. The bearers contained in the "E-RAB Modify List". counter is incremented by the number of QCI9 bearers contained Transmission of an S1AP:E-RAB MODIFY Transmission of an S1AP:E-RAB in the "E-RAB Modify List". RESPONSE message sent by eNB to the MME. MODIFY RESPONSE message The counter is incremented by the number of bearers contained in the "E-RAB Failed To Modify List" with the RNL "Failure in the Radio Transmission of ancause S1AP:E-RAB MODIFY Interface Procedure" (3GPP TS 36.413). RESPONSE message sent by eNB to the MME. The counter is incremented by the number of bearers contained in the "E-RAB Failed To Modify List" with the RNL "Not supported QCI Transmission of ancause S1AP:E-RAB MODIFY Value" (3GPP TS 36.413). RESPONSE message sent by eNB to the MME. The counter is incremented by the number of bearers contained in the "E-RAB Failed To Modify List" with the RNL cause "Unspecified" (3GPP TS 36.413).
sent by eNB to the MME. The counter is incremented by the number of bearers in the Transmission of an contained S1AP:E-RAB "E-RAB Failed To Modify List" with MODIFY RESPONSE message the RNL cause "Failure in the Radio sent by eNB to the MME. The Interface (3GPP counter isProcedure" incremented by theTS 36.413). number of bearers in the Transmission of an contained S1AP:E-RAB "E-RAB Failed To Modify List" with MODIFY RESPONSE message the RNL cause "Not supported sent by eNB to the MME. The QCI Value" TS 36.413). counter(3GPP is incremented by the number of bearers contained in the "E-RAB Failed To Modify List" with the RNL cause "Unspecified" (3GPP TS 36.413).
The reception of an S1AP:E-RAB Release Command or an S1AP:UE Context Release Command message sent by the MME to eNB.
The reception of an S1AP:E-RAB Release Command or an S1AP:UE Context Release Command message sent by the MME to eNB.
The reception of an S1AP:E-RAB Release Command or an S1AP:UE Context Release Command message sent by the MME to eNB.
The reception of an S1AP:E-RAB Release Command or an S1AP:UE Context Release Command message sent by the MME to eNB.
The reception of an S1AP:E-RAB Release Command or an S1AP:UE Context Release Command message sent by the MME to eNB.
The reception of an S1AP:E-RAB Release Command or an S1AP:UE Context Release Command message sent by the MME to eNB.
The reception of an S1AP:E-RAB Release Command or an S1AP:UE Context Release Command message sent by the MME to eNB.The counter is updated if the release request detected does not match any other failure counter. This counter is updated following the transmission
The reception of an S1AP:E-RAB Release Command or an S1AP:UE Context Release Command message sent by the MME to eNB.The counter is updated if the #N/A release request detected does not of an S1AP:UE CONTEXT RELEASE REQUEST match any other failure counter. message sent by the eNB to the MME. The counter is incremented with the number of QCI1 E-RABs released with must the TNL "TNL Unspecified" The counters be cause updated in case that user The counters must be updated in (3GPP TS 36.413). data are buffered (UL/DL) for an E-RAB with QCI1 case that user data are buffered characteristics and the "S1AP UE Context Release Request" message is sent by eNB to the MME with the cause Radio Connection Therelease counters must"RNL be updated in case thatwith userUE lost". data are buffered (UL/DL) for an E-RAB with QCI2
(UL/DL) for an E-RAB with QCI1 characteristics and the "S1AP UE Context Release Request" The counters must be updated in message is sent by eNBbuffered to the case that user data are MME with the release cause "RNL characteristics and the "S1AP UE Context Release (UL/DL) for an E-RAB with QCI2 Radio Connection with UE lost". Request" message is sent by eNB to the MME with characteristics and the "S1AP UE the cause Radio Connection Release Request" Therelease counters must"RNL be updated in case thatwith userUE Context The counters must be updated in lost". message is sent by eNBbuffered to the data are buffered (UL/DL) for an E-RAB with QCI3 case that user data are MME with the release cause "RNL characteristics and the "S1AP UE Context Release (UL/DL) for an E-RAB with QCI3 Radio Connection with UE lost". Request" message is sent by eNB to the MME with characteristics and the "S1AP UE the cause Radio Connection Therelease counters must"RNL be updated in case thatwith userUE lost". data are buffered (UL/DL) for an E-RAB with QCI4
Context Release Request" The counters must be updated in message is sent by eNBbuffered to the case that user data are MME with the release cause "RNL characteristics and the "S1AP UE Context Release (UL/DL) for an E-RAB with QCI4 Radio Connection with UE lost". Request" message is sent by eNB to the MME with characteristics and the "S1AP UE the cause Radio Connection Release Request" Therelease counters must"RNL be updated in case thatwith userUE Context The counters must be updated in lost". message is sent by eNBbuffered to the data are buffered (UL/DL) for an E-RAB with non- case that user data are MME with the release cause "RNL GBR characteristics (QCI5...9) and the "S1AP UE (UL/DL) for an E-RAB with nonRadio Connection with UE lost". Context Release Request" message is sent by GBR characteristics (QCI5...9) and eNB the MME withtransferred the releasethe cause "RNL Whentouser data are in-session Radio Connection with UE lost". activity time is aggregated during the E-RAB lifetime. At the end of the measurement period and when E-RAB is released the sum counter for all ERABs characteristics be updated. When with userQCI1 data are transferred shall the in-session activity time is aggregated during the E-RAB lifetime. At the end of the measurement period and when E-RAB is released the sum counter for all ERABs with QCI2 characteristics shall be updated.
the "S1AP Context Release the When userUE data are transferred Request" message is sent in-session activity time is by eNB to the MME during with thethe release aggregated E-RABcause "RNL Radio Connection lifetime. At the end of thewith UE lost". measurement period and when EWhen user data are transferred the RAB is released the sum in-session activity time is counter for all E-RABs with the QCI1 aggregated during E-RAB characteristics shall updated. lifetime. At the end ofbethe measurement period and when ERAB is released the sum counter for all E-RABs with QCI2 characteristics shall be updated.
When user data are transferred the in-session activity time is aggregated during the E-RAB lifetime. At the end of the measurement period and when E-RAB is released the sum counter for all ERABs characteristics be updated. When with userQCI3 data are transferred shall the in-session
When user data are transferred the in-session activity time is aggregated during the E-RAB lifetime. At the end of the measurement period and when EWhen user data are transferred the RAB is released the sum activity time is aggregated during the E-RAB in-session activity time is counter all E-RABs with the QCI3 lifetime. At the end of the measurement period and for aggregated during E-RAB characteristics shall updated. when E-RAB is released the sum counter for all E- lifetime. At the end ofbethe RABs characteristics be updated. measurement period and when EWhen with userQCI4 data are transferred shall the in-session When user data are transferred the RAB is released the sum activity time is aggregated during the E-RAB in-session activity time is counter all E-RABs with the QCI4 lifetime. At the end of the measurement period and for aggregated during E-RAB characteristics shall updated. when E-RAB is released the sum counter for all E- lifetime. At the end ofbethe RABs with non-GBR characteristicsCONTEXT (QCI5..9) shall The reception of an S1AP:INITIAL be updated. SETUP message or of an S1AP:E-RAB SETUP
measurement period and when EThe reception of an S1AP:INITIAL RAB is released the sum counter CONTEXT SETUP message or of for all E-RABs with non-GBR REQUEST message in case that these messages an S1AP:E-RAB SETUP (QCI5..9) shallthat be contain an ARP (Allocation and Retention Priority) characteristics REQUEST message in case updated. priority level valueofthat used to indicate a high these messages contain an ARP The transmission theisS1AP:E-RAB SETUP The transmission of the S1AP:Epriority call (3GPP TS 36.413). (Allocation and Retention RESPONSE or S1AP:INITIAL CONTEXT RAB SETUP RESPONSEPriority) or level value that is used to RESPONSE message in case their "E-RAB Setup priority S1AP:INITIAL CONTEXT indicate a high priority call (3GPP List" IEs contain E-RAB IDs of bearers for high RESPONSE message in case their TS 36.413). priority calls. "E-RAB Setup List" IEs contain Reception of an S1AP:INITIAL CONTEXT SETUP Reception of an S1AP:INITIAL EIDs of SETUP bearersREQUEST for high priority REQUEST message sent by the MME to the eNB. RAB CONTEXT calls. The counter is updated with the number of QCI1 message sent by the MME to the bearers contained in the "E-RAB to Be Setup List" eNB. The counter is updated with IE. numberofofan QCI1 bearers Reception of an S1AP:INITIAL CONTEXT SETUP the Reception S1AP:INITIAL contained in the "E-RAB to Be REQUEST message sent by the MME to the eNB. CONTEXT SETUP REQUEST Setup List" IE. The counter is updated with the number of QCI2 message sent by the MME to the bearers contained in the "E-RAB to Be Setup List" IE. Reception of an S1AP:INITIAL CONTEXT SETUP
eNB. The counter is updated with the numberofofan QCI2 bearers Reception S1AP:INITIAL contained in the "E-RAB to Be REQUEST message sent by the MME to the eNB. CONTEXT SETUP REQUEST Setup List" IE. The counter is updated with the number of QCI3 message sent by the MME to the bearers contained in the "E-RAB to Be Setup List" eNB. The counter is updated with IE. numberofofan QCI3 bearers Reception of an S1AP:INITIAL CONTEXT SETUP the Reception S1AP:INITIAL contained in the "E-RAB to Be REQUEST message sent by the MME to the eNB. CONTEXT SETUP REQUEST Setup List" IE. The counter is updated with the number of QCI4 message sent by the MME to the bearers contained in the "E-RAB to Be Setup List" IE. Reception of an S1AP:INITIAL CONTEXT SETUP
eNB. The counter is updated with the numberofofan QCI4 bearers Reception S1AP:INITIAL contained in the "E-RAB to Be REQUEST message sent by the MME to the eNB. CONTEXT SETUP REQUEST Setup List" IE. The counter is updated with the number of QCI5 message sent by the MME to the bearers contained in the "E-RAB to Be Setup List" eNB. The counter is updated with IE. numberofofan QCI5 bearers Reception of an S1AP:INITIAL CONTEXT SETUP the Reception S1AP:INITIAL contained in the "E-RAB to Be REQUEST message sent by the MME to the eNB. CONTEXT SETUP REQUEST Setup List" IE. The counter is updated with the number of QCI6 message sent by the MME to the bearers contained in the "E-RAB to Be Setup List" IE. Reception of an S1AP:INITIAL CONTEXT SETUP
eNB. The counter is updated with the numberofofan QCI6 bearers Reception S1AP:INITIAL contained in the "E-RAB to Be REQUEST message sent by the MME to the eNB. CONTEXT SETUP REQUEST Setup List" IE. The counter is updated with the number of QCI7 message sent by the MME to the bearers contained in the "E-RAB to Be Setup List" eNB. The counter is updated with IE. the number of QCI7 bearers contained in the "E-RAB to Be Setup List" IE.
Reception of an S1AP:INITIAL CONTEXT SETUP REQUEST message sent by the MME to the eNB. The counter is updated with the number of QCI8 bearers contained in the "E-RAB to Be Setup List" IE. Reception of an S1AP:INITIAL CONTEXT SETUP
Reception of an S1AP:INITIAL CONTEXT SETUP REQUEST message sent by the MME to the eNB. The counter is updated with the numberofofan QCI8 bearers Reception S1AP:INITIAL contained in the "E-RAB to Be REQUEST message sent by the MME to the eNB. CONTEXT SETUP REQUEST Setup List" IE. The counter is updated with the number of QCI9 message sent by the MME to the bearers contained in the "E-RAB to Be Setup List" eNB. The counter is updated with IE. numberofofan QCI9 bearers Reception of an S1AP:E-RAB SETUP REQUEST the Reception S1AP:E-RAB contained in the "E-RAB to Besent message sent by the MME to the eNB. The counter SETUP REQUEST message Setup List" IE. is updated with the number of QCI1 bearers by the MME to the eNB. The contained in the "E-RAB to Be Setup List" IE.
counter is updated with the number QCI1 bearers contained in the Reception of an S1AP:E-RAB SETUP REQUEST of Reception of an S1AP:E-RAB "E-RAB to Be Setup List" IE. sent message sent by the MME to the eNB. The counter SETUP REQUEST message is updated with the number of QCI2 bearers by the MME to the eNB. The contained in the "E-RAB to Be Setup List" IE. counter is updated with the number QCI2 bearers contained in the Reception of an S1AP:E-RAB SETUP REQUEST of Reception of an S1AP:E-RAB "E-RAB to Be Setup List" IE. sent message sent by the MME to the eNB. The counter SETUP REQUEST message is updated with the number of QCI3 bearers contained in the "E-RAB to Be Setup List" IE.
by the MME to the eNB. The counter is updated with the number QCI3 bearers contained in the Reception of an S1AP:E-RAB SETUP REQUEST of Reception of an S1AP:E-RAB "E-RAB to Be Setup List" IE. sent message sent by the MME to the eNB. The counter SETUP REQUEST message is updated with the number of QCI4 bearers by the MME to the eNB. The contained in the "E-RAB to Be Setup List" IE. counter is updated with the number QCI4 bearers contained in the Reception of an S1AP:E-RAB SETUP REQUEST of Reception of an S1AP:E-RAB "E-RAB to Be Setup List" IE. sent message sent by the MME to the eNB. The counter SETUP REQUEST message is updated with the number of QCI5 bearers contained in the "E-RAB to Be Setup List" IE.
by the MME to the eNB. The counter is updated with the number QCI5 bearers contained in the Reception of an S1AP:E-RAB SETUP REQUEST of Reception of an S1AP:E-RAB "E-RAB to Be Setup List" IE. sent message sent by the MME to the eNB. The counter SETUP REQUEST message is updated with the number of QCI6 bearers by the MME to the eNB. The contained in the "E-RAB to Be Setup List" IE. counter is updated with the number QCI6 bearers contained in the Reception of an S1AP:E-RAB SETUP REQUEST of Reception of an S1AP:E-RAB "E-RAB to Be Setup List" IE. sent message sent by the MME to the eNB. The counter SETUP REQUEST message is updated with the number of QCI7 bearers contained in the "E-RAB to Be Setup List" IE.
by the MME to the eNB. The counter is updated with the number QCI7 bearers contained in the Reception of an S1AP:E-RAB SETUP REQUEST of Reception of an S1AP:E-RAB "E-RAB to Be Setup List" IE. sent message sent by the MME to the eNB. The counter SETUP REQUEST message is updated with the number of QCI8 bearers by the MME to the eNB. The contained in the "E-RAB to Be Setup List" IE. counter is updated with the number QCI8 bearers contained in the Reception of an S1AP:E-RAB SETUP REQUEST of Reception of an S1AP:E-RAB "E-RAB to Be Setup List" IE. sent message sent by the MME to the eNB. The counter SETUP REQUEST message is updated with the number of QCI9 bearers contained in the "E-RAB to Be Setup List" IE. Transmission of an S1AP:INITIAL CONTEXT SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI1 bearers contained in the "E-RAB Setup List" IE.
by the MME to the eNB. The counter is updated with the number of QCI9 bearers contained in the Transmission of an S1AP:INITIAL "E-RAB to Be Setup List" IE. CONTEXT SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI1 bearers contained in the "E-RAB Setup List" IE.
Transmission of an S1AP:INITIAL CONTEXT SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI2 bearers contained the "E-RAB Setup List" IE. Transmission of aninS1AP:INITIAL CONTEXT SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI3 bearers contained the "E-RAB Setup List" IE. Transmission of aninS1AP:INITIAL CONTEXT SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI4 bearers contained the "E-RAB Setup List" IE. Transmission of aninS1AP:INITIAL CONTEXT SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI5 bearers contained the "E-RAB Setup List" IE. Transmission of aninS1AP:INITIAL CONTEXT SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI6 bearers contained the "E-RAB Setup List" IE. Transmission of aninS1AP:INITIAL CONTEXT SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI7 bearers contained the "E-RAB Setup List" IE. Transmission of aninS1AP:INITIAL CONTEXT SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI8 bearers contained the "E-RAB Setup List" IE. Transmission of aninS1AP:INITIAL CONTEXT SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI9 bearers contained the "E-RAB Setup List" IE. Transmission of aninS1AP:E-RAB SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI1 bearers contained in the "E-RAB Setup List" IE. Transmission of an S1AP:E-RAB SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI2 bearers contained in the "E-RAB Setup List" IE. Transmission of an S1AP:E-RAB SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI3 bearers contained in the "E-RAB Setup List" IE. Transmission of an S1AP:E-RAB SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI4 bearers contained in the "E-RAB Setup List" IE.
Transmission of an S1AP:INITIAL CONTEXT SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI2 bearers contained Transmission of an S1AP:INITIAL in the "E-RAB Setup List" IE. CONTEXT SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI3 bearers contained Transmission of an S1AP:INITIAL in the "E-RAB Setup List" IE. CONTEXT SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI4 bearers contained Transmission of an S1AP:INITIAL in the "E-RAB Setup List" IE. CONTEXT SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI5 bearers contained Transmission of an S1AP:INITIAL in the "E-RAB Setup List" IE. CONTEXT SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI6 bearers contained Transmission of an S1AP:INITIAL in the "E-RAB Setup List" IE. CONTEXT SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI7 bearers contained Transmission of an S1AP:INITIAL in the "E-RAB Setup List" IE. CONTEXT SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI8 bearers contained Transmission of an S1AP:INITIAL in the "E-RAB Setup List" IE. CONTEXT SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI9 bearers contained Transmission of an S1AP:E-RAB in the "E-RAB Setup List" IE. sent SETUP RESPONSE message by eNB to the MME. The counter is updated with the number of QCI1 bearers contained the "E-RAB Transmission of aninS1AP:E-RAB Setup List" IE. SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI2 bearers contained the "E-RAB Transmission of aninS1AP:E-RAB Setup List" IE. SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI3 bearers contained the "E-RAB Transmission of aninS1AP:E-RAB Setup List" IE. SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI4 bearers contained in the "E-RAB Setup List" IE.
Transmission of an S1AP:E-RAB SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI5 bearers contained in the "E-RAB Setup List" IE. Transmission of an S1AP:E-RAB SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI6 bearers contained in the "E-RAB Setup List" IE. Transmission of an S1AP:E-RAB SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI7 bearers contained in the "E-RAB Setup List" IE. Transmission of an S1AP:E-RAB SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI8 bearers contained in the "E-RAB Setup List" IE. Transmission of an S1AP:E-RAB SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI9 bearers contained in the "E-RAB Setup List" IE. This measurement is obtained by sampling the number of simultaneous E-RABs with QCI1 characteristics at a pre-defined interval (1 sec). The counter is updated if the current number of simultaneous E-RABs is higherby than the stored This measurement is obtained sampling the maximum. number of simultaneous E-RABs with QCI2 characteristics at a pre-defined interval (1 sec). The counter is updated if the current number of simultaneous E-RABs is higherby than the stored This measurement is obtained sampling the maximum. number of simultaneous E-RABs with QCI3 characteristics at a pre-defined interval (1 sec). The counter is updated if the current number of simultaneous E-RABs is higherby than the stored This measurement is obtained sampling the maximum. number of simultaneous E-RABs with QCI4 characteristics at a pre-defined interval (1 sec). The counter is updated if the current number of simultaneous E-RABs is higherby than the stored This measurement is obtained sampling the maximum. number of simultaneous E-RABs with QCI5 characteristics at a pre-defined interval (1 sec). The counter is updated if the current number of simultaneous E-RABs is higherby than the stored This measurement is obtained sampling the maximum. number of simultaneous E-RABs with QCI6 characteristics at a pre-defined interval (1 sec). The counter is updated if the current number of simultaneous E-RABs is higherby than the stored This measurement is obtained sampling the maximum. number of simultaneous E-RABs with QCI7 characteristics at a pre-defined interval (1 sec). The counter is updated if the current number of simultaneous E-RABs is higher than the stored maximum.
Transmission of an S1AP:E-RAB SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI5 bearers contained the "E-RAB Transmission of aninS1AP:E-RAB Setup List" IE. SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI6 bearers contained the "E-RAB Transmission of aninS1AP:E-RAB Setup List" IE. SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI7 bearers contained the "E-RAB Transmission of aninS1AP:E-RAB Setup List" IE. SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI8 bearers contained the "E-RAB Transmission of aninS1AP:E-RAB Setup List" IE. SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI9 bearers contained inis the "E-RAB This measurement obtained by Setup List" IE. sampling the number of simultaneous E-RABs with QCI1 characteristics at a pre-defined interval (1 sec). Theiscounter is by This measurement obtained updated if the current number of sampling the number of simultaneous E-RABs is higher simultaneous E-RABs with QCI2 than the storedat maximum. characteristics a pre-defined interval (1 sec). Theiscounter is by This measurement obtained updated if the current number of sampling the number of simultaneous E-RABs is higher simultaneous E-RABs with QCI3 than the storedat maximum. characteristics a pre-defined interval (1 sec). Theiscounter is by This measurement obtained updated if the current number of sampling the number of simultaneous E-RABs is higher simultaneous E-RABs with QCI4 than the storedat maximum. characteristics a pre-defined interval (1 sec). Theiscounter is by This measurement obtained updated if the current number of sampling the number of simultaneous E-RABs is higher simultaneous E-RABs with QCI5 than the storedat maximum. characteristics a pre-defined interval (1 sec). Theiscounter is by This measurement obtained updated if the current number of sampling the number of simultaneous E-RABs is higher simultaneous E-RABs with QCI6 than the storedat maximum. characteristics a pre-defined interval (1 sec). Theiscounter is by This measurement obtained updated if the current number of sampling the number of simultaneous E-RABs is higher simultaneous E-RABs with QCI7 than the storedat maximum. characteristics a pre-defined interval (1 sec). The counter is updated if the current number of simultaneous E-RABs is higher than the stored maximum.
This measurement is obtained by sampling the number of simultaneous E-RABs with QCI8 characteristics at a pre-defined interval (1 sec). The counter is updated if the current number of simultaneous E-RABs is higherby than the stored This measurement is obtained sampling the maximum. number of simultaneous E-RABs with QCI9 characteristics at a pre-defined interval (1 sec). The counter is updated if the current number of simultaneous higher than the stored The counter isE-RABs updatedisby the arithmetic mean of maximum. the samples at the pre-defined interval (1 sec).
This measurement is obtained by sampling the number of simultaneous E-RABs with QCI8 characteristics at a pre-defined interval (1 sec). Theiscounter is by This measurement obtained updated if the current number of sampling the number of simultaneous E-RABs is higher simultaneous E-RABs with QCI9 than the storedat maximum. characteristics a pre-defined interval (1 sec). The counter is The counter is updated by the updated if the current number ofat arithmetic mean of the samples simultaneous E-RABs is higher the pre-defined interval (1 sec). than the stored maximum.
The counter is updated by the arithmetic mean of the samples at the pre-defined interval (1 sec).
The counter is updated by the arithmetic mean of the samples at the pre-defined interval (1 sec).
The counter is updated by the arithmetic mean of the samples at the pre-defined interval (1 sec).
The counter is updated by the arithmetic mean of the samples at the pre-defined interval (1 sec).
The counter is updated by the arithmetic mean of the samples at the pre-defined interval (1 sec).
The counter is updated by the arithmetic mean of the samples at the pre-defined interval (1 sec).
This counter is updated following the transmission of an S1AP:E-RAB MODIFY RESPONSE message sent by the eNB to the MME. The counter is incremented by the number of bearers contained in the To Modify List" the withtransmission the RNL This"E-RAB counterFailed is updated following cause "Radio resources not available" (3GPP TS of an S1AP:E-RAB MODIFY RESPONSE message 36.413). sent by the eNB to the MME. The counter is
This counter is updated following the transmission of an S1AP:ERAB MODIFY RESPONSE message sent by the eNB to the MME. The counter is incremented This counter is updated following by the number of bearers contained the transmission of an S1AP:Ein the "E-RAB Failed To Modify List" RAB MODIFY RESPONSE with the RNL cause "Radio message sent by the eNB to the resources available" (3GPP TS MME. The not counter is incremented The counter is updated in case that 36.413). by thedata number of bearers contained user are buffered (UL/DL) for in the "E-RAB Failed To Modify List" an E-RAB with QCI5 characteristics with the TNL cause "Transport and the "S1AP UE Context Release Resource Unavailable" (3GPP TS Request" message is sent by eNB The counter is updated in case that 36.413). to thedata MME with the release cause user are buffered (UL/DL) for "RNL Radiowith Connection with UE an E-RAB QCI6 characteristics lost". and the "S1AP UE Context Release
incremented by the number of bearers contained in the To Modify List" with thedata TNLare The"E-RAB counterFailed is updated in case that user cause "Transport Resource Unavailable" (3GPP buffered (UL/DL) for an E-RAB with QCI5 TS 36.413). and the "S1AP UE Context Release characteristics Request" message is sent by eNB to the MME with the "RNLin Radio withare UE Therelease countercause is updated caseConnection that user data lost". buffered (UL/DL) for an E-RAB with QCI6 characteristics and the "S1AP UE Context Release Request" message is sent by eNB to the MME with the "RNLin Radio withare UE Therelease countercause is updated caseConnection that user data lost". buffered (UL/DL) for an E-RAB with QCI7
Request" message is sent by eNB The counter is updated in case that to the MME with the release cause user data are buffered (UL/DL) for Radiowith Connection with UE characteristics and the "S1AP UE Context Release "RNL an E-RAB QCI7 characteristics lost". Request" message is sent by eNB to the MME with and the "S1AP UE Context Release the "RNLin Radio withare UE Request" message is sent by eNB Therelease countercause is updated caseConnection that user data The counter is updated in case that lost". to the MME with the release cause buffered (UL/DL) for an E-RAB with QCI8 user data are buffered (UL/DL) for Radiowith Connection with UE characteristics and the "S1AP UE Context Release "RNL an E-RAB QCI8 characteristics lost". Request" message is sent by eNB to the MME with and the "S1AP UE Context Release the release cause "RNL Radio Connection with UE Request" message is sent by eNB lost". to the MME with the release cause "RNL Radio Connection with UE lost".
The counter is updated in case that user data are buffered (UL/DL) for an E-RAB with QCI9 characteristics and the "S1AP UE Context Release Request" message is sent by eNB to the MME with the "RNL following Radio Connection with UE Thisrelease countercause is updated the transmission lost". of an S1AP:INITIAL CONTEXT SETUP
The counter is updated in case that user data are buffered (UL/DL) for an E-RAB with QCI9 characteristics and the "S1AP UE Context Release Request" message is sent by eNB This counter is updated following to the MME with the release cause the transmission of an "RNL Radio Connection with UE RESPONSE or an S1AP:INITIAL CONTEXT S1AP:INITIAL CONTEXT SETUP lost". SETUP FAILURE message sent by the eNB to the RESPONSE or an S1AP:INITIAL MME. FAILURE This counter is updated following the transmission CONTEXT This counterSETUP is updated following message sent by the of an S1AP:INITIAL CONTEXT SETUP FAILURE the transmission of aneNB to the S1AP:INITIAL RESPONSE: MME. message sent CONTEXT by the eNB SETUP to the MME. S1AP:INITIAL CONTEXT SETUP The counter is incremented by the number of The counter is incremented by the number of FAILURE message sent by the eNB bearers contained in the "E-RAB Failed to Setup S1AP:INITIAL SETUP bearers contained in the "E-RAB to Be Setup List" to thecounter MME. isCONTEXT This counter is updated following the transmission This updated following List" IE with the RNL cause "Radio resources not RESPONSE: IE of the preceding S1AP:INITIAL CONTEXT counter is incremented by the of an S1AP:INITIAL SETUP FAILURE The the transmission of an available" (3GPP TSifCONTEXT 36.413). The counter is incremented byinthe SETUP REQUEST the S1AP:INITIAL CONTEXT number of bearers contained the message sent by the eNB to the MME. S1AP:INITIAL CONTEXT SETUP number of bearers contained inthe the SETUP FAILURE message is sent with the TNL "E-RAB to Be Setup List" IE of The counter is CONTEXT incremented by theFAILURE: number of FAILURE message sent List" by the eNB S1AP:INITIAL SETUP "E-RAB Failed to Setup IE with cause "Transport Resources Unavailable" (3GPP preceding S1AP:INITIAL CONTEXT bearers contained in thefollowing "E-RAB Be Setup the MME. The counter is by theto number of List" to the RNL cause "Radio resources This counter is incremented updated the transmission This counter is updated following TS 36.413). SETUP REQUEST if the IE of the precedinginS1AP:INITIAL counter is(3GPP incremented by the bearers contained the "E-RABSETUP toCONTEXT Be Setup List" The not available" TS 36.413). of an S1AP:INITIAL CONTEXT FAILURE the transmission of an S1AP:INITIAL CONTEXT SETUP SETUP REQUEST if the S1AP:INITIAL CONTEXT number of bearers contained in the IE of the preceding S1AP:INITIAL CONTEXT message sent by the eNB to the MME. S1AP:INITIAL CONTEXT SETUP FAILURE message isList" sentIE with the FAILURE message is sent with the RNL "E-RAB to Be Setup of SETUP REQUEST if the S1AP:INITIAL CONTEXT S1AP:INITIAL CONTEXT SETUP The counter is incremented by the number of FAILURE message sent by the the eNB TNL cause "Transport Resources cause "Radio Connection with UEtolost" (3GPP TS preceding S1AP:INITIAL CONTEXT SETUP FAILURE message is sent with the RNL FAILURE: bearers contained in thefollowing "E-RAB Be Setup List" to thecounter MME. Unavailable" (3GPP This counter is updated the transmission This is updated following 36.413). SETUP REQUEST ifTS the36.413). cause "Radio resources not available" (3GPP TS The counter is incremented by IE of the preceding S1AP:INITIAL CONTEXT The counter is incremented by the the of an S1AP:E-RAB SETUP RESPONSE message the transmission of an S1AP:ES1AP:INITIAL CONTEXT SETUP 36.413).REQUEST if the S1AP:INITIAL CONTEXT number number of of bearers bearers contained contained in the the SETUP in sent by the eNB to the MME. The counter is RAB SETUP RESPONSE message FAILURE message isList" sentIE with the "E-RAB to Be Setup of the SETUP FAILURE message is sent with the RNL "E-RAB to Be Setup List" IE of the incremented by the number of bearers contained in sent by theS1AP:INITIAL eNB to Connection the MME. The RNL cause "Radio with preceding CONTEXT cause "Failure in the Radio Interface Procedure" preceding S1AP:INITIAL CONTEXT the "E-RAB Failed to Setup List" IE with the RNL counter is incremented by the UE lost" (3GPP TS 36.413). SETUP REQUEST if the This counter is updated following the transmission This counter is updated following (3GPP TS 36.413). SETUP REQUEST if the cause "Radio resources not RESPONSE available" (3GPP TS number of bearers in the S1AP:INITIAL CONTEXT SETUP of an S1AP:E-RAB SETUP message the transmission of contained an S1AP:ES1AP:INITIAL CONTEXT SETUP 36.413). "E-RAB Failed to Setup List" IE with FAILURE message is sent sent with with the the sent by the eNB to the MME. The counter is RAB SETUP RESPONSE FAILURE message is the RNL cause "Radio resources RNL cause "Radio resources not incremented by the number of bearers contained in message sent by theineNB to the RNL cause "Failure the36.413). Radio not available" (3GPP TS available" (3GPP TS 36.413). the "E-RAB Failed to Setup List" IE with the TNL MME. The counter is incremented Interface Procedure" (3GPP TS This counter is updated following the transmission This counter is updated following cause "Transport Resources Unavailable" (3GPP by the number of bearers contained 36.413). of an S1AP:E-RAB SETUP RESPONSE message the transmission of an S1AP:ETS in theSETUP "E-RABRESPONSE Failed to Setup List" sent36.413). by the eNB to the MME. The counter is RAB message IE with the TNL cause "Transport incremented by the number of bearers contained in sent by the eNB to the MME. The Resources Unavailable"by (3GPP the to Setup List" IE the RNL counter is incremented the TS This"E-RAB counterFailed is updated following thewith transmission This counter is updated following 36.413). cause "Radio Connection UE lost" (3GPP TS number of bearers in the of an S1AP:E-RAB SETUPwith RESPONSE message the transmission of contained an S1AP:E36.413). "E-RAB Failed to Setup List" IE with sent by the eNB to the MME. The counter is RAB SETUP RESPONSE message the RNL cause "Radio Connection incremented by the number of bearers contained in sent by the eNB to the MME. The with UE is lost" (3GPP TS 36.413). the to Setup List" IE the RNL counter incremented the This"E-RAB counterFailed is updated following thewith transmission This counter is updatedby following cause "Failure in the Radio Interface Procedure" number of bearers contained in the of an S1AP:E-RAB SETUP RESPONSE message the transmission of an S1AP:E(3GPP TS 36.413). "E-RAB Failed to Setup List" IE with sent by the eNB to the MME. The counter is RAB SETUP RESPONSE message the RNL cause "Failure in the Radio incremented by the number of bearers contained in sent by the eNB to the MME. The Interface (3GPP the to Setup List" IE the counter isProcedure" incremented theTS This"E-RAB counterFailed is updated following thewith transmission This counter is updatedby following 36.413). Miscellaneous Cause "Not enough User Plane of bearers in the of an S1AP:E-RAB SETUP RESPONSE message number the transmission of contained an S1AP:EProcessing Resources" (3GPP TS 36.413). "E-RAB Failed to Setup List" IE with sent by the eNB to the MME. The counter is RAB SETUP RESPONSE message the Miscellaneous Cause "Not incremented by the number of bearers contained in sent by the eNB to the MME. The enough User Plane Processing the to Setup List" IE the RNL counter is incremented by the This"E-RAB counterFailed is updated following thewith transmission This counter is updated following Resources" (3GPP TS 36.413). causes "S1 Intra System Handover Triggered", "S1 number of bearers contained of an S1AP: E-RAB RELEASE INDICATION or an the transmission of an S1AP: in E-the inter system Handover triggered", "X2 Handover "E-RAB Failed to Setup List" IE S1AP:UE CONTEXT RELEASE REQUEST RAB RELEASE INDICATION orwith an triggered", "Inter-RAT redirection", "CS Fallback RNL causes "S1 Intra System message sent by the eNB to the MME. The counter the S1AP:UE CONTEXT RELEASE Triggered", or "E-UTRAN Generated Reason" if the Handover "S1 inter is incremented with the number of E-RABs REQUESTTriggered", message sent by the reject cause is set due to an intra-LTE redirect system Handover triggered", released independently from the release cause eNB to the MME. The counter"X2 is (3GPP Handover triggered", (3GPP TS TS 36.413). 36.413). incremented with the "Inter-RAT number of Eredirection", "CSindependently Fallback RABs released from Triggered", or "E-UTRAN the release cause (3GPP TS Generated 36.413). Reason" if the reject cause is set due to an intra-LTE redirect (3GPP TS 36.413).
This counter is updated following the transmission of an S1AP:UE CONTEXT RELEASE REQUEST message with the RNL cause "User Inactivity" sent by the eNB to the MME. The counter is incremented the number of released E-RABs This counter with is updated following the transmission (3GPP TS 36.413). of an S1AP:UE CONTEXT RELEASE REQUEST message with the RNL cause "Radio Connection with UE lost" sent by the eNB to the MME. If the S1AP:UE CONTEXT RELEASE This counter is updated followingREQUEST the transmission message with the RNL cause Connection of an S1AP:E-RAB RELEASE"Radio INDICATION with UE lost" is sent due to failed intra-eNB HO, message or an S1AP:UE CONTEXT RELEASE (for example, expiration of HO guard timer REQUEST message sent by the eNB to the MME THOoverall), the counter with the TNL is cause "Transport Resources This counter updated following the transmission ERAB_REL_HO_FAIL_TIM isincremented incremented instead. Unavailable". The counter is with the of ancounter S1AP:UE CONTEXT RELEASE REQUEST The is incremented with the number of number of released E-RABs (3GPP TS 36.413). message sent by (3GPP the eNB the MME with the released E-RABs TSto36.413). RNL causes "Inter-RAT redirection", "Redirection towards 1xRTT", "CS Fallback Triggered", "UE Not This counter is updated following the transmission Available For PS Service", or "E-UTRAN of an S1AP:UE CONTEXT RELEASE REQUEST Generated Reason" if the release cause is set due message with the RNL cause "E-UTRAN to an intra-LTE redirect. The counter Generated Reason" sent by the eNB is to the MME if incremented with the number of released the release cause is not set due to an intraE-RABs LTE This counter is updated following the transmission (3GPP TS 36.413). redirect. The counter is incremented with the of an S1AP:E-RAB RELEASE INDICATION or an number ofCONTEXT released E-RABs (3GPP TS 36.413). S1AP:UE RELEASE REQUEST message sent by the eNB to the MME. The counter is incremented Intra-eNB HO: with the number of E-RABs released with the RNL cause "Radio resources not n.a. available" (3GPP TS 36.413). Inter-eNB HO via X2: Following theisreception the X2AP:UE CONTEXT This counter updated of following the transmission RELEASE message, the counter is incremented of the RRC:RRCConnectionReconfiguration or with the number of bearers not admitted by theto RRC:MobilityfromEUTRACommand message target eNB of the preceding HO preparation the UE containing the "Handover Command" procedure. The bearers, which are not admitted, (3GPP TS 36.331). This counter isinupdated when Not the indication for aIE are contained the "E-RABs Admitted List" successful HO is received. of the X2AP:HANDOVER REQUEST Intra-eNB HO: ACKNOWLEDGE message that the is received The counter is incremented with numberfrom of Intra-eNB HO: the target eNB (3GPP TS 36.423). bearers admitted during the preceding HO Following theisreception of the eNBthe internal This counter updated following transmission preparation. The admitted bearers are contained in message, which represents the "UE context Inter-eNB HO via S1/Inter-system HO to of the S1AP:UE CONTEXT RELEASE REQUEST the eNB internal message representing thecounter release due to successful Handover", the UTRAN/SRVCC to UTRAN/SRVCC toeNB GSM: message tooutcome the MME due to the expiration of the successful of the preceding internal is incremented with the for number of bearers Following the reception of the S1AP:UE CONTEXT Handover Guard Timer outgoing "intra-LTE HO preparation procedure. admitted forCOMMAND the target The admitted RELEASE message with the bearers cause HO", "inter-system HO cell. to UTRAN", "SRVCC to Thiscontained counter isinupdated following the transmission are the eNB internal message "RNL Successful Handover", the counter is UTRAN", or "SRVCC to GSM". Inter-eNB HOthe via"Handover X2: of an S1AP:E-RAB RELEASE representing Request incremented with the numberwith ofRESPONSE bearers not of The counter is incremented the number message sent by the eNB to the MME. The HO counter Acknowledge". admitted by the HO target of the preceding Intra-eNB HO: byby bearers admitted the target of eNB duringcontained the is incremented the number bearers preparation procedure. The bearers, which are not Upon the transmission of the S1AP:UE CONTEXT preceding HO preparation procedure. The admitted in thecounter "E-RAB Failed Release List" IE (3GPP TS Inter-eNB HO via X2: tomessage admitted, are contained in the "E-RABs to Release This is updated following the transmission RELEASE REQUEST to the MME due to bearers are contained inofthe "E-RABs Admitted 36.413). Following the reception the X2AP:UE CONTEXT List" IE of S1AP:HANDOVER COMMAND of an S1AP:E-RAB the expiration of theRELEASE Handover INDICATION Guard Timer or an List" IE of the X2AP:HANDOVER RELEASE message the counter isREQUEST incremented message that is counter received from MME (3GPP S1AP:UE CONTEXT RELEASE REQUEST THOoverall, the is incremented with TS the ACKNOWLEDGE message that is received from with the number of bearers admitted by the 36.413). message by the eNB to during the MME. The target counter number ofsent bearers admitted the preceding the target eNB (3GPP TS 36.423). eNB of the preceding HO preparation procedure. is with the number of QCI1 E-RABs HOincremented preparation procedure. The admitted bearers The admitted bearers are contained in the "Ereleased independently from the release cause are contained in the eNB internal message Inter-eNB HO via S1/Inter-system HO to RABs Admitted List" IE of the X2AP:HANDOVER (3GPP TS 36.413). representing the to "Handover Requestto GSM: UTRAN/SRVCC UTRAN/SRVCC REQUEST ACKNOWLEDGE message that is Acknowledge". The counter incremented the number of received fromisthe target eNBwith (3GPP TS 36.423). bearers admitted by the HO target during the Inter-eNB HO X2: preceding HO via preparation procedure. bearers, Inter-eNB HO via S1/Inter-system HO The toCONTEXT Upon the transmission ofare thecontained S1AP:UE which are not admitted, in the UTRAN/SRVCC to UTRAN/SRVCC to MME GSM:"ERELEASE REQUEST message to the due to RABs to Release List" IE of the S1AP:HANDOVER Following the reception of the S1AP:UE CONTEXT the expiration of the Handover Guard Timer COMMAND message that is received from the RELEASE COMMAND the causewith TX2RELOCoverall, the message counter iswith incremented MME (3GPP TS 36.413). "RNL Successful Handover". The counter is
This counter is updated following the transmission of an S1AP:UE CONTEXT RELEASE REQUEST message with the RNL cause "User Inactivity" sent the eNB to the This counter is by updated following MME. The counter is incremented the transmission of an S1AP:UE with the number of released ECONTEXT RELEASE REQUEST RABs (3GPP TS 36.413). message with the RNL cause "Radio Connection with UE lost" This counter is updated following sent by the eNB to the MME. If the the transmission of an S1AP:ES1AP:UE CONTEXT RELEASE RAB RELEASE INDICATION REQUEST with the RNL message ormessage an S1AP:UE cause "Radio Connection with UE CONTEXT RELEASE REQUEST This counter is updated following lost" is sent due to failed intra-eNB message sent byof the to the the transmission aneNB S1AP:UE HO, (for example, expiration of HO MME with the TNL cause CONTEXT RELEASE REQUEST guard timer THOoverall), the "Transport Resources Unavailable". message sent by the eNB to the counter ERAB_REL_HO_FAIL_TIM The counter is incremented with the MME with the RNL causes "Interis incremented instead. The counter This counter is updated following number of released E-RABs (3GPP RAT redirection", "Redirection is incremented with the number of the transmission of an S1AP:UE TS 36.413). towards 1xRTT", "CS Fallback released E-RABs (3GPP TS CONTEXT RELEASE REQUEST Triggered", "UE Not Available For 36.413). message with the RNL cause "EPS Service", or "E-UTRAN UTRAN Generated Reason" sent This counter is updated following Generated Reason" if the release by the eNB to the MME if the the transmission of an intra-LTE S1AP:Ecause iscause set due to release isINDICATION not set due toor anan RAB RELEASE redirect. The counter is intra LTE redirect. The counter is S1AP:UE CONTEXT RELEASE incremented with number of incremented with the the sent number of REQUEST message by the released E-RABs (3GPP TS This counter is updated when the released E-RABs (3GPP TS eNB to thefor MME. The counter is 36.413). indication a successful HO is 36.413). incremented with the number of Ereceived or following the RABs released with the RNL cause transmission of the S1AP:UE "Radio resources not available" CONTEXT RELEASE This counter is updatedREQUEST following (3GPP TS 36.413). message to the MME the transmission of thedue to the expiration of the Handover Guard RRC:RRCConnectionReconfigurati Timer for outgoing "intra-LTE HO", on or "inter-system HO to UTRAN", RRC:MobilityfromEUTRACommand This counter is updated the to "SRVCC to UTRAN", or when "SRVCC message to the UE containing the indication for a successful HO is GSM". "Handover Command" (3GPP TS received. 36.331). Intra-eNB HO: Intra-eNB HO: n.a. This counter is updated following Intra-eNB HO: Following the reception of the eNB the transmission of the S1AP:UE The counter is incremented with the internal message, which represents CONTEXT RELEASE REQUEST number of bearers admitted during the "UE context release due Inter-eNB HO via X2: message to the MME due to to theThe the preceding HO preparation. successful Handover", the Guard counter expiration of the Handover admitted bearers arethe contained counter is with updated followingin is incremented number of -This successful HO scenario Timer forinternal outgoing "intra-LTE HO", the eNB message the transmission of an S1AP:Ebearers admitted for the target cell. Following the reception of the "inter-system HORESPONSE to UTRAN", representing the successful RAB RELEASE The admitted bearers are contained X2AP:UE CONTEXT RELEASE "SRVCC to UTRAN", or "SRVCC outcome of the preceding eNB message sent by the eNB to the to in the eNB internal message message, the counter is GSM". internal HO preparation procedure. MME. The counter is incremented representing theupdated "Handover incremented with the number of This counter is following by the number of bearers contained Request Acknowledge". bearers not admitted by the target the transmission of an S1AP:EIntra-eNB HO: Inter-eNB HO via X2: to Release in theof "E-RAB Failed eNB thetransmission preceding HO RAB RELEASE INDICATION or an Upon the of thewith The counter is incremented the List" IE (3GPP TS 36.413). Inter-eNB HO via X2: preparation procedure. The by the S1AP:UE CONTEXT RELEASE number of bearers admitted Followingwhich the reception of the bearers, arethe notsent admitted, REQUEST message the HO topreceding theby MME target eNBCONTEXT during X2AP:UE RELEASE are contained in the "E-RABs eNB to the MME. The counter is due to the expiration of The the Not preparation procedure. message the counter is THOoverall, Admitted List" IE of the incremented with the number of Handover Guard Timer admitted bearers are contained in incremented theREQUEST number of the X2AP:HANDOVER QCI1 E-RABs released the counter iswith incremented with "E-RABs Admitted List" IE of bearers admitted by therelease target eNB ACKNOWLEDGE message that is independently from the number of bearers admitted during the X2AP:HANDOVER REQUEST of the preceding HO preparation received from the target eNB cause (3GPP TS 36.413). the preceding HO preparation ACKNOWLEDGE message that is procedure. The admitted bearers (3GPP TSfrom 36.423). procedure. Thethe admitted bearers received target eNB are contained in are contained in the the "E-RABs eNB internal (3GPP TSList" 36.423). Admitted IE of thethe message representing X2AP:HANDOVER REQUEST -"Handover expirationHO of via HO S1/Inter-system Guard Timer Request Acknowledge". Inter-eNB ACKNOWLEDGE message Upon the transmission of thethat is
This counter is updated following the transmission of an S1AP:UE CONTEXT RELEASE REQUEST message with the RNL cause "User Inactivity" sent by the eNB to the MME. The counter is incremented the number of released QCI1 EThis counter with is updated following the transmission RABs (3GPP TS 36.413). of an S1AP:UE CONTEXT RELEASE REQUEST message with the RNL cause "Radio Connection with UE lost" sent by the eNB to the MME. If the S1AP:UE CONTEXT RELEASE This counter is updated followingREQUEST the transmission message with the RNL cause Connection of an S1AP:E-RAB RELEASE"Radio INDICATION with UE lost" is sent due to a failed intra eNB HO, message or an S1AP:UE CONTEXT RELEASE (for example, expiration of HO guard timer REQUEST message sent by the eNB to the MME THOoverall), the counter with the TNL is cause "Transport Resources This counter updated following the transmission ERAB_REL_HO_FAIL_TIM_QCI1 is incremented Unavailable". The counter is incremented with the of an S1AP:UE CONTEXT RELEASEwith REQUEST instead. The counter is incremented the number of released QCI1 E-RABs (3GPP message by theQCI1 eNB E-RABs to the MME withTS the number ofsent released (3GPP TS 36.413). RNL causes "Inter-RAT redirection", "Redirection 36.413). towards 1xRTT", "CS Fallback Triggered", "UE Not This counter is updated following the transmission Available For PS Service", or "E-UTRAN of an S1AP:UE CONTEXT RELEASE REQUEST Generated Reason" if the release cause is set due message with the RNL cause "E-UTRAN to an intra-LTE redirect. The counter Generated Reason" sent by the eNB is to the MME if incremented with the number of released QCI1 Ethe release cause is not set due to an intra-LTE This counter isTS updated following the transmission RABs (3GPP 36.413). redirect. The counter is incremented with the or an of an S1AP:E-RAB RELEASE INDICATION number of released QCI1 E-RABs (3GPP TS S1AP:UE CONTEXT RELEASE REQUEST 36.413). message sent by the eNB to the MME. The counter is incremented Intra-eNB HO: with the number of QCI1 E-RABs released with the RNL cause "Radio resources not n.a. available" (3GPP TS 36.413). Inter-eNB HO via X2: Following theisreception the X2AP:UE CONTEXT This counter updated of following the transmission RELEASE message, the counter is incremented of the RRC:RRCConnectionReconfiguration or with the number of QCI1 bearers notmessage admitted to by RRC:MobilityfromEUTRACommand the target eNB of the preceding HO preparation the UE containing the "Handover Command" procedure. The bearers, which are not admitted, (3GPP TS 36.331). This counter isinupdated when Not the indication for aIE are contained the "E-RABs Admitted List" successful HO is received. of the X2AP:HANDOVER REQUEST Intra-eNB HO: ACKNOWLEDGE message that the is received The counter is incremented with numberfrom of Intra-eNB HO: the target eNB (3GPP TS 36.423). QCI1 bearers admitted during the preceding HO Following theisreception of the eNBthe internal This counter updated following transmission preparation. The admitted QCI1 bearers are message, which represents the "UE context Inter-eNB HO viaCONTEXT S1/Inter-system HO to of the S1AP:UE RELEASE REQUEST contained in to the eNB internal message release due successful Handover" the counter UTRAN/SRVCC to UTRAN /SRVCC to GSM: message to the MME due tooutcome the expiration of the representing the successful of the is incremented with the number of QCI1 bearers Following the reception of the S1AP:UE CONTEXT Handover Guard Timer HO for outgoing "intra-LTE preceding eNB internal preparation procedure. admitted during theHO preceding HOwith preparation. RELEASE COMMAND message the cause HO", "inter-system to UTRAN", "SRVCC to The Transmission ofbearers an RRC CONNECTION admitted QCI1 are contained in the eNB "RNL Successful Handover", the counter is UTRAN", or "SRVCC to GSM". sent by eNB to the Inter-eNB HO via X2: RECONFIGURATION message internal message representing "Handover incremented with the number ofthe QCI1 bearers The counter is incremented with the number ofnot UE duringAcknowledge". the Data Radio Bearer (DRB) setup Request admitted by the HO target of the preceding HO Intra-eNB HO: QCI1 bearers admitted byHandover the targetthe eNB duringis procedure. For incomingThe counter preparation procedure. bearers, which are not Upon the transmission of the S1AP:UE CONTEXT the preceding HO preparation procedure. pegged inare case of a successful handovertoThe admitted, contained in the "E-RABs Release Reception of an RRC CONNECTION RELEASE REQUEST message to the MME due to admitted QCI1 bearers are contained in the "Epreparation procedure indicated forCOMMAND example by the Inter-eNB HO via X2:Handover List" IE of the S1AP:HANDOVER RECONFIGURATION COMPLETE message sent the expiration of the Guard Timer RABs Admitted List" IE of the X2AP:HANDOVER transmission of theeNB HANDOVER Following thethe reception of the X2AP:UE CONTEXT message that isthe received MME (3GPP TS from the UE to during theREQUEST Data Radio THOoverall, counter isfrom incremented with the REQUEST ACKNOWLEDGE message that is ACKNOWLEDGE message. RELEASE message the counter is incremented 36.413). Bearer setup procedure. number(DRB) offrom bearers admitted during the preceding received the target eNB (3GPP TS 36.423). with the numberprocedure. of QCI1 bearers admittedQCI1 by the HO preparation The admitted If the DRB setup procedure is executed for more target eNB during the preceding HO preparation If the RRC Reconfiguration procedure is executed bearers are contained in the eNB internal message Inter-eNB HO via S1/Inter-system HOfor toare than one DRB the counter is pegged each DRB procedure. The admitted QCI1 bearers for more thanthe oneto DRB the counter for representing "Handover Requestis UTRAN/SRVCC UTRAN/SRVCC topegged GSM: attempted to set up. contained in the "E-RABs Admitted List" IE of the each successfully set up DRB. Acknowledge". The counter is incremented withACKNOWLEDGE the number of X2AP:HANDOVER REQUEST QCI1 bearers admitted by the target eNBeNB during RRC CONNECTION RECONFIGURATION message that is received from the target RRC CONNECTION RECONFIGURATION Inter-eNB HO via X2: the preceding HO preparation procedure. The messages used for otherused purposes than DRB (3GPP TStransmission 36.423). COMPLETE messages for other purposes Upon the of the S1AP:UE CONTEXT QCI1 bearers, which are not admitted, are setup (thatsetup is DRB release, DRB configuration than DRB (that ismessage DRB release, RELEASE REQUEST toinformation) theDRB MME to contained in the "E-RABs to Release IEdue ofwill the changes, transmission of security Inter-eNB HO via S1/Inter-system HOofList" tosecurity configuration changes, transmission the expiration of the Handover Guard Timer S1AP:HANDOVER COMMAND message that is not be counted. UTRAN/SRVCC to UTRAN/SRVCC to GSM: with information) will not be counted. TX2RELOCoverall, the counter is incremented received MME as the outcome of the HO Followingfrom the reception of the S1AP:UE CONTEXT
This counter is updated following the transmission of an S1AP:UE CONTEXT RELEASE REQUEST message with the RNL cause "User Inactivity" sent the eNB to the This counter is by updated following MME. The counter is incremented the transmission of an S1AP:UE with the number of released QCI1 CONTEXT RELEASE REQUEST E-RABs (3GPP TS 36.413). message with the RNL cause "Radio Connection with UE lost" This counter is updated following sent by the eNB to the MME. If the the transmission of an S1AP:ES1AP:UE CONTEXT RELEASE RAB RELEASE INDICATION REQUEST with the RNL message ormessage an S1AP:UE cause "Radio Connection with UE CONTEXT RELEASE REQUEST This counter is updated following lost" is sent due to a failed intra message sent byof the to the the transmission aneNB S1AP:UE eNB HO, (for example, expiration of MME with the TNL cause CONTEXT RELEASE REQUEST HO guard timer THOoverall), the "Transport Resources Unavailable". message sent by the eNB to the counter The counter is incremented with the MME with the RNL causes "InterERAB_REL_HO_FAIL_TIM_QCI1 This counter is updated following number of released QCI1 E-RABs RAT redirection", "Redirection is incremented instead. The counter the transmission of an S1AP:UE (3GPP TS 36.413). towards 1xRTT", "CS Fallback is incremented with the number of CONTEXT RELEASE REQUEST Triggered", "UE Not Available For released QCI1 E-RABs (3GPP TS message with the RNL cause "EPS Service", or "E-UTRAN 36.413). UTRAN Generated Reason" sent This counter is updated following Generated Reason" if the release by the eNB to the MME if the the transmission of an intra-LTE S1AP:Ecause iscause set due to release isINDICATION not set due toor anan RAB RELEASE redirect. The counter is intra-LTE redirect. The counter is S1AP:UE CONTEXT RELEASE incremented with number of incremented with the the sent number of REQUEST message by the released QCI1 E-RABs (3GPP TS This counter is updated when the released QCI1 E-RABs (3GPP TS eNB to thefor MME. The counter is 36.413). indication a successful HO is 36.413). incremented with the the number of received or following QCI1 E-RABs released with the transmission of the S1AP:UE RNL cause "Radio resources not CONTEXT RELEASE REQUEST This counter is updated following available" (3GPP TS 36.413). message to the MME the transmission of thedue to the expiration of the Handover Guard RRC:RRCConnectionReconfigurati Timer for outgoing "intra-LTE HO", on or "inter-system HO to UTRAN", RRC:MobilityfromEUTRACommand This counter is updated the to "SRVCC to UTRAN", or when "SRVCC message to the UE containing the indication for a successful HO is GSM". "Handover Command" (3GPP TS received. 36.331). Intra-eNB HO: Intra-eNB HO: n.a. This counter is updated following Intra-eNB HO: Following the reception of the eNB the transmission of the S1AP:UE The counter is incremented with the internal message, which represents Inter-eNB HO via X2: CONTEXT RELEASE REQUEST number of QCI1 bearers admitted the "UE context release due message the MME due to to the during thetopreceding HO Handover" the counter -successful successful HO scenario expiration of the Handover Guard preparation. The admitted QCI1 of Transmission ofwith an RRC is incremented the number Following thecontained reception ofthe theeNB Timer forare outgoing "intra-LTE HO", bearers in CONNECTION QCI1 bearers admitted during the X2AP:UE CONTEXT RELEASE "inter-system HO to UTRAN", internal message representing RECONFIGURATION message preceding HO preparation. Thetheto message, the counter is "SRVCC to UTRAN", or "SRVCC successful outcome of the sent by eNB to thethe UEnumber during the admitted QCI1 bearers are of incremented with GSM". preceding eNB internal HOsetup Data Radio Bearer (DRB) contained in the eNB internal QCI1 bearers notRRC admitted by the Reception ofprocedure. an preparation procedure. Forthe incoming message theHandover target eNBrepresenting of preceding HO CONNECTION Intra-eNB HO: the counter is pegged in case of a "Handover Request Acknowledge". preparation procedure. The RECONFIGURATION COMPLETE Upon the transmission of the Inter-eNB HO via X2: preparation successful handover bearers, which are not admitted, message sent the UE to thethe S1AP:UE CONTEXT RELEASE The counter is from incremented with procedure indicated for example are contained in the "E-RABs Notby eNB during the Data Radio Bearer REQUEST message to the MME number of QCI1 bearers admitted the transmission of the Inter-eNB HO via X2: Admitted IE ofduring the (DRB) setup procedure. due to target theList" expiration of the by the eNB HANDOVER REQUEST Following the reception ofthe the X2AP:HANDOVER REQUEST Handover Guard Timer THOoverall, preceding HO preparation ACKNOWLEDGE message. X2AP:UE CONTEXT RELEASE ACKNOWLEDGE message thatthe is If the RRC Reconfiguration the counter is incremented with procedure. The admitted QCI1 message the counter is received from the target eNB procedure executed forthe more number of is bearers admitted during bearers are contained in "EIf theone DRB setup procedure incremented with the number (3GPP TSDRB 36.423). than the counter isis of the preceding HO preparation RABs Admitted List" IE of the executed more than by one DRB QCI1 bearers admitted the pegged forforThe each successfully set up procedure. admitted QCI1 X2AP:HANDOVER REQUEST the counter is pegged for each DRB target eNB during the preceding -bearers expiration of HO Guard Timer DRB. aretocontained in the that eNBHO ACKNOWLEDGE message is attempted set up. preparation procedure. The Upon the transmission ofeNB the the internal message representing received from the target admitted QCI1 bearers are S1AP:UE RELEASE RRC CONNECTION "Handover Request Acknowledge". (3GPP TSCONTEXT 36.423). RRC CONNECTION contained in the "E-RABs REQUEST message to theAdmitted MME
Expiration of RRC Guard timer used for the supervision of the RRC Connection Reconfiguration procedure for Data Radio Bearer (DRB) setup.
Expiration of RRC Guard timer used for the supervision of the RRC Connection Reconfiguration procedure for Data Radio Bearer setup. of an RRC Transmission of an RRC CONNECTION RELEASE (DRB) Transmission For incoming Handover the counter is pegged in message due to reception of S1AP:UE CONTEXT CONNECTION RELEASE message case of a not successfully completed Handover For Handover the counter RELEASE COMMAND. due incoming to reception of S1AP:UE Execution phase at the target eNB (for example is pegged in case of a not CONTEXT RELEASE COMMAND. expiration of TS1Relocexec/Tx2Relocexec). successfully completed Handover This counter is updated on the transmission of an This counter is updated on theeNB Execution phase at the target RRC CONNECTION SETUP message sent by transmission of an RRC If the RRC Reconfiguration procedure is executed (for example expiration of eNB to the UE,one containing CONNECTION SETUP message for more than DRB theSRB1-specific counter is pegged for TS1Relocexec/Tx2Relocexec). configurations. sent by eNB to the UE, containing each DRB with unsuccessful setup. Note: If a UE is(erroneously) sends RRC of an SRB1-specific If thecounter RRC Reconfiguration This counter updated on the reception This is configurations. updated on the CONNECTION REQUEST message several times Note: If a UE (erroneously) sends RRC Guard Timer expirations of RRC procedure is executed RRC CONNECTION SETUP COMPLETE reception of an RRC for more in a row without waiting the proper time for the RRC CONNECTION REQUEST Reconfiguration purposes than one DRB the counter is message sent byprocedures UE to eNBfor on other SRB1/DCCH CONNECTION SETUP response from eNB (RRCConnectionSetup), timessent in a by rowUE than DRBthe setup (that is message). DRB release, DRB only message pegged forseveral each DRB with (carrying initial NAS COMPLETE message the last message of RRC CONNECTION SETUP without waiting the proper time for configuration changes, transmission of security unsuccessful setup. eNB on SRB1/DCCH (carrying This counter is updated upon the expiration of the to This counter isfrom updated upon the will be counted. the response eNB information) will not be counted. initial NAS message). RRC Guard Timer used for the supervision of RRC the expiration of Timer the RRC Guard (RRCConnectionSetup), onlyTimer the RRC Guard expirations of Connection Setup procedure at the eNB. The RRC used for the supervision of RRC last message of RRC RRC Reconfiguration procedures Guard Timer is stopped when the RRC Connection Setup procedure the CONNECTION SETUP beat for other purposes than will DRB setup CONNECTION SETUP COMPLETE message is eNB. The RRC Guard Timer is counted. (that is DRB release, DRB This counter is updated at the transmission of an This counter is updated at the received from the UE.RECONFIGURATION stopped whenof the configuration changes, RRC CONNECTION transmission an RRC RRC CONNECTION SETUP transmission of message sent by eNB to the UE, containing SRB2- CONNECTION security COMPLETE message is received information) will not bemessage counted. specific configurations. RECONFIGURATION from the UE. eNB to the UE, containing This counter is updated at the reception of an RRC sent This by counter is updated at the SRB2-specific configurations. CONNECTION RECONFIGURATION COMPLETE reception of an RRC message sent by UE to eNB on SRB1/DCCH. Internal trigger - for example upon expiration of RRC Guard timer used for the supervision of the RRC Reconfiguration procedure. The during RRC Reconfiguration This expiration measurement is obtained by accumulating the procedure used for other purposes than bearer Etime intervals for every successfully established setup (that is DRB release, DRB configuration RAB between the reception of an E-RAB SETUP changes, of security SETUP information in REQUESTtransmission or INITIAL CONTEXT case of HO) will not be counted. REQUEST message the transmission of the the This measurement is and obtained by monitoring corresponding E-RAB SETUP RESPONSE or time intervals for every successfully established Also theCONTEXT expiration during setup due to EINITIAL SETUPbearer RESPONSE RAB between thenot reception of an E-RAB message SETUP incoming HO will be counted. by the eNB or over the granularity period. The end REQUEST INITIAL CONTEXT SETUP value of thismessage time will and thenthe be transmission divided by theof the REQUEST The transmission of an RRC Connection Re-in the number of successfully established E-RABs corresponding E-RABmessage, SETUP RESPONSE or to establishment Reject sent by mean. the eNB granularity period to give the arithmetic The INITIAL CONTEXT SETUP RESPONSE message UE. accumulator is reinitialized at the beginning of each by the eNB over the granularity period. The high granularity tide mark ofperiod. this time will be stored in a gauge and Note: Updated pagingat record of an RRC the gaugefor is each reinitialized the beginning of paging each The measurement initialized with "0" at thefrom message (excluding SysInfo message) granularity period. ispure beginning of each granularity period. A S1 interface. Note: measurement resultis"0" at the end the The measurement initialized withof"0" at the granularity period (for example, 15 minutes) means beginning of each granularity period. A that no E-RAB setup occurred in the cell during the measurement result "0" at the end of the whole granularity period and that the measurement granularity period (for example, 15 minutes) means does notE-RAB contain a valid measurement result. that no setup occurred in the cell during the whole granularity period and that the measurement does not contain a valid measurement result.
CONNECTION RECONFIGURATION COMPLETE message sent by UEexample to eNB upon on Internal trigger - for SRB1/DCCH. expiration of RRC Guard timer used for the supervision of the RRC Reconfiguration procedure. This measurement is obtained by The expirationthe during accumulating timeRRC intervals for Reconfiguration procedure used every successfully established E-for other purposes than bearer setup RAB between the reception of an (that is DRB release, DRB or E-RAB SETUP REQUEST This measurement is obtained by configuration changes, INITIAL CONTEXT SETUP monitoring theoftime intervals for transmission security information REQUEST message and the Eevery established in casesuccessfully of HO) will not be counted. transmission of the corresponding RAB between the reception of an E-RAB SETUP RESPONSE E-RAB REQUEST oror Also theSETUP expiration bearer The transmission ofduring an RRC INITIAL CONTEXT SETUP INITIAL CONTEXT SETUP setup due toRe-establishment incoming HO willeNB not Connection RESPONSE messageand by the the REQUEST message be counted. Reject message, sent by the eNB over the granularity period. The end transmission of the corresponding to UE.of this time value will then beor E-RAB SETUP RESPONSE divided by the number of record of UpdatedCONTEXT for each paging INITIAL SETUP successfully established an RRC paging message RESPONSE message byE-RABs the eNBin the granularity period to give the (excluding pure SysInfo message) over the granularity period. The arithmetic mean. The accumulator from S1 interface. high tide mark of this time will be is reinitialized at the beginning of is stored in a gauge and the gauge each granularity period. reinitialized at the beginning of Note: each granularity period. The Note:measurement is initialized with "0" the beginningisofinitialized each Theatmeasurement with granularity period. A measurement "0" at the beginning of each result "0" atperiod. the endA of the granularity measurement granularity period (for example, 15 result "0" at the end of the minutes) means that no E-RAB granularity period (for example, 15 setup occurred theno cellE-RAB during the minutes) meansinthat whole granularity period and that
This counter is updated when the maximum number of paging records is reached for the next paging occasion that corresponds to the paging request => UU (RRC allows up to Paging 16 paging recordssent per by Transmission of an RRC: message paging occasion) eNB to UE.
This counter is updated when the maximum number of paging records is reached for the next paging occasion that corresponds to the paging request Transmission of an RRC: Paging => UU (RRC upto toUE. 16 paging message sentallows by eNB records per paging occasion)
This counter is updated following the reception of This counter is updated following an RRC: RRCConnectionReestablishmentRequest the reception of an RRC: message from the UE RRCConnectionReestablishmentRe quest message from the UE This counter is updated following the reception of an RRC: RRCConnectionReestablishmentComplete message from the UE
This counter is updated following the reception of an RRC: RRCConnectionReestablishmentCo mplete message from the UE
Updated when an Updated when an RRCConnectionReestablishmentRequest message RRCConnectionReestablishmentRe is received with cause "handoverFailure". quest message is received with cause "handoverFailure". Updated when an RRCConnectionReestablishmentComplete message is received in case that the preceeding RRCConnectionReestablishmentRequest indicates the causewhen "handoverFailure". Updated an
Updated when an RRCConnectionReestablishmentCo mplete message is received in case that the preceeding RRCConnectionReestablishmentRe Updated when an indicates the cause RRCConnectionReestablishmentRequest message quest RRCConnectionReestablishmentRe "handoverFailure". is received with cause "otherFailure". quest message is received with cause "otherFailure". Updated when an RRCConnectionReestablishmentComplete message is received in case that the preceeding RRCConnectionReestablishmentRequest indicates the cause "otherFailure". Transmission of
Updated when an RRCConnectionReestablishmentCo mplete message is received in case that the preceeding RRCConnectionReestablishmentRe Transmission of quest indicates the cause RRCConnectionReconfiguration RRCConnectionReconfiguration "otherFailure". including 'reportCGI' measurement configuration to including 'reportCGI' measurement the UE. configuration to the UE. -Reception (3GPP TSof36.331) (3GPP TSof36.331) RRC: Measurement Report message -Reception RRC: Measurement including a 'reportCGI' measurement result. - (3GPP TS 36.331)
Report message including a 'reportCGI' measurement result. - (3GPP TS 36.331)
Transmission of RRCConnectionReconfiguration message including a "reportCGI" measurement configuration to the UE for a UTRAN cell according to 3GPP TS 36.331.
Transmission of RRCConnectionReconfiguration message including a "reportCGI" measurement configuration to the UE for a UTRAN according to Reception of RRCcell Measurement 3GPP TS 36.331. Report message including a
Reception of RRC Measurement Report message including a "reportCGI" measurement result for a UTRAN cell according to 3GPP TS 36.331. The "reportCGI" measurement result contains all necessary IEs needed for a unique cell identification, which are: the CGI, the RNC-Id, the LAC and the RAC.
"reportCGI" measurement result for a UTRAN cell according to 3GPP TS 36.331. The "reportCGI" measurement result contains all necessary IEs needed for a unique cell identification, which are: the CGI, the RNC-Id, the LAC and the RAC.
Reception of RRC Measurement Report message including a "reportCGI" measurement result for a UTRAN cell according to 3GPP TS 36.331. The "reportCGI" measurement result does not contain the needed for a unique cell Thisnecessary counter isIEs updated following the transmission identification like the LAC or RAC. of an RRC Connection Release message (source eNB -> UE) in case that this message contains the RedirectedCarrierInfo parameter for a Home eNB (3GPP TS 36.331). The counter is updated when a paging campaign for the broadcast of ETWS/CMAS warning messages is started. A paging campaign is started once after a new broadcast or the replacement of an existing broadcast messageby is accumulating received via an This measurement is obtained the S1AP:WRITE-REPLACE WARNING REQUEST time intervals for every successful RRC connection message. establishment between the reception of an Note that a paging campaign not started, for RRCConnectionRequest and is the corresponding example when the Warning Area List IE does not RRCConnectionSetupComplete by the the This measurement is obtained bymessage monitoring apply for the cell or when the eNB receives an eNB over the granularity period. The end value of time intervals for each successful RRC connection S1AP:WRITE-REPLACE WARNING REQUEST this time will then be divided by the number of establishment between the reception of an message with Message Identifier IE and Serial successful RRC connections observed in the RRCConnectionRequest and to theone corresponding Number IE period which correspond of the warning granularity to give the arithmetic mean. The RRCConnectionSetupComplete message by the messages already being broadcast in the eNB. The receptionisof an RRC Measurement Report accumulator reinitialized at the beginning of each eNB over sent the granularity mark message by the UE period. to eNB The and high of thetide RRM granularity period. of this time will be stored in a gauge and the gauge decision not to execute a handover. Updated to the Note: is reinitialized of each granularity source cell. at theisbeginning The measurement initialized with "0" at the period. beginning of each period. A Report The of angranularity RRC Measurement Note:reception measurement result "0" at the of"0" the message sent by the UE to eNB and of anthe RRM The measurement is initializedend with at granularity period (for example, 15 minutes) means decision a handover. Updated beginningtoofexecute each granularity period. A to the that no RRC connection setup occurred in the cell source cell. result "0" at the end of the measurement during the whole granularity period and that the granularity (for example, minutes) means An internal period eNB trigger. The eNBa15MM a measurement does not contain validreceives that no RRC connection setup occurred in the cell list with the target cells from RRM and decides on measurement result. during the whole granularity periodtoand thecell. an Intra-eNB Handover. Updated the that source measurement does not contain a valid measurement result. An internal eNB trigger. The eNB MM receives a list with the target cells from the RRM. The MM or RRM AC decides not to execute an Intra-eNB Handover. Updated to the source cell. An internal eNB trigger. The eNB MM receives a list with the target cells from RRM. The MM or RRM AC decides not to execute an Intra-eNB Handover. The counter is updated if the failure detected does notofmatch anyConnection other failure counter. The transmission an RRC Updated to the source cell. Reconfiguration message sent by the eNB to UE, which indicates a Handover Command to the UE. Updated to the source cell. The reception of an internal UE Context Release Request for the handover on the source side. Updated to the source cell.
Reception of RRC Measurement Report message including a "reportCGI" measurement result for a UTRAN cell according to 3GPP TS "reportCGI" This36.331. counterThe is updated following measurement result does not the transmission of an RRC contain the necessary IEs needed Connection Release message for a unique cell identification like (source eNB -> UE) in case that the LAC or RAC. this The message counter iscontains updatedthe when a RedirectedCarrierInfo parameter for paging campaign for the broadcast a Home eNB (3GPP TS 36.331). of ETWS/CMAS warning messages is started. A paging campaign is started once after aisnew broadcast This measurement obtained by or the replacement of an existing accumulating the time intervals for broadcast message is received via every successful RRC connection an S1AP:WRITE-REPLACE establishment between the WARNING message. reception ofREQUEST an This measurement is obtainedisby Note that a paging campaign not RRCConnectionRequest andfor the monitoring the time intervals started, for example when the corresponding each successful connection Warning Area ListRRC IE does not apply RRCConnectionSetupComplete establishment between the for the cell or when the eNB message by the eNB over the reception of S1AP:WRITEan receives an The reception of anThe RRC granularity period. end value of RRCConnectionRequest and the REPLACE WARNING REQUEST Measurement Report message sent this time will then be divided by the corresponding message Message by the UE to eNB and RRC ofIdentifier the RRMIE number ofwith successful RRCConnectionSetupComplete and Serial Number IE which decision not to execute a handover. connections observed in the message bythe the eNB over the correspond to one of the warning Updated to source cell. granularity period to give thetide The reception of an RRC granularity period. The high messages already being broadcast arithmetic mean. Thebe accumulator Measurement Report message mark this time will stored insent a in the of eNB. is reinitialized at the beginning of by the UE eNB and isofreinitialized an RRM gauge andtothe gauge each period. decision to execute a handover. at thegranularity beginning of each granularity Note: Updated to the source cell. period. An internal eNB trigger. The eNB The measurement is initialized with Note: MM receives a list with the target "0" at the beginning of each The measurement isdecides initialized cells from RRM and onwith an granularity period. A of measurement "0" at the beginning each to Intra-eNB Handover. Updated result "0" at the end of the granularity A measurement the source period. cell. granularity (forofexample, An internal eNB trigger. The eNB15 result "0" atperiod the end the minutes) means that no RRC MM receives a list with the target15 granularity period (for example, connection setup occurred in or the cells from the RRM. The MM minutes) means that no RRC cell during the whole granularity RRM AC decides not to execute connection setup occurred in thean period andHandover. thatwhole the measurement Intra-eNB Updated to cellinternal during the granularity An eNB trigger. The eNB does not contain a valid the source cell. period and that the measurement MM receives aresult. list with the target measurement does not contain a valid cells from RRM. The MM or RRM measurement AC decides notresult. to execute an IntraeNB Handover. The counter The transmission of an RRC is updated if the failure detected Connection Reconfiguration does not matchsent any by other message thefailure eNB tocounter. UE, Updated to the source cell. which indicates a Handover Command to the UE.internal Updated The reception of an UEto the source cell. Context Release Request for the handover on the source side. Updated to the source cell.
The counter is updated to the source cell when timer THOoverall expires.
The counter is updated to the source cell when timer THOoverall expires.
The counter is updated when CQI value 0 is received from the UE.
The counter is updated when CQI value 0 is received from the UE.
The counter is updated when CQI value 1 is received from the UE.
The counter is updated when CQI value 1 is received from the UE.
The counter is updated when CQI value 2 is received from the UE.
The counter is updated when CQI value 2 is received from the UE.
The counter is updated when CQI value 3 is received from the UE.
The counter is updated when CQI value 3 is received from the UE.
The counter is updated when CQI value 4 is received from the UE.
The counter is updated when CQI value 4 is received from the UE.
The counter is updated when CQI value 5 is received from the UE.
The counter is updated when CQI value 5 is received from the UE.
The counter is updated when CQI value 6 is received from the UE.
The counter is updated when CQI value 6 is received from the UE.
The counter is updated when CQI value 7 is received from the UE.
The counter is updated when CQI value 7 is received from the UE.
The counter is updated when CQI value 8 is received from the UE.
The counter is updated when CQI value 8 is received from the UE.
The counter is updated when CQI value 9 is received from the UE.
The counter is updated when CQI value 9 is received from the UE.
The counter is updated when CQI value 10 is received from the UE.
The counter is updated when CQI value 10 is received from the UE.
The counter is updated when CQI value 11 is received from the UE.
The counter is updated when CQI value 11 is received from the UE.
The counter is updated when CQI value 12 is received from the UE.
The counter is updated when CQI value 12 is received from the UE.
The counter is updated when CQI value 13 is received from the UE.
The counter is updated when CQI value 13 is received from the UE.
The counter is updated when CQI value 14 is received from the UE.
The counter is updated when CQI value 14 is received from the UE.
The counter is updated when CQI value 15 is received from the UE.
The counter is updated when CQI value 15 is received from the UE.
The counter is updated when the minimum assumed CQI in LA process is obtained from CQI reports and corrected by Outer Loop Quality Control.
The counter is updated when the minimum assumed CQI in LA process is obtained from CQI reports and corrected by Outer Loop QualityisControl. The counter updated when the
The counter is updated when the maximum assumed CQI in LA process is obtained from CQI reports and corrected by Outer Loop Quality Control. The counter is updated when the mean assumed CQI in LA process is obtained from CQI reports and corrected by Outer Loop Quality Control.
maximum assumed CQI in LA process is obtained from CQI reports and corrected by Outer Loop QualityisControl. The counter updated when the
mean assumed CQI in LA process is obtained from CQI reports and corrected by Outer Loop Quality The counter is updated when diversity MIMO mode Control. The counter is updated when is selected for the transmission. It counts the diversity MIMO mode is selected for number of MIMO Open Loop Actual Diversity mode the transmission. It counts the usage for both new transmissions and number of MIMO Open Loop Actual retransmissions. Diversity mode usage for both new The counter is updated when spatial multiplexing The counter is updated when transmissions and retransmissions. MIMO mode is selected for the transmission. It spatial multiplexing MIMO mode is counts the number of MIMO Open Loop Actual Spatial Multiplexing mode usage for both new transmissions retransmissions. The counter is and updated when MIMO Closed Loop
selected for the transmission. It counts the number of MIMO Open Loop Actual Spatial Multiplexing The counter is updated when MIMO mode usage for both new Single Codeword mapping to single layer mode is Closed Loop Single Codeword and layer retransmissions. selected for the transmission. It counts the number transmissions mapping to single mode is of MIMO Closed Loop Actual Single Codeword selected for the transmission. It mapping to single layer when mode MIMO usage Closed for bothLoop new counts the number of MIMO The counter is updated The counter is updated whenClosed MIMO transmissions and retransmissions. Loop Actual Single Codeword Double Codeword mapping to dual layers mode is Closed Loop Double Codeword layer mode mode is selected for the transmission. It counts the number mapping mapping to to single dual layers usage for both new transmissions of MIMO Closed Loop Actual Double Codeword selected for the transmission. It and retransmissions. mapping to dual layers mode usage for both new counts the number of MIMO Closed transmissions and retransmissions.
Loop Actual Double Codeword mapping to dual layers mode usage for both new transmissions and retransmissions.
This counter is updated when MIMO mode control is changed between the diversity mode and the spatial multiplexing mode transmission. It counts selected transmission mode changes only on the basis of the new CQI / RI value decisions The counter is updated when MIMO mode control according to MIMO algorithm. However, is changed between the single codewordthis mode counter not these mode changes count ifIt and the does double codeword mode transmission. transmission mode changes inmode casechanges of counts selected transmission only retransmissions or transmissions not needing on the basis of the new CQI / RI value decisions The counter updated when MIMO due tois small amount of PDCCH data. is allocated according MIMO algorithm. However, this for PDSCHtotransmission. counter does not count these mode changes if transmission mode changes in case of retransmissions or transmissions not needing The counter updated when MIMO due toissmall amount of DTX data.is received for PDSCH transmission.
This counter is updated when MIMO mode control is changed between the diversity mode and the spatial multiplexing mode transmission. counts selected The counter isItupdated when MIMO transmission mode changes only mode control is changed between on the basis of the new CQI / the single codeword mode andRIthe value according doubledecisions codeword mode to MIMO algorithm. However, thisselected counter transmission. counts The counter isItupdated when does not these mode changes transmission mode changes only PDCCH is allocated for PDSCH count ifbasis transmission mode on the of the new CQI / RI transmission. changes in caseaccording of retransmissions value decisions to MIMO or transmissions not needing MIMO algorithm. However, this counter due to small amount of data. The counter is updated when DTX does not count these mode is receivedif for PDSCH mode changes transmission transmission. changes in case of retransmissions or transmissions not needing MIMO due to small is amount of data. The counter is updated in each TTI by the average The counter updated in each TTI amount of PDCCH power as specified in the by the average amount of PDCCH counter description. power as specified in the counter description. This measurement calculates the estimated transmitted power (in milliwatts) every sample period and averages the values at the end of the collection interval. This measurement calculates the estimated transmitted power (in milliwatts) every sample period and determines the maximum value at the end of the collection interval.
This measurement calculates the estimated transmitted power (in milliwatts) every sample period and averages the values at the end of the interval. Thiscollection measurement calculates the
estimated transmitted power (in milliwatts) every sample period and determines the maximum value at of the interval. The counter is updated when a wideband CQI level the Theend counter is collection updated when a 0 for codeword 1 is received by the eNB from the wideband CQI level 0 for codeword UE. 1 is received by the eNB from the UE. The counter is updated when a wideband CQI level The counter is updated when a 1 for codeword 1 is received by the eNB from the wideband CQI level 1 for codeword UE. 1 is received by the eNB from the UE. The counter is updated when a wideband CQI level The counter is updated when a 2 for codeword 1 is received by the eNB from the wideband CQI level 2 for codeword UE. 1 is received by the eNB from the UE. The counter is updated when a wideband CQI level The counter is updated when a 3 for codeword 1 is received by the eNB from the wideband CQI level 3 for codeword UE. 1 is received by the eNB from the UE. The counter is updated when a wideband CQI level The counter is updated when a 4 for codeword 1 is received by the eNB from the wideband CQI level 4 for codeword UE. 1 is received by the eNB from the UE.
The counter is updated when a wideband CQI level The counter is updated when a 5 for codeword 1 is received by the eNB from the wideband CQI level 5 for codeword UE. 1 is received by the eNB from the UE. The counter is updated when a wideband CQI level The counter is updated when a 6 for codeword 1 is received by the eNB from the wideband CQI level 6 for codeword UE. 1 is received by the eNB from the UE. The counter is updated when a wideband CQI level The counter is updated when a 7 for codeword 1 is received by the eNB from the wideband CQI level 7 for codeword UE. 1 is received by the eNB from the UE. The counter is updated when a wideband CQI level The counter is updated when a 8 for codeword 1 is received by the eNB from the wideband CQI level 8 for codeword UE. 1 is received by the eNB from the UE. The counter is updated when a wideband CQI level The counter is updated when a 9 for codeword 1 is received by the eNB from the wideband CQI level 9 for codeword UE. 1 is received by the eNB from the UE. The counter is updated when a wideband CQI level The counter is updated when a 10 for codeword 1 is received by the eNB from the wideband CQI level 10 for UE. codeword 1 is received by the eNB from the UE. The counter is updated when a wideband CQI level The counter is updated when a 11 for codeword 1 is received by the eNB from the wideband CQI level 11 for UE. codeword 1 is received by the eNB from the UE. The counter is updated when a wideband CQI level The counter is updated when a 12 for codeword 1 is received by the eNB from the wideband CQI level 12 for UE. codeword 1 is received by the eNB from the UE. The counter is updated when a wideband CQI level The counter is updated when a 13 for codeword 1 is received by the eNB from the wideband CQI level 13 for UE. codeword 1 is received by the eNB from the UE. The counter is updated when a wideband CQI level The counter is updated when a 14 for codeword 1 is received by the eNB from the wideband CQI level 14 for UE. codeword 1 is received by the eNB from the UE. The counter is updated when a wideband CQI level The counter is updated when a 15 for codeword 1 is received by the eNB from the wideband CQI level 15 for UE. codeword 1 is received by the eNB from the UE. Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated per TTI.
Updated when the minimum value of an allocated DL PRB is detected.
Updated when the minimum value of an allocated DL PRB is detected.
Updated when the maximum value of an allocated Updated when the maximum value DL PRB is detected. of an allocated DL PRB is detected.
Updated with the average rate value of an allocated DL PRB over the measurement period.
Updated with the average rate value of an allocated DL PRB over the measurement period.
In PDCCH scheduling over the measurement period.
In PDCCH scheduling over the measurement period.
When Aggregation Group1 is used for PDCCH scheduling.
When Aggregation Group1 is used for PDCCH scheduling.
When Aggregation Group2 is used for PDCCH scheduling.
When Aggregation Group2 is used for PDCCH scheduling.
When Aggregation Group4 is used for PDCCH scheduling.
When Aggregation Group4 is used for PDCCH scheduling.
When Aggregation Group8 is used for PDCCH scheduling.
When Aggregation Group8 is used for PDCCH scheduling.
When Aggregation Group1 is blocked for PDCCH scheduling. A DCI with required AGG1, which cannot be scheduled at all or cannot be scheduled with required power for finally allocated AGG, is considered as blocked. When Aggregation Group2 is blocked for PDCCH
When Aggregation Group1 is blocked for PDCCH scheduling. A DCI with required AGG1, which cannot be scheduled at all or cannot be scheduled with required When Aggregation Group2 is power for finally allocated AGG, is scheduling. A DCI with required AGG2, which blocked for PDCCH scheduling. A as blocked. cannot be scheduled at all or cannot be scheduled considered DCI with required AGG2, which with required power for finally allocated AGG, is cannot be scheduled at all or considered as blocked. be scheduled with required When Aggregation Group4 is blocked for PDCCH cannot When Aggregation Group4 is power for finally allocated AGG, is scheduling. A DCI with required AGG4, which blocked for PDCCH scheduling. A as blocked. cannot be scheduled at all or cannot be scheduled considered DCI with required AGG4, which with required power for finally allocated AGG, is cannot be scheduled at all or considered as blocked. be scheduled with required This counter is updated when Aggregation Group8 cannot This counter is updated when power for finally allocated AGG, is is blocked for PDCCH scheduling. A DCI with Aggregation Group8 is blocked for considered as blocked. required AGG8, which cannot be scheduled at all PDCCH scheduling. A DCI with or cannot be scheduled with required power for finally allocated AGG, is in considered as blocked. This counter is updated each scheduling for the measurement period.
This counter is updated in each scheduling for the measurement period.
required AGG8, which cannot be scheduled at is allupdated or cannot This counter in be each scheduled with required power for scheduling for the measurement finally period.allocated AGG, is considered as blocked. This counter is updated in each scheduling for the measurement period.
This counter is updated in each scheduling for the measurement period.
This counter is updated in each scheduling for the measurement period.
This counter is updated in each scheduling for the measurement period.
This counter is updated in each scheduling for the measurement period.
This counter is updated in each scheduling for the measurement period.
This counter is updated in each scheduling for the measurement period.
The mean value over the measurement period is updated to this counter. The mean value is the arithmetical average of all TTI measured in a granularity period.
The mean value over the measurement period is updated to this counter. The mean value is the arithmetical average of all TTI measured in a period. This counter is granularity updated when the
This counter is updated when the maximum value of the served UEs in UL per TTI has been reached. maximum value of the served UEs in UL per TTI has been reached. The mean value over the measurement period is updated to this counter. The mean value is the arithmetical average of all TTI measured in a granularity period. This counter is updated when the maximum value Note: number of DL TTIs toTTI calculate the reached. mean of the The served UEs in per has been value includes all DL and special subframes (TDD only). It also includes TTIs in which no PDSCH can be scheduled, for example, the special subframes This is updated with every subframe in thecounter configuration of normal CP and specialfor which onlyconfiguration 1 OFDM symbol is allocated subframe 5 (TDD only), theto the PDCCH. This is not updated for subframes subframes withcounter PRS, MBMS subframes, ABS for which theand number subframes, so on.of allocated PDCCH OFDM symbols is different fromwith 1 (for example 2). for This counter is updated every subframe which 2 OFDM symbols are allocated to the PDCCH. This counter is not updated for subframes for which the number of allocated PDCCH OFDM symbols is different fromwith 2 (for example 3). for This counter is updated every subframe
The mean value over the measurement period is updated to this counter. The mean value is the arithmetical average of all TTI measured in a period. This counter is granularity updated when the
maximum value of the served UEs Note: TheTTI number of TTIs to in DL per has been reached. calculate the mean value includes all DL and special subframes (TDD This is updated with only).counter It also includes TTIs in every which subframe which only 1 OFDM no PDSCHforcan be scheduled, for symbol is the allocated the PDCCH. example, specialtosubframes in This counter is notofupdated for and the configuration normal CP subframes foriswhich the with number special subframe configuration 5 of This counter updated every allocated PDCCH OFDM symbols (TDD only), the subframes with subframe for which 2 OFDM is different 1 (for example PRS, MBMS subframes, ABS 2). symbols arefrom allocated to the subframes, and so on. PDCCH. This counter is not updated for subframes which This counter is updatedfor with every the number of allocated PDCCH which 3 OFDM symbols are allocated to the subframe for which 3 OFDM is different PDCCH. This counter is not updated for subframes OFDM symbolssymbols are allocated to thefrom 2 (for example 3). for which the number of allocated PDCCH OFDM PDCCH. This counter is not symbols is different fromafter 3 (foreach example 2). updated for subframes which This counter is updated sampling This counter is updatedfor after each the number of allocated PDCCH interval with the arithmetical average of samples sampling interval with the OFDM symbols is different from 3 each representing the number of UEs in TTI arithmetical average of samples (for example 2). Bundling mode at that moment. each representing the number of The counter is incremented each time a UE is entitled a grant to send a "TTI Bundle".
UEs in TTI Bundling mode ateach that The counter is incremented moment. time a UE is entitled a grant to send a "TTI Bundle".
The counter is incremented when the UE is switched back from TTI Bundling mode earlier than t1 seconds after switching to TTI Bundling. Termination by leaving the cell (HO) is also counted. The counter is incremented when the UE is switched back from TTI Bundling mode within this time span. Termination by leaving the cell (HO) is also counted. The counter is incremented when the UE is switched back from TTI Bundling later than t2 seconds after switching to TTI Bundling mode. Termination by leaving the cell (HO) is also counted. Transmission of an RRC:RRCConnectionReconfiguration message, which includes a "SCellToAddModList-r10" parameter. Reception of an RRC:RRCConnectionReconfigurationComplete message related to a preceding RRC:RRCConnectionReconfiguration message, which included "SCellToAddModList-r10" Every 1 secondathe eNB checks whether the cell is parameter and addressed to state the same UE. in the active Load Balancing for inter-
The counter is incremented when the UE is switched back from TTI Bundling mode earlier than t1 seconds after switching to TTI Bundling. Termination by leaving The counter is incremented when the cell (HO) is also counted. the UE is switched back from TTI Bundling mode within this time span. Termination by leaving the cell is also counted. when The (HO) counter is incremented the UE is switched back from TTI Bundling later than t2 seconds after switching to TTI Bundling mode. Termination the cell (HO) Transmissionbyofleaving an is also counted. RRC:RRCConnectionReconfigurati on message, which includes a "SCellToAddModList-r10" parameter. Reception of an
RRC:RRCConnectionReconfigurati onComplete message related to a preceding RRC:RRCConnectionReconfigurati Every 1 second the eNB checks on message, which a whether the cell is inincluded the active "SCellToAddModList-r10" frequency load balancing; the counter is updated if Load Balancing state for interparameter and addressed to the the result of this check is that the cell is in the frequency load balancing; the same UE. active Load Balancing (that is, theTTI Load counter is updated if thewhenever result of a The counter is updatedstate whenever a UL is The counter is updated Balancing algorithm tries to shift the cell load to this check is that the cell is in assigned to CRG 1. UL TTI is assigned to CRG 1. the neighbor cells). active Load Balancing state (that is, the Load Balancing algorithm tries to shift the cell load to neighbor The counter is updated whenever a UL TTI is The counter is updated whenever a cells). assigned to CRG 2. UL TTI is assigned to CRG 2.
The counter is updated whenever a UL TTI is assigned to CRG 3.
The counter is updated whenever a UL TTI is assigned to CRG 3.
The counter is updated whenever a UL TTI is assigned to CRG 4.
The counter is updated whenever a UL TTI is assigned to CRG 4.
The counter is updated whenever a TTI could potentially be used for PUSCH data. (In case no data is present, there is no need to actually use this TTI for data transfer.)
The counter is updated whenever a TTI could potentially be used for PUSCH data. (In case no data is present, there is no need to actually use TTI for data transfer.) The this counter is updated whenever a
The counter is updated whenever a DL TTI is assigned to CRG 1.
DL TTI is assigned to CRG 1.
The counter is updated whenever a DL TTI is assigned to CRG 2.
The counter is updated whenever a DL TTI is assigned to CRG 2.
The counter is updated whenever a DL TTI is assigned to CRG 3.
The counter is updated whenever a DL TTI is assigned to CRG 3.
The counter is updated whenever a DL TTI is assigned to CRG 4.
The counter is updated whenever a DL TTI is assigned to CRG 4.
The counter is updated whenever a TTI could potentially be used for PDSCH data. (In case no data is present, there is no need to actually use this TTI for data transfer.)
The counter is updated whenever a TTI could potentially be used for PDSCH data. (In case no data is present, there is no need to actually use this TTI forthe data transfer.) Every second Cell DL
Every second the Cell DL Composite Available Capacity (CAC) is measured by an eNB internal measurement. This counter is updated if the measured cell DL CAC was zero (DL CAC = 0). Every second the Cell DL Composite Available Capacity (CAC) is measured by an eNB internal measurement. This counter is updated if the measured cell DL CAC was in the range 0 < DL CAC 20. the Cell DL Composite Available Every<= second Capacity (CAC) is measured by an eNB internal measurement. This counter is updated if the measured cell DL CAC was in the range 20 < DL CAC 40. the Cell DL Composite Available Every<= second Capacity (CAC) is measured by an eNB internal measurement. This counter is updated if the measured cell DL CAC was in the range 40 < DL CAC 60. the Cell DL Composite Available Every<= second Capacity (CAC) is measured by an eNB internal measurement. This counter is updated if the measured cell DL CAC was in the range 60 < DL CAC 80. the Cell DL Composite Available Every<= second Capacity (CAC) is measured by an eNB internal measurement. This counter is updated if the measured cell DL CAC was in the range 80 < DL CAC <= 100.is updated in every TTI when the The counter interference shaping is applied.
The counter is updated in every TTI when the interference shaping is applied.
Composite Available Capacity (CAC) is measured by an eNB internal measurement. This counter is updated if the Every second themeasured Cell DL cell DL CAC was zero (DL CAC = 0). Composite Available Capacity (CAC) is measured by an eNB internal measurement. This counter is updated if the Every second themeasured Cell DL cell DL CAC was in the range 0 < DL CAC Composite Available Capacity <= 20. (CAC) is measured by an eNB internal measurement. This counter is updated if the Every second themeasured Cell DL cell DL CAC was in the range 20 < DL CAC Composite Available Capacity <= 40. (CAC) is measured by an eNB internal measurement. This counter is updated if the Every second themeasured Cell DL cell DL CAC was in the range 40 < DL CAC Composite Available Capacity <= 60. (CAC) is measured by an eNB internal measurement. This counter is updated if the Every second themeasured Cell DL cell DL CAC was in the range 60 < DL CAC Composite Available Capacity <= 80. (CAC) is measured by an eNB internal measurement. This counter is updated theupdated measured cell DL The counterif is in every TTI CAC was in the range 80 < DL is CAC when the interference shaping <= 100. applied. The counter is updated in every TTI when the interference shaping is applied.
The counter is incremented when the preferred resources are changed.
The counter is incremented when the preferred resources are changed.
Every second the Cell DL Available Capacity (AC) for PDCCH is measured by an eNB internal measurement. This counter is updated if the measured cell PDCCH AC was zero (DL AC = 0).
Every second the Cell DL Available Capacity (AC) for PDCCH is measured by an eNB internal measurement. This counter is updated if the the measured Every second Cell DLcell Available PDCCH AC was zero (DL AC Capacity (AC) for PDCCH is = 0).
Every second the Cell DL Available Capacity (AC) for PDCCH is measured by an eNB internal measurement. This counter is updated if the measured cell PDCCH AC was in the range 0 < PDCCH AC <=the 20.Cell DL Available Capacity (AC) Every second for PDCCH is measured by an eNB internal measurement. This counter is updated if the measured cell PDCCH AC was in the range 20 < PDCCH AC <=the 40.Cell DL Available Capacity (AC) Every second for PDCCH is measured by an eNB internal measurement. This counter is updated if the measured cell PDCCH AC was in the range 40 < PDCCH AC <=the 60.Cell DL Available Capacity (AC) Every second for PDCCH is measured by an eNB internal measurement. This counter is updated if the measured cell PDCCH AC was in the range 60 < PDCCH AC <=the 80.Cell DL Available Capacity (AC) Every second for PDCCH is measured by an eNB internal measurement. This counter is updated if the measured cell PDCCH AC was in the range 80 < PDCCH AC <=the 100. Every second Cell DL Available Capacity (AC) for GBR bearers is measured by an eNB internal measurement. This counter is updated if the measured cell DL GBR AC was zero (DL AC = 0). Every second the Cell DL Available Capacity (AC) for GBR bearers is measured by an eNB internal measurement. This counter is updated if the measured cell DL GBR AC was in the range 0 < DL GBR <= 20. EveryAC second the Cell DL Available Capacity (AC) for GBR bearers is measured by an eNB internal measurement. This counter is updated if the measured cell DL GBR AC was in the range 20 < DL GBR AC <=the 40.Cell DL Available Capacity (AC) Every second for GBR bearers is measured by an eNB internal measurement. This counter is updated if the measured cell DL GBR AC was in the range 40 < DL GBR AC <=the 60.Cell DL Available Capacity (AC) Every second for GBR bearers is measured by an eNB internal measurement. This counter is updated if the measured cell DL GBR AC was in the range 60 < DL GBR AC <= 80.
measured by an eNB internal measurement. This counter is updated if the the measured Every second Cell DLcell Available PDCCH AC was in the range Capacity (AC) for PDCCH is 0 < PDCCH AC <= 20. measured by an eNB internal measurement. This counter is updated if the the measured Every second Cell DLcell Available PDCCH AC was in the range Capacity (AC) for PDCCH is 20 < PDCCH AC <= 40. measured by an eNB internal measurement. This counter is updated if the the measured Every second Cell DLcell Available PDCCH AC was in the range Capacity (AC) for PDCCH is 40 < PDCCH AC <= 60. measured by an eNB internal measurement. This counter is updated if the the measured Every second Cell DLcell Available PDCCH AC was in the range Capacity (AC) for PDCCH is 60 < PDCCH AC <= 80. measured by an eNB internal measurement. This counter is updated if the the measured Every second Cell DLcell Available PDCCH AC was in the range 80is< Capacity (AC) for GBR bearers PDCCH AC <= 100. measured by an eNB internal measurement. This counter is updated if the the measured DL Every second Cell DLcell Available GBR AC was zero (DL AC = 0). Capacity (AC) for GBR bearers is measured by an eNB internal measurement. This counter is updated if the the measured DL Every second Cell DLcell Available GBR AC was in the range 0 < Capacity (AC) for GBR bearersDL is GBR AC <=by20. measured an eNB internal measurement. This counter is updated if the the measured DL Every second Cell DLcell Available GBR AC was in the range 20 < DL Capacity (AC) for GBR bearers is GBR AC <= 40. measured by an eNB internal measurement. This counter is updated if the the measured DL Every second Cell DLcell Available GBR AC was in the range 40 < DL Capacity (AC) for GBR bearers is GBR AC <= 60. measured by an eNB internal measurement. This counter is updated if the measured cell DL GBR AC was in the range 60 < DL GBR AC <= 80.
Every second the Cell DL Available Capacity (AC) for GBR bearers is measured by an eNB internal measurement. This counter is updated if the measured cell DL GBR AC was in the range 80 < DL GBR AC <=the 100. Every second Cell DL Available Capacity (AC) for non-GBR bearers is measured by an eNB internal measurement. This counter is updated if the measured cell DL non-GBR AC was zero (DL AC = 0). Every second the Cell DL Available Capacity (AC) for GBR bearers is measured by an eNB internal measurement. This counter is updated if the measured cell DL non-GBR AC was in the range 0 < DL non-GBR ACCell <= 20. Every second the DL Available Capacity (AC) for GBR bearers is measured by an eNB internal measurement. This counter is updated if the measured cell DL non-GBR AC was in the range 20 < DL non-GBR AC <= Every second the Cell DL40. Available Capacity (AC) for non-GBR bearers is measured by an eNB internal measurement. This counter is updated if the measured cell DL non-GBR AC was in the range 40 < DLthe non-GBR <= 60. Capacity (AC) Every second Cell DLAC Available for non-GBR bearers is measured by an eNB internal measurement. This counter is updated if the measured cell DL non-GBR AC was in the range 60 < DLthe non-GBR <= 80. Capacity (AC) Every second Cell DLAC Available for non-GBR bearers is measured by an eNB internal measurement. This counter is updated if the measured cell DL non-GBR AC was in the range 80 < DL AC <=500 100. This counter is non-GBR updated every ms when the muting pattern 1 is active.
Every second the Cell DL Available Capacity (AC) for GBR bearers is measured by an eNB internal measurement. This counter is updated if the the measured DL Every second Cell DLcell Available GBR AC was in the range 80 < DL Capacity (AC) for GBR bearers is GBR AC <= 100. measured by an eNB internal measurement. This counter is updated if the the measured DL Every second Cell DLcell Available non-GBR AC was zero (DL AC Capacity (AC) for GBR bearers=is0). measured by an eNB internal measurement. This counter is updated if the the measured DL Every second Cell DLcell Available non-GBR AC was in the range Capacity (AC) for GBR bearers0is< DL non-GBR <= 20. measured by AC an eNB internal measurement. This counter is updated if the the measured DL Every second Cell DLcell Available non-GBR AC was in the range 20 < Capacity (AC) for non-GBR bearers DL non-GBR AC <= 40. is measured by an eNB internal measurement. This counter is updated if the the measured DL Every second Cell DLcell Available non-GBR AC was in the range 40 < Capacity (AC) for non-GBR bearers DL non-GBR AC <= 60. is measured by an eNB internal measurement. This counter is updated if the the measured DL Every second Cell DLcell Available non-GBR AC was in the range 60 < Capacity (AC) for non-GBR bearers DL non-GBR AC <= 80. is measured by an eNB internal measurement. This counter is updated if theismeasured cell DL This counter updated every 500 non-GBR AC was in the range 80 < ms when the muting pattern 1 is DL non-GBR AC <= 100. active.
This counter is updated every 500 ms when the muting pattern 2 is active.
This counter is updated every 500 ms when the muting pattern 2 is active.
This counter is updated every 500 ms when the muting pattern 3 is active.
This counter is updated every 500 ms when the muting pattern 3 is active.
This counter is updated every 500 ms when the muting pattern 4 is active.
This counter is updated every 500 ms when the muting pattern 4 is active.
This counter is updated every 500 ms when the muting pattern 5 is active.
This counter is updated every 500 ms when the muting pattern 5 is active.
This counter is updated every 500 ms when the muting pattern 6 is active.
This counter is updated every 500 ms when the muting pattern 6 is active.
This counter is incremented per ABS sub-frame if there is no user plane traffic, that is, the PRB utilization of the CRE UE is 0 %.
This counter is incremented per ABS sub-frame if there is no user plane traffic, that is, the PRB utilization of the CRE UE is 0 %.
This counter is incremented per ABS sub-frame if This counter is incremented per the PRB utilization of the CRE UE is in the range 0 ABS sub-frame if the PRB % < x <= 10 %. utilization of the CRE UE is in the range 0 % < x <= 10 %. This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 10 % < x <= 20 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 10 % < x <= 20 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 20 %. < x <= 30 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 20 %. < x <= 30 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 30 % < x <= 40 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 30 % < x <= 40 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 40 % < x <= 50 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 40 % < x <= 50 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 50 % < x <= 60 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 50 % < x <= 60 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 60 % < x <= 70 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 60 % < x <= 70 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 70 % < x <= 80 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 70 % < x <= 80 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 80 % < x <= 90 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 80 % < x <= 90 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 90 % < x <= 100 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 90 % < x <= 100 %.
This counter is incremented per ABS sub-frame if there is no user tplane traffic, that is, the PRB utilization of the CRE UE is 0 %.
This counter is incremented per ABS sub-frame if there is no user tplane traffic, that is, the PRB utilization of the CRE UE is 0 %.
This counter is incremented per ABS sub-frame if This counter is incremented per the PRB utilization of the CRE UE is in the range 0 ABS sub-frame if the PRB % < x <= 10 %. utilization of the CRE UE is in the range 0 % < x <= 10 %. This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 10 % < x <= 20 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 10 % < x <= 20 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 20 % < x <= 30 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 20 % < x <= 30 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 30 % < x <= 40 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 30 % < x <= 40 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 40 % < x <= 50 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 40 % < x <= 50 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 50 % < x <= 60 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 50 % < x <= 60 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 60 % < x <= 70 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 60 % < x <= 70 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 70 % < x <= 80 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 70 % < x <= 80 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 80 % < x <= 90 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 80 % < x <= 90 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 90 % < x <= 100 %.
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 90 % < x <= 100 %.
This measurement is determined by accumulating the number of uplink PRBs (i.e. the sum of complete PRBs and fractions of PRBs) used for DTCH traffic for SAEB QoS level 1 and the number of available uplink PRBs for DTCH traffic every sample period. At the end of the collection interval the accumulated used PRBs is divided by the accumulated available PRBs to obtain the measurement percentage value.
This measurement is determined by accumulating the number of uplink PRBs (i.e. the sum of complete PRBs and fractions of PRBs) used for DTCH traffic for SAEB QoS level 1 and the number of available uplink PRBs for DTCH traffic every sample period. At the end of the collection interval the accumulated used PRBs is divided by the accumulated available PRBs to obtain the measurement percentage value.
This measurement is determined by accumulating the number of uplink PRBs (i.e. the sum of complete PRBs and fractions of PRBs) used for DTCH traffic for SAEB QoS level 2 and the number of available uplink PRBs for DTCHbytraffic every This measurement is determined accumulating sample period. At the end of the collection the number of uplink PRBs (i.e. the sum of interval the accumulated used PRBs isofdivided thefor complete PRBs and fractions PRBs) by used accumulated available PRBs to obtain the DTCH traffic for SAEB QoS level 3 and the number measurement percentage value. of available uplink PRBs for DTCHbytraffic every This measurement is determined accumulating sample period. At the end of the collection the number of uplink PRBs (i.e. the sum of interval the accumulated used PRBs isofdivided thefor complete PRBs and fractions PRBs) by used accumulated available PRBs to obtain the DTCH traffic for SAEB QoS level 4 and the number measurement percentage value. of available uplink PRBs for DTCHbytraffic every This measurement is determined accumulating sample period. At the end of the collection the number of uplink PRBs (i.e. the sum of interval the accumulated used PRBs isofdivided thefor complete PRBs and fractions PRBs) by used accumulated available PRBs to obtain the DTCH traffic for SAEB QoS level 5 and the number measurement percentage value. of available uplink PRBs for DTCHbytraffic every This measurement is determined accumulating sample period. At the end of the collection the number of uplink PRBs (i.e. the sum of interval the accumulated used PRBs isofdivided thefor complete PRBs and fractions PRBs) by used accumulated available PRBs to obtain the DTCH traffic for SAEB QoS level 6 and the number measurement percentage value. of available uplink PRBs for DTCHbytraffic every This measurement is determined accumulating sample period. At the end of the collection the number of uplink PRBs (i.e. the sum of interval the accumulated used PRBs isofdivided thefor complete PRBs and fractions PRBs) by used accumulated available PRBs to obtain the DTCH traffic for SAEB QoS level 7 and the number measurement percentage value. of available uplink PRBs for DTCHbytraffic every This measurement is determined accumulating sample period. At the end of the collection the number of uplink PRBs (i.e. the sum of interval the accumulated used PRBs isofdivided thefor complete PRBs and fractions PRBs) by used accumulated available PRBs to obtain the DTCH traffic for SAEB QoS level 8 and the number measurement percentage value. of available uplink PRBs for DTCHbytraffic every This measurement is determined accumulating sample period. At the end of the collection the number of uplink PRBs (i.e. the sum of interval the accumulated used PRBs isofdivided thefor complete PRBs and fractions PRBs) by used accumulated available PRBs to obtain the DTCH traffic for SAEB QoS level 9 and the number measurement percentage value. of available uplink PRBs for DTCHbytraffic every This measurement is determined accumulating sample period. At the end of the collection the number of uplink PRBs (that is, the suminterval of the accumulated used PRBs isofdivided thefor complete PRBs and fractions PRBs) by used accumulated available PRBs to obtain the QoS DTCH traffic for currently supported SAEB measurement percentage value. levels within the range of 10-255 and the number This measurement is determined by accumulating of available uplink PRBs for DTCH traffic every the number of uplink PRBs (i.e. the sum of sample period. At the end of the collection interval complete PRBs and fractions of PRBs) used for the accumulated used PRBs are divided by DCCH and CCCH data and the number of the accumulated available PRBs to obtain the data available uplink PRBs for DCCH and CCCH This measurement is determined by accumulating measurement percentage value. every sample At PRBs the end of the the sum collection the number ofperiod. downlink (i.e. of interval the accumulated used PRBs is complete PRBs and fractions of PRBs) divided used forby the accumulated available obtain DTCH traffic for SAEB QoSPRBs level to 1 and thethe number percentage value. of available downlink PRBs for DTCH traffic every This measurement is determined by accumulating sample period. At the end of the collection interval the number of downlink PRBs (i.e. the sum of the accumulated used PRBs isofdivided thefor complete PRBs and fractions PRBs) by used accumulated available PRBs to obtain the DTCH traffic for SAEB QoS level 2 and the number measurement percentage of available downlink PRBsvalue. for DTCH traffic every sample period. At the end of the collection interval the accumulated used PRBs is divided by the accumulated available PRBs to obtain the measurement percentage value.
This measurement is determined by accumulating the number of uplink PRBs (i.e. the sum of complete PRBs and fractions of PRBs) used for traffic for is SAEB QoS by ThisDTCH measurement determined level 2 and the number of available accumulating the number of uplink uplink PRBs DTCH traffic every PRBs (i.e. theforsum of complete sample period. At the end of the PRBs and fractions of PRBs) used collection interval the accumulated for DTCH traffic for SAEB QoS This measurement is determined by used is divided byofthe level 3PRBs and the number available accumulating the number of uplink accumulated available PRBs to uplink PRBs DTCH traffic every PRBs (i.e. theforsum of complete obtain the measurement sample period. At the end of the PRBs and fractions PRBs) used percentage value.theofaccumulated collection interval for DTCH traffic for SAEB QoS This measurement is determined by used is divided byofthe level 4PRBs and the number available accumulating the number of uplink accumulated available PRBs to uplink PRBs DTCH traffic every PRBs (i.e. theforsum of complete obtain the measurement sample period. At the end of the PRBs and fractions PRBs) used percentage value.theofaccumulated collection interval for DTCH traffic for SAEB QoS This measurement is determined by used is divided byofthe level 5PRBs and the number available accumulating the number of uplink accumulated available PRBs to uplink PRBs DTCH traffic every PRBs (i.e. theforsum of complete obtain the measurement sample period. At the end of the PRBs and fractions PRBs) used percentage value.theofaccumulated collection interval for DTCH traffic for SAEB QoS This measurement is determined by used is divided byofthe level 6PRBs and the number available accumulating the number of uplink accumulated available PRBs to uplink PRBs DTCH traffic every PRBs (i.e. theforsum of complete obtain the measurement sample period. At the end of the PRBs and fractions PRBs) used percentage value.theofaccumulated collection interval for DTCH traffic for SAEB QoS This measurement is determined by used is divided byofthe level 7PRBs and the number available accumulating the number of uplink accumulated available PRBs to uplink PRBs DTCH traffic every PRBs (i.e. theforsum of complete obtain the measurement sample period. At the end of the PRBs and fractions PRBs) used percentage value.theofaccumulated collection interval for DTCH traffic for SAEB QoS This measurement is determined by used is divided byofthe level 8PRBs and the number available accumulating the number of uplink accumulated available PRBs to uplink PRBs DTCH traffic every PRBs (i.e. theforsum of complete obtain the measurement sample period. At the end of the PRBs and fractions PRBs) used percentage value.theofaccumulated collection interval for DTCH traffic for SAEB QoS This measurement is determined by used is divided byofthe level 9PRBs and the number available accumulating the number of uplink accumulated available PRBs every to uplink PRBsis,for DTCH PRBs (that the sum traffic of complete obtain the measurement sample period. At the end of the PRBs and fractions PRBs) used percentage value.theofaccumulated collection interval for DTCH traffic for currently This measurement is determined used PRBsSAEB is divided by the withinby supported levels accumulating the QoS number of uplink accumulated available PRBs the range of 10-255 the to PRBs (i.e. the sum ofand complete obtain the measurement number of fractions available of uplink PRBs for PRBs and PRBs) used percentage value. DTCH traffic every sample period. for DCCH and CCCH data and theby This is determined At themeasurement end of the collection interval number of available uplink for accumulating the used number ofPRBs the accumulated PRBs are DCCH and CCCH data every downlink PRBs (i.e. the sum of divided by the accumulated sample period. thefractions end of the complete PRBsAt and available PRBs to obtain the of collection interval the accumulated PRBs) used for DTCH traffic for by measurement percentage value. This measurement is determined used PRBs is divided bythe the SAEB QoS level 1 and number accumulating available the number of to accumulated PRBs of available downlink PRBs downlink PRBs (i.e. the sumfor of obtain the percentage value. DTCH traffic every period. complete PRBs andsample fractions of At the end theDTCH collection PRBs) usedoffor trafficinterval for the accumulated is SAEB QoS level 2used andPRBs the number divided by the accumulated of available downlink PRBs for available PRBs to obtain the DTCH traffic every sample period. measurement percentage At the end of the collectionvalue. interval the accumulated used PRBs is divided by the accumulated available PRBs to obtain the measurement percentage value.
This measurement is determined by accumulating the number of downlink PRBs (i.e. the sum of complete PRBs and fractions of PRBs) used for DTCH traffic for SAEB QoS level 3 and the number of available downlink for DTCH traffic every This measurement is PRBs determined by accumulating sample period. At the end of the collection the number of downlink PRBs (i.e. the suminterval of the accumulated used PRBs isofdivided thefor complete PRBs and fractions PRBs) by used accumulated available PRBslevel to obtain DTCH traffic for SAEB QoS 4 andthe the number measurement percentage value. of available downlink PRBs for DTCH traffic every This measurement is determined by accumulating sample period. At the end of the collection interval the number of downlink PRBs (i.e. the sum of the accumulated used PRBs isofdivided thefor complete PRBs and fractions PRBs) by used accumulated available PRBs to obtain the DTCH traffic for SAEB QoS level 5 and the number measurement percentage value. of available downlink for DTCH traffic every This measurement is PRBs determined by accumulating sample period. At the end of the collection the number of downlink PRBs (i.e. the suminterval of the accumulated used PRBs isofdivided thefor complete PRBs and fractions PRBs) by used accumulated available PRBslevel to obtain DTCH traffic for SAEB QoS 6 andthe the number measurement percentage value. of available downlink PRBs for DTCH traffic every This measurement is determined by accumulating sample period. At the end of the collection interval the number of downlink PRBs (i.e. the sum of the accumulated used PRBs isofdivided thefor complete PRBs and fractions PRBs) by used accumulated available PRBs to obtain the DTCH traffic for SAEB QoS level 7 and the number measurement percentage value. of available downlink for DTCH traffic every This measurement is PRBs determined by accumulating sample period. At the end of the collection the number of downlink PRBs (i.e. the suminterval of the accumulated used PRBs isofdivided thefor complete PRBs and fractions PRBs) by used accumulated available PRBslevel to obtain DTCH traffic for SAEB QoS 8 andthe the number measurement percentage value. of available downlink PRBs for DTCH traffic every This measurement is determined by accumulating sample period. At the end of the collection interval the number of downlink PRBs (i.e. the sum of the accumulated used PRBs isofdivided thefor complete PRBs and fractions PRBs) by used accumulated available PRBs to obtain the DTCH traffic for SAEB QoS level 9 and the number measurement percentage value. of available downlink for DTCH traffic every This measurement is PRBs determined by accumulating sample period. At the end of the collection interval the number of downlink PRBs (that is, the sum of the accumulated used PRBs is divided by the complete PRBs and fractions of PRBs) used for accumulated available PRBs to obtain the QoS DTCH traffic for currently supported SAEB measurement percentage value. levels within the range of 10-255 and the number This measurement is determined by accumulating of available downlink PRBs for DTCH every the number of downlink PRBs (i.e. the traffic sum of sample period. At the end of the collection interval complete PRBs and fractions of PRBs) used for the accumulated arenumber dividedof by the DCCH and CCCHused dataPRBs and the accumulated available PRBs to obtain the available downlink DCCH and CCCH Every 1 second, thePRBs eNB for checks whether the cell is measurement percentage value. data every sample period. At the end of the in the active load balancing state for load balancing collection the accumulated is to UTRAN.interval The counter is updated used if the PRBs result of divided by the accumulated available PRBs to this check is that the cell is in the active load obtain the state percentage balancing for loadvalue. balancing (that This counter is updated every 500 to msUTRAN when the is, the load balancing algorithm tries to shift the muting pattern 0 is active, i.e. when no muting iscell load to UTRAN neighbor cells). applied.
This measurement is determined by accumulating the number of downlink PRBs (i.e. the sum of complete PRBs and fractions of PRBs) used for DTCH traffic for by This measurement is determined SAEB QoS level 3 and theofnumber accumulating the number of available downlink PRBs downlink PRBs (i.e. the sumfor of DTCH traffic every period. complete PRBs andsample fractions of At the end offor theDTCH collection interval PRBs) used traffic for This measurement is determined the accumulated is by SAEB QoS level 4used andPRBs theofnumber accumulating the number divided by the accumulated of available downlink PRBs for downlink PRBs (i.e. the sum of available to obtain the DTCH traffic every sample period. complete PRBspercentage and fractions of measurement value. At the end offor theDTCH collection interval PRBs) used traffic for Thisaccumulated measurement is determined the is by SAEB QoS level 5used andPRBs theofnumber accumulating the number divided by the accumulated of available downlink PRBs for downlink PRBs (i.e. the sum of available to obtain the DTCH traffic every sample period. complete PRBspercentage and fractions of measurement value. At the end offor theDTCH collection interval PRBs) used traffic for This measurement is determined the accumulated is by SAEB QoS level 6used andPRBs theofnumber accumulating the number divided by the accumulated of available downlink PRBs for downlink PRBs (i.e. the sum of available to obtain the DTCH traffic every sample period. complete PRBspercentage and fractions of measurement value. At the end offor theDTCH collection interval PRBs) used traffic for Thisaccumulated measurement is determined the is by SAEB QoS level 7used andPRBs theofnumber accumulating the number divided by the accumulated of available downlink PRBs for downlink PRBs (i.e. the sum of available to obtain the DTCH traffic every sample period. complete PRBspercentage and fractions of measurement value. At the end offor theDTCH collection interval PRBs) used traffic for This measurement is determined the accumulated is by SAEB QoS level 8used andPRBs theofnumber accumulating the number divided by the accumulated of available downlink PRBs for downlink PRBs (i.e. the sum of available to obtain the DTCH traffic every sample period. complete PRBspercentage and fractions of measurement value. At the end offor theDTCH collection interval PRBs) used traffic for Thisaccumulated measurement is determined the is by SAEB QoS level 9used andPRBs theofnumber accumulating the number divided by the accumulated of available downlink PRBs for of downlink PRBs (that is, the sum available to obtain the DTCH traffic every sample period. complete PRBspercentage and fractions of measurement value. At the end offor theDTCH collection interval PRBs) used traffic for This measurement is determined the accumulated used PRBs is by currently supported SAEB QoS accumulating the number of divided by the accumulated levels within the range 10-255 downlink PRBs (i.e. theofsum available to obtain the of and the number of available complete PRBspercentage and fractions of measurement value. downlink PRBs for DTCH traffic PRBs) used for DCCH and CCCH Every sample 1 second, the eNB checks every period. At the end of data andthe thecell number of available whether is in the active load the collection interval the downlink for DCCH and balancingPRBs state for PRBs load balancing accumulated used are CCCH data every sample period. to UTRAN. Theaccumulated counter is updatedAt divided by the the end of the collection interval the ifavailable thecounter result ofisthis is that500 the PRBs to check obtain the This updated every accumulated used PRBs is divided cell is in the load balancing measurement percentage value. ms when theactive muting pattern 0PRBs is by the accumulated available state for load balancing to UTRAN active, i.e. when no muting is to obtain theload percentage value. (that is, the balancing applied. algorithm tries to shift the cell load This counter is updated upon the reception of an This counter is updated upon the to UTRAN neighbor cells). RRC:RRCConnectionReconfigurationComplete reception of an message related to a preceding RRC:RRCConnectionReconfigurati RRC:RRCConnectionReconfiguration message, onComplete message related to a which included an "SCellToAddModList-r10" preceding parameter and if a configured SCell is replaced by RRC:RRCConnectionReconfigurati another one due to an Event A6 measurement on message, which included an result that is received from the UE. "SCellToAddModList-r10" parameter and if a configured SCell is replaced by another one due to an Event A6 measurement result that is received from the UE.
This counter is updated whenever scheduling of PUCCH format 1bwcs is attempted.
This counter is updated whenever scheduling of PUCCH format 1bwcs is attempted.
This counter is updated whenever scheduling of PUCCH format 3 is attempted.
This counter is updated whenever scheduling of PUCCH format 3 is attempted.
The transmission of a MAC PDU for the first time
The transmission of a MAC PDU for the first time
A correctly received MAC PDU with retransmission. A correctly received MAC PDU with retransmission.
Th re-transmission of a MAC PDU
Th re-transmission of a MAC PDU
A correctly received MAC PDU by original transmission
A correctly received MAC PDU by original transmission
This counter is updated on the transmission of an RLC SDU on DL DCCH towards the UE
This counter is updated on the transmission of an RLC SDU on DL DCCH towards the UE
This counter is updated on the reception of an RLC This counter is updated on the SDU on DCCH from UE reception of an RLC SDU on DCCH from UE This counter is updated when RLC PDU is received from UE
This counter is updated when RLC PDU is received from UE
This counter is updated when RLC PDU is transmitted to UE
This counter is updated when RLC PDU is transmitted to UE
This counter is updated when a PDCP SDU is received from UE.
This counter is updated when a PDCP SDU is received from UE.
This counter is updated when a PDCP SDU is transmitted towards the UE.
This counter is updated when a PDCP SDU is transmitted towards the UE.
This counter is updated when a PDCP SDU is received from UE.
This counter is updated when a PDCP SDU is received from UE.
This counter is updated when a PDCP SDU is received from UE.
This counter is updated when a PDCP SDU is received from UE.
This counter is updated when a PDCP SDU is transmitted towards the UE.
This counter is updated when a PDCP SDU is transmitted towards the UE.
This counter is updated when a PDCP SDU is transmitted towards the UE.
This counter is updated when a PDCP SDU is transmitted towards the UE.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
The counter is updated when MAC SDU is received. The size of received MAC SDU data is added to this counter over the measurement period. Retransmissions are included in the counter. The counter is updated when MAC SDU is
The counter is updated when MAC SDU is received. The size of received MAC SDU data is added to this counter over the measurement The counter is period. updated when MAC in the received. Size of received MAC SDU data is added Retransmissions SDU is received. are Sizeincluded of received counter. to this counter over the measurement period. MAC SDU data is added to this Retransmissions are included to counter. counter over the measurement period. Retransmissions are included to counter.
The counter is updated when MAC SDU is received. Size of received MAC SDU data is added to this counter over the measurement period. Retransmissions are included to counter. The counter is updated when MAC SDU is sent. Size of sent MAC SDU data is added to this counter over the measurement period. Retransmissions are included to counter. The counter is updated when MAC SDU is sent. Size of sent MAC SDU data is added to this counter over the measurement period. Retransmissions are included to counter. The counter is updated when MAC SDU is sent. Size of sent MAC SDU data is added to this counter over the measurement period. Retransmissions are included to counter. The counter is updated when an RRC data block from UE is received. Size of UL RLC PDU's mapped to SRB0, SRB1 and SRB2 are counted.
The counter is updated when MAC SDU is received. Size of received MAC SDU data is added to this counter over the measurement period. Retransmissions are MAC The counter is updated when included to counter. SDU is sent. Size of sent MAC SDU data is added to this counter over the measurement period. Retransmissions are included to The counter is updated when MAC counter. SDU is sent. Size of sent MAC SDU data is added to this counter over the measurement period. Retransmissions are included to The counter is updated when MAC counter. SDU is sent. Size of sent MAC SDU data is added to this counter over the measurement period. Retransmissions are included to The counter is updated when an counter. RRC data block from UE is
received. Size of UL RLC PDU's mapped to SRB0, SRB1 and SRB2 The counter is updated when an RRC data block is are Thecounted. counter is updated when an transmitted towards the UE. Size of DL RLC PDU's RRC data block is transmitted mapped to SRB0, SRB1 and SRB2 are counted. towards the UE. Size of DL RLC PDU's mapped to SRB0, SRB1 and are counted. The counter is updated on the reception of an RLC SRB2 The counter is updated on the SDU on UL-DTCH from UE
reception of an RLC SDU on ULDTCH from UE
The counter is updated on the transmission of an RLC SDU on DL-DTCH towards the UE
The counter is updated on the transmission of an RLC SDU on DL-DTCH towards the UE
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is incremented with every TTI, in This counter is incremented with which at least one UE is scheduled to transmit user every TTI, in which at least one UE plane data. is scheduled to transmit user plane data. This counter is incremented with every TTI, in This counter is incremented with which at least one UE is scheduled to receive user every TTI, in which at least one UE plane data. is scheduled to receive user plane data. The volume of a data burst excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolUl is the data volume counted on PDCP SDU level in bits received in UL for one ERAB during a samplea of ThpTimeUl. (It mustthe The time to transmit data burst excluding exclude the volume of the last piece data transmitted in the TTI when the buffer is of data emptying emptied. A samplethe of buffer). "ThpTimeUl" for each time the UL buffer for one E-RAB is emptied. The volume of a data burst excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolUl is the data volume counted on PDCP SDU level in bits received in UL for one ERAB during a samplea of ThpTimeUl. (It mustthe The time to transmit data burst excluding exclude the volume of the last piece data transmitted in the TTI when the buffer is of data emptying emptied. A samplethe of buffer). "ThpTimeUl" for each time the UL buffer for one E-RAB is emptied. The volume of a data burst excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolUl is the data volume counted on PDCP SDU level in bits received in UL for one ERAB during a samplea of ThpTimeUl. (It mustthe The time to transmit data burst excluding exclude the volume of the last piece data transmitted in the TTI when the buffer is of data emptying emptied. A samplethe of buffer). "ThpTimeUl" for each time the UL buffer for one E-RAB is emptied.
The volume of a data burst excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolUl is the data volume on PDCP The timecounted to transmit a dataSDU burst level in bits received in UL for one excluding the data transmitted in E-RAB a sample of emptied. the TTI during when the buffer is ThpTimeUl. must exclude A sample of (It "ThpTimeUl" for the each volume of the last piece time the UL buffer for one E-RAB is The volume of a data burst of data emptying the buffer). emptied. excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolUl is the data volume on PDCP The timecounted to transmit a dataSDU burst level in bits received in UL for one excluding the data transmitted in E-RAB a sample of emptied. the TTI during when the buffer is ThpTimeUl. must exclude A sample of (It "ThpTimeUl" for the each volume of the last piece time the UL buffer for one E-RAB is The volume of a data burst of data emptying the buffer). emptied. excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolUl is the data volume on PDCP The timecounted to transmit a dataSDU burst level in bits received in UL for one excluding the data transmitted in E-RAB a sample of emptied. the TTI during when the buffer is ThpTimeUl. must exclude A sample of (It "ThpTimeUl" for the each volume of the last piece time the UL buffer for one E-RAB is of data emptying the buffer). emptied.
The volume of a data burst excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolUl is the data volume counted on PDCP SDU level in bits received in UL for one ERAB during a samplea of ThpTimeUl. (It mustthe The time to transmit data burst excluding exclude the volume of the last piece data transmitted in the TTI when the buffer is of data emptying emptied. A samplethe of buffer). "ThpTimeUl" for each time the UL buffer for one E-RAB is emptied. The volume of a data burst excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolUl is the data volume counted on PDCP SDU level in bits received in UL for one ERAB during a samplea of ThpTimeUl. (It mustthe The time to transmit data burst excluding exclude the volume of the last piece data transmitted in the TTI when the buffer is of data emptying emptied. A samplethe of buffer). "ThpTimeUl" for each time the UL buffer for one E-RAB is emptied. The volume of a data burst excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolUl is the data volume counted on PDCP SDU level in bits received in UL for one ERAB during a samplea of ThpTimeUl. (It mustthe The time to transmit data burst excluding exclude the volume of the last piece data transmitted in the TTI when the buffer is of data emptying emptied. A samplethe of buffer). "ThpTimeUl" for each time the UL buffer for one E-RAB is emptied. The volume of a data burst excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolUl is the data volume counted on PDCP SDU level in bits received in UL for one ERAB during a samplea of ThpTimeUl. (It mustthe The time to transmit data burst excluding exclude the volume of the last piece data transmitted in the TTI when the buffer is of data emptying emptied. A samplethe of buffer). "ThpTimeUl" for each time the UL buffer for one E-RAB is emptied. The volume of a data burst excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolUl is the data volume counted on PDCP SDU level in bits received in UL for one ERAB during a samplea of ThpTimeUl. (It mustthe The time to transmit data burst excluding exclude the volume of the last piece data transmitted in the TTI when the buffer is of data emptying emptied. A samplethe of buffer). "ThpTimeUl" for each time the UL buffer for one E-RAB is emptied. The volume of a data burst excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolUl is the data volume counted on PDCP SDU level in bits received in UL for one ERAB during a samplea of ThpTimeUl. (It mustthe The time to transmit data burst excluding exclude the volume of the last piece data transmitted in the TTI when the buffer is of data emptying emptied. A samplethe of buffer). "ThpTimeUl" for each time the UL buffer for one E-RAB is emptied.
The volume of a data burst excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolUl is the data volume on PDCP The timecounted to transmit a dataSDU burst level in bits received in UL for one excluding the data transmitted in E-RAB a sample of emptied. the TTI during when the buffer is ThpTimeUl. must exclude A sample of (It "ThpTimeUl" for the each volume of the last piece time the UL buffer for one E-RAB is The volume of a data burst of data emptying the buffer). emptied. excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolUl is the data volume on PDCP The timecounted to transmit a dataSDU burst level in bits received in UL for one excluding the data transmitted in E-RAB a sample of emptied. the TTI during when the buffer is ThpTimeUl. must exclude A sample of (It "ThpTimeUl" for the each volume of the last piece time the UL buffer for one E-RAB is The volume of a data burst of data emptying the buffer). emptied. excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolUl is the data volume on PDCP The timecounted to transmit a dataSDU burst level in bits received in UL for one excluding the data transmitted in E-RAB a sample of emptied. the TTI during when the buffer is ThpTimeUl. must exclude A sample of (It "ThpTimeUl" for the each volume of the last piece time the UL buffer for one E-RAB is The volume of a data burst of data emptying the buffer). emptied. excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolUl is the data volume on PDCP The timecounted to transmit a dataSDU burst level in bits received in UL for one excluding the data transmitted in E-RAB a sample of emptied. the TTI during when the buffer is ThpTimeUl. must exclude A sample of (It "ThpTimeUl" for the each volume of the last piece time the UL buffer for one E-RAB is The volume of a data burst of data emptying the buffer). emptied. excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolUl is the data volume on PDCP The timecounted to transmit a dataSDU burst level in bits received in UL for one excluding the data transmitted in E-RAB a sample of emptied. the TTI during when the buffer is ThpTimeUl. must exclude A sample of (It "ThpTimeUl" for the each volume of the last piece time the UL buffer for one E-RAB is The volume of a data burst of data emptying the buffer). emptied. excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolUl is the data volume on PDCP The timecounted to transmit a dataSDU burst level in bits received in UL for one excluding the data transmitted in E-RAB a sample of emptied. the TTI during when the buffer is ThpTimeUl. must exclude A sample of (It "ThpTimeUl" for the each volume of the last piece time the UL buffer for one E-RAB is of data emptying the buffer). emptied.
Reception of a PDCP data block from UE
Reception of a PDCP data block from UE
The volume of a data burst excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolDl is the data volume, counted on PDCP SDU level, in bits successfully transmitted by excluding the last The time to (acknowledged transmit a data burst UE) in DL for one E-RAB during a sample of buffer piece of data transmitted in the TTI when the ThpTimeDl. It must exclude the volume of the last is emptied. piece of data emptying A sample of "ThpTimeDl" for each time the DL the buffer. buffer for oneofE-RAB emptied. The volume a data is burst excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolDl is the data volume, counted on PDCP SDU level, in bits successfully transmitted by excluding the last The time to (acknowledged transmit a data burst UE) in DL for one E-RAB during a sample of buffer piece of data transmitted in the TTI when the ThpTimeDl. It must exclude the volume of the last is emptied. piece of data emptying A sample of "ThpTimeDl" for each time the DL the buffer. buffer for oneofE-RAB emptied. The volume a data is burst excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolDl is the data volume, counted on PDCP SDU level, in bits successfully transmitted by excluding the last The time to (acknowledged transmit a data burst UE) in DL for one E-RAB during a sample of buffer piece of data transmitted in the TTI when the ThpTimeDl. It must exclude the volume of the last is emptied. piece of data emptying A sample of "ThpTimeDl" for each time the DL the buffer. buffer for oneofE-RAB emptied. The volume a data is burst excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolDl is the data volume, counted on PDCP SDU level, in bits successfully transmitted by excluding the last The time to (acknowledged transmit a data burst UE) in DL for one E-RAB during a sample of buffer piece of data transmitted in the TTI when the ThpTimeDl. It must exclude the volume of the last is emptied. piece of data emptying A sample of "ThpTimeDl" for each time the DL the buffer. buffer for oneofE-RAB emptied. The volume a data is burst excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolDl is the data volume, counted on PDCP SDU level, in bits successfully transmitted by excluding the last The time to (acknowledged transmit a data burst UE) in DL for one E-RAB during a sample of buffer piece of data transmitted in the TTI when the ThpTimeDl. It must exclude the volume of the last is emptied. piece of data emptying A sample of "ThpTimeDl" for each time the DL the buffer. buffer for oneofE-RAB emptied. The volume a data is burst excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolDl is the data volume, counted on PDCP SDU level, in bits successfully transmitted (acknowledged by UE) in DL for one E-RAB during a sample of ThpTimeDl. It must exclude the volume of the last piece of data emptying the buffer.
The volume of a data burst excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolDl is the data volume, on PDCP The timecounted to transmit a data SDU burst level, in bits successfully excluding the last piece of data transmitted transmitted (acknowledged in the TTI when by the UE) in DL for one E-RAB during a buffer is emptied. sample of of ThpTimeDl. It must A sample "ThpTimeDl" for each The volume of a data burst exclude the volume of the last piece time the DL buffer for one E-RAB excluding the data transmitted in is of data emptying emptied. the TTI when the buffer is emptied. buffer. A sample for ThpVolDl is the data volume, on PDCP The timecounted to transmit a data SDU burst level, in bits successfully excluding the last piece of data transmitted transmitted (acknowledged in the TTI when by the UE) in DL for one E-RAB during a buffer is emptied. sample of of ThpTimeDl. It must A sample "ThpTimeDl" for each The volume of a data burst exclude the volume of the last piece time the DL buffer for one E-RAB excluding the data transmitted in is of data emptying emptied. the TTI when the buffer is emptied. buffer. A sample for ThpVolDl is the data volume, on PDCP The timecounted to transmit a data SDU burst level, in bits successfully excluding the last piece of data transmitted transmitted (acknowledged in the TTI when by the UE) in DL for one E-RAB during a buffer is emptied. sample of of ThpTimeDl. It must A sample "ThpTimeDl" for each The volume of a data burst exclude the volume of the last piece time the DL buffer for one E-RAB excluding the data transmitted in is of data emptying emptied. the TTI when the buffer is emptied. buffer. A sample for ThpVolDl is the data volume, on PDCP The timecounted to transmit a data SDU burst level, in bits successfully excluding the last piece of data transmitted transmitted (acknowledged in the TTI when by the UE) in DL for one E-RAB during a buffer is emptied. sample of of ThpTimeDl. It must A sample "ThpTimeDl" for each The volume of a data burst exclude the volume of the last piece time the DL buffer for one E-RAB excluding the data transmitted in is of data emptying emptied. the TTI when the buffer is emptied. buffer. A sample for ThpVolDl is the data volume, on PDCP The timecounted to transmit a data SDU burst level, in bits successfully excluding the last piece of data transmitted transmitted (acknowledged in the TTI when by the UE) in DL for one E-RAB during a buffer is emptied. sample of of ThpTimeDl. It must A sample "ThpTimeDl" for each The volume of a data burst exclude the volume of the last piece time the DL buffer for one E-RAB excluding the data transmitted in is of data emptying emptied. the TTI when the buffer is emptied. buffer. A sample for ThpVolDl is the data volume, counted on PDCP SDU level, in bits successfully transmitted (acknowledged by UE) in DL for one E-RAB during a sample of ThpTimeDl. It must exclude the volume of the last piece of data emptying the buffer.
The time to transmit a data burst excluding the last piece of data transmitted in the TTI when the buffer is emptied. A sample of "ThpTimeDl" for each time the DL buffer for oneofE-RAB emptied. The volume a data is burst excluding the data
The time to transmit a data burst excluding the last piece of data transmitted in the TTI when the buffer is emptied. A sample of of "ThpTimeDl" for each The volume a data burst time the DL buffer for one E-RAB transmitted in the TTI when the buffer is emptied. A excluding the data transmitted in is emptied. sample for ThpVolDl is the data volume, counted the TTI when the buffer is emptied. on PDCP SDU level, in bits successfully A sample for ThpVolDl is the data transmitted (acknowledged by on PDCP The time to transmit a data burst excluding the last volume, The timecounted to transmit a data SDU burst UE) in DL for one E-RAB during a sample of level, in bits successfully piece of data transmitted in the TTI when the buffer excluding the last piece of data ThpTimeDl. is emptied. It must exclude the volume of the last transmitted transmitted (acknowledged in the TTI when by the piece of data emptying UE) in DL for one E-RAB during a A sample of "ThpTimeDl" for each time the DL buffer is emptied. the buffer. sample of of ThpTimeDl. It must buffer for oneofE-RAB emptied. A sample "ThpTimeDl" for each The volume a data is burst excluding the data The volume of a data burst exclude the volume of the last piece time the DL buffer for one E-RAB transmitted in the TTI when the buffer is emptied. A excluding the data transmitted in is of data emptying emptied. sample for ThpVolDl is the data volume, counted the TTI when the buffer is emptied. buffer. on PDCP SDU level, in bits successfully A sample for ThpVolDl is the data transmitted by excluding the last volume, on PDCP The time to (acknowledged transmit a data burst The timecounted to transmit a data SDU burst UE) in DL for one E-RAB during a sample of level, in bits successfully piece of data transmitted in the TTI when the buffer excluding the last piece of data ThpTimeDl. is emptied. It must exclude the volume of the last transmitted transmitted (acknowledged in the TTI when by the piece of data emptying UE) in DL for one E-RAB during a A sample of "ThpTimeDl" for each time the DL buffer is emptied. the buffer. sample of of ThpTimeDl. It must buffer for oneofE-RAB emptied. A sample "ThpTimeDl" for each The volume a data is burst excluding the data The volume of a data burst exclude the volume of the last piece time the DL buffer for one E-RAB transmitted in the TTI when the buffer is emptied. A excluding the data transmitted in is of data emptying emptied. sample for ThpVolDl is the data volume, counted the TTI when the buffer is emptied. buffer. on PDCP SDU level, in bits successfully A sample for ThpVolDl is the data transmitted by excluding the last volume, on PDCP The time to (acknowledged transmit a data burst The timecounted to transmit a data SDU burst UE) in DL for one E-RAB during a sample of level, in bits successfully piece of data transmitted in the TTI when the buffer excluding the last piece of data ThpTimeDl. is emptied. It must exclude the volume of the last transmitted transmitted (acknowledged in the TTI when by the piece of data emptying UE) in DL for one E-RAB during a A sample of "ThpTimeDl" for each time the DL buffer is emptied. the buffer. sample of of ThpTimeDl. It must buffer for one of E-RAB is emptied. sample "ThpTimeDl" for each Transmission an PDCP data block towards the A Transmission of an PDCP data exclude the volume of the last piece time the DL buffer for one E-RAB is UE block towards the UE of data emptying emptied. the buffer. This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
This counter is updated when MAC PDU is scheduled. Retransmissions are included.
Transmission of an RLC PDU towards the UE.
Transmission of an RLC PDU towards the UE.
The time to transmit a data burst excluding the last piece of data transmitted in the TTI when the buffer for a QCI 1 E-RAB is emptied. Also excluded are those TTIs in that there was data in the buffer but the was not scheduled. TheUE time to transmit a data burst excluding the last
The time to transmit a data burst excluding the last piece of data transmitted in the TTI when the buffer for a QCI 1 E-RAB is emptied. excluded are burst those The time Also to transmit a data TTIs in that there was data in the piece of data transmitted in the TTI when the buffer excluding the last piece of data buffer but the UE was not for a QCI 2 E-RAB is emptied. Also excluded are transmitted in the TTI when the those TTIs in that there was data in the buffer but scheduled. buffer for a QCI 2 E-RAB is the UE was not scheduled. excluded are burst those The time to transmit a data burst excluding the last emptied. The time Also to transmit a data TTIs in that there was data in the piece of data transmitted in the TTI when the buffer excluding the last piece of data buffer but the UE was not for a QCI 3 E-RAB is emptied. Also excluded are transmitted in the TTI when the those TTIs in that there was data in the buffer but scheduled. buffer for a QCI 3 E-RAB is the was not scheduled. TheUE time to transmit a data burst excluding the last piece of data transmitted in the TTI when the buffer for a QCI 4 E-RAB is emptied. Also excluded are those TTIs in that there was data in the buffer but the was not scheduled. TheUE time to transmit a data burst excluding the last
emptied. excluded are burst those The time Also to transmit a data TTIs in that there was data in the excluding the last piece of data buffer but the UE was not transmitted in the TTI when the scheduled. buffer for a QCI 4 E-RAB is
the was not scheduled. TheUE time to transmit a data burst excluding the last piece of data transmitted in the TTI when the buffer for a QCI 7 E-RAB is emptied. Also excluded are those TTIs in that there was data in the buffer but the was not scheduled. TheUE time to transmit a data burst excluding the last
emptied. excluded are burst those The time Also to transmit a data TTIs in that there was data in the excluding the last piece of data buffer but the UE was not transmitted in the TTI when the scheduled. buffer for a QCI 7 E-RAB is
the was not scheduled. TheUE time to transmit a data burst excluding the last piece of data transmitted in the TTI when the buffer for a QCI 1 E-RAB is emptied. Also excluded are those TTIs in that there was data in the buffer but the was not scheduled. TheUE time to transmit a data burst excluding the last
emptied. excluded are burst those The time Also to transmit a data TTIs in that there was data in the excluding the last piece of data buffer but the UE was not transmitted in the TTI when the scheduled. buffer for a QCI 1 E-RAB is
emptied. excluded are burst those The time Also to transmit a data TTIs in that there was data in the piece of data transmitted in the TTI when the buffer excluding the last piece of data buffer but the UE was not for a QCI 5 E-RAB is emptied. Also excluded are transmitted in the TTI when the those TTIs in that there was data in the buffer but scheduled. buffer for a QCI 5 E-RAB is the UE was not scheduled. excluded are burst those The time to transmit a data burst excluding the last emptied. The time Also to transmit a data TTIs in that there was data in the piece of data transmitted in the TTI when the buffer excluding the last piece of data buffer but the UE was not for a QCI 6 E-RAB is emptied. Also excluded are transmitted in the TTI when the those TTIs in that there was data in the buffer but scheduled. buffer for a QCI 6 E-RAB is
emptied. excluded are burst those The time Also to transmit a data TTIs in that there was data in the piece of data transmitted in the TTI when the buffer excluding the last piece of data buffer but the UE was not for a QCI 8 E-RAB is emptied. Also excluded are transmitted in the TTI when the those TTIs in that there was data in the buffer but scheduled. buffer for a QCI 8 E-RAB is the UE was not scheduled. excluded are burst those The time to transmit a data burst excluding the last emptied. The time Also to transmit a data TTIs in that there was data in the piece of data transmitted in the TTI when the buffer excluding the last piece of data buffer but the UE was not for a QCI 9 E-RAB is emptied. Also excluded are transmitted in the TTI when the those TTIs in that there was data in the buffer but scheduled. buffer for a QCI 9 E-RAB is
emptied. excluded are burst those The time Also to transmit a data TTIs in that there was data in the piece of data transmitted in the TTI when the buffer excluding the last piece of data buffer but the UE was not for a QCI 2 E-RAB is emptied. Also excluded are transmitted in the TTI when the those TTIs in that there was data in the buffer but scheduled. buffer for a QCI 2 E-RAB is the UE was not scheduled. emptied. Also excluded are those TTIs in that there was data in the buffer but the UE was not scheduled.
The time to transmit a data burst excluding the last piece of data transmitted in the TTI when the buffer for a QCI 3 E-RAB is emptied. Also excluded are those TTIs in that there was data in the buffer but the was not scheduled. TheUE time to transmit a data burst excluding the last
The time to transmit a data burst excluding the last piece of data transmitted in the TTI when the buffer for a QCI 3 E-RAB is emptied. excluded are burst those The time Also to transmit a data TTIs in that there was data in the piece of data transmitted in the TTI when the buffer excluding the last piece of data buffer but the UE was not for a QCI 4 E-RAB is emptied. Also excluded are transmitted in the TTI when the those TTIs in that there was data in the buffer but scheduled. buffer for a QCI 4 E-RAB is the UE was not scheduled. excluded are burst those The time to transmit a data burst excluding the last emptied. The time Also to transmit a data TTIs in that there was data in the piece of data transmitted in the TTI when the buffer excluding the last piece of data buffer but the UE was not for a QCI 5 E-RAB is emptied. Also excluded are transmitted in the TTI when the those TTIs in that there was data in the buffer but scheduled. buffer for a QCI 5 E-RAB is the was not scheduled. TheUE time to transmit a data burst excluding the last piece of data transmitted in the TTI when the buffer for a QCI 6 E-RAB is emptied. Also excluded are those TTIs in that there was data in the buffer but the was not scheduled. TheUE time to transmit a data burst excluding the last
emptied. excluded are burst those The time Also to transmit a data TTIs in that there was data in the excluding the last piece of data buffer but the UE was not transmitted in the TTI when the scheduled. buffer for a QCI 6 E-RAB is
the was not scheduled. TheUE time to transmit a data burst excluding the last piece of data transmitted in the TTI when the buffer for a QCI 9 E-RAB is emptied. Also excluded are those TTIs in that there was data in the buffer but the was notofscheduled. TheUE reception an RRC Connection Setup
emptied. excluded are burst those The time Also to transmit a data TTIs in that there was data in the excluding the last piece of data buffer but the UE was not transmitted in the TTI when the scheduled. buffer for a QCI 9 E-RAB is
emptied. excluded are burst those The time Also to transmit a data TTIs in that there was data in the piece of data transmitted in the TTI when the buffer excluding the last piece of data buffer but the UE was not for a QCI 7 E-RAB is emptied. Also excluded are transmitted in the TTI when the those TTIs in that there was data in the buffer but scheduled. buffer for a QCI 7 E-RAB is the UE was not scheduled. excluded are burst those The time to transmit a data burst excluding the last emptied. The time Also to transmit a data TTIs in that there was data in the piece of data transmitted in the TTI when the buffer excluding the last piece of data buffer but the UE was not for a QCI 8 E-RAB is emptied. Also excluded are transmitted in the TTI when the those TTIs in that there was data in the buffer but scheduled. buffer for a QCI 8 E-RAB is
Complete message sent by the UE to eNB.
emptied. Also excluded are those The reception of an RRC TTIs in that there was data Connection Setup Completein the buffer but sent the UE wasUE notto eNB. message by the scheduled.
Timer expiration
Timer expiration
The reception of an erroneous or incomplete RRC Connection Setup Complete message.
The reception of an erroneous or incomplete RRC Connection Setup Complete message.
The reception of an S1AP:UE Context Release Command message sent by the MME to eNB.
The reception of an S1AP:UE Context Release Command message sent by the MME to eNB.
The reception of an S1AP:UE Context Release Command message sent by the MME to eNB.
The reception of an S1AP:UE Context Release Command message sent by the MME to eNB.
The reception of an S1AP:UE Context Release Command message sent by the MME to the eNB.
The reception of an S1AP:UE Context Release Command message sent by the MME to the eNB.
The reception of an S1AP:UE Context Release Command message sent by the MME to eNB. The counter is updated if the failure detected does not match any other failure counter
The reception of an S1AP:UE Context Release Command message sent by the MME to eNB. The counter is updated if the failure detected does notofmatch any other The transmission an S1AP: UE failure counter Context Release Request from the
The counter is updated upon the transmission of an S1AP: UE CONTEXT RELEASE REQUEST message sent by the eNB to the MME with one of the following release causes: -The RNL User Inactivity counter is updated upon the transmission of -an RNL CS Fallback Triggered S1AP: UE CONTEXT RELEASE -REQUEST RNL Inter-RAT Redirection message sent by the eNB to the MME -with RNL Redirection towards 1xRTT one of the following release
eNB to MME with the following release causes: -The RNL User Inactivity transmission of an S1AP: UE -Context RNL E-UTRAN Release Generated Request from the Reason in case Redirect to cause LTE eNB to the MMEofwith release -"RNL RNLRadio Inter-RAT Redirection. Connection with UE
causes: The counter is updated upon the transmission of -an RNL Radio UE Lost S1AP: UEConnection CONTEXT with RELEASE -REQUEST RNL Failure in the Radio Interface procedure message sent by the eNB to the MME -with RNL TX2RELOCoverall Expiry one of the following release -causes: RNL TS1RELOCoverall Expiry This is updated following the reception of -- TNL RNLcounter E-UTRAN Generated Reason Transport Resources Unavailable an RRC Connection Request message sent by the -- TNL RNL Radio resources not available UE to Unspecified eNB. - RNL Invalid QOS combination Note: a UE sends this message - RNL IfUE not (erroneously) available for PS service several times in a row without waiting the proper - RNL Unspecified The reception of an RRC Connection Request time for the response from eNB message sent by the UE to eNB. (RRCConnectionSetup), only the last Note: If a UE (erroneously) sends thismessage messagewill be counted. several times in a row without waiting the proper time for the response fromConnection eNB The reception of an RRC Request (RRCConnectionSetup), only the last message will message sent by the UE to eNB. be counted. Note: If a UE (erroneously) sends this message
Lost". The transmission of an S1AP: UE Context Release Request from the eNB to MME. The counter is updated if the use case does not match "User Inactivity", This counter is updated "Redirect" following and "Lost Radio Connection". the reception of an RRC
Reception of the RRC:RRCConnectionSetupComplete message (eNB <- UE) in case that this message was received from the UE after the reception of the RRC:RRCConnectionRequest message (eNB
Reception of the RRC:RRCConnectionSetupComple te message (eNB <- UE) in case that this message was received from the UE after the reception of the RRC:RRCConnectionRequest message (eNB <-UE) with EstablishmentCause set to emergency (3GPP TS 36.331)
Connection Request message sent by the UE to eNB. Note: If a UE (erroneously) The reception of an RRC sends this message several times in asent row Connection Request message without waiting the proper time for by the UE to eNB. the response from eNB Note: If a UE (erroneously) sends (RRCConnectionSetup), only this message several times in the a row The reception will of an RRC last message be counted. without waiting the proper time for Connection Request message sent the response from eNB by the UE to eNB. (RRCConnectionSetup), only the several times in a row without waiting the proper Note: If a UE (erroneously) sends last message will be counted. time for theofresponse eNB this message several Reception the RRC:from RRCConnectionRequest Reception of the RRC:times in a row (RRCConnectionSetup), only the last message will without waiting the propermessage time for message (eNB <- UE) in case that this message RRCConnectionRequest be counted. the response from eNB contains the EstablishmentCause set to (eNB <- UE) in case that this (RRCConnectionSetup), emergency (3GPP TS 36.331). message contains the only the last message will be counted. Note: If a UE is(erroneously) sends this message EstablishmentCause setattoeach This counter updated at each subframe when This counter is updated several times in a row without waiting the proper emergency (3GPP TS 36.331). UE is DRX Active. subframe when UE is DRX Active. time for the response from eNB Note: If a UE (erroneously) sends (RRCConnectionSetup), only the last message will this message several times in a row be counted. without waiting the proper time for This counter is updated at each subframe when This counter isfrom updated the response eNB at each UE is DRX Sleep (that is not DRX Active). subframe when UE is DRX Sleep (RRCConnectionSetup), only the (that is not DRX Active). last message will be counted.
Transmission of the RRC:RRCConnectionReject message (eNB -> UE) because of missing RB (Radio Bearer) resources in case that this message is sent in response to the reception of the previous RRC:RRCConnectionRequest Transmission of an S1AP:UE CONTEXTmessage (eNB MME; emergency (3GPP TS 36.331). 3GPP TS 36.413) with RNL cause "Radio
Transmission of the RRC:RRCConnectionReject message (eNB -> UE) because of missing RB (Radio Bearer) resources in case this Transmission of anthat S1AP:UE message is sent in response to the CONTEXT RELEASE REQUEST reception of the previous message (eNB -> MME; 3GPP TS RRC:RRCConnectionRequest resources not available". 36.413) with RNL cause "Radio message (eNB <- UE) with resources not of available". Transmission of an RRCConnectionReject Transmission an set to EstablishmentCause message (eNB -> UE) in case that this message is RRCConnectionReject message emergency (3GPP TS 36.331). sent in response to the reception of the previous (eNB -> UE) in case that this RRC:RRCConnectionRequest message (UE -> message is sent in response to the eNB) with EstablishmentCause set to any other reception of the Transmission of an RRCConnectionReject Transmission of previous an cause than "emergency" (3GPP TS 36.331). RRC:RRCConnectionRequest message (eNB -> UE) in case that this message is RRCConnectionReject message message (UEin->case eNB) with sent in response to the reception of the previous (eNB -> UE) that this EstablishmentCause set to any RRC:RRCConnectionRequest message (UE -> message is sent in response to the other cause than "emergency" eNB) with EstablishmentCause set to "emergency" reception of the previous The reception of an RRCConnectionRequest The reception of an (3GPP TS 36.331). (3GPP TSwith 36.331). RRC:RRCConnectionRequest message highPriorityAccess RRCConnectionRequest message message (UE -> eNB) with EstablishmentCause sent by the UE to eNB. with highPriorityAccess EstablishmentCause EstablishmentCause set senttoby the "emergency" (3GPP TS 36.331). Note: If a UE (erroneously) sends this message UE eNB. of the The reception of the Thetoreception several times in a row without waiting the proper RRCConnectionSetupComplete message (UE -> RRCConnectionSetupComplete time for the response from eNB If a (UE UE (erroneously) sends eNB) in case that this message was received from Note: message -> eNB) in case that (RRCConnectionSetup), only the last message will this message several times in a row the UE after the reception of the this message was received from the be counted. without waiting the proper time for RRCConnectionRequest message (UE -> eNB) UE after the reception of the The transmission of an RRCConnectionReject The transmission an the response fromofeNB with EstablishmentCause set tothat highPriorityAccess message message (eNB -> UE) in case this message is RRCConnectionRequest RRCConnectionReject message (RRCConnectionSetup), only the (3GPP TS 36.331). (UE -> eNB) with sent in response to the reception of the previous (eNB -> UE) inwill case this last message be that counted. EstablishmentCause set to to the RRCConnectionRequest message (UE -> eNB) message is sent in response highPriorityAccess (3GPP TS with EstablishmentCause set to reception of the The reception of an RRCConnectionRequest The reception ofprevious an 36.331). "highPriorityAccess" (3GPP TS 36.331). RRCConnectionRequest message with delayTolerantAccess RRCConnectionRequest message message (UE eNB) with EstablishmentCause sent by the UE to eNB. with -> delayTolerantAccess EstablishmentCause EstablishmentCause set senttoby the "highPriorityAccess" (3GPP TS Note: If a UE (erroneously) sends this message UE toreception eNB. of the The reception of the The 36.331). several times in a row without waiting the proper RRCConnectionSetupComplete message, which RRCConnectionSetupComplete time for the response from eNB Note: If a UE (erroneously) sends was received as a consequence of a preceding message, which was received as a (RRCConnectionSetup), only the last message will this message several times reception of the RRCConnectionRequest message consequence of a precedingin a row be counted. without waiting the proper time for with EstablishmentCause set to mo-Signalling reception of the The reception of the Theresponse reception of the the from eNB message (3GPP TS 36.331). RRCConnectionRequest RRCConnectionSetupComplete message, which RRCConnectionSetupComplete (RRCConnectionSetup), only the with EstablishmentCause set to was received as a consequence of a preceding message, which was received as a last message will be counted. Note: If a UE (erroneously) sends this message (3GPP TS 36.331). reception of the RRCConnectionRequest message mo-Signalling consequence of a preceding several times in a row without waiting the (3GPP proper with EstablishmentCause to mo-Data reception of the The reception of the fromset The reception of the time for the response eNB Note: If a UE (erroneously) sends TS 36.331). RRCConnectionRequest message RRCConnectionSetupComplete which (RRCConnectionSetup), only themessage, last message will RRCConnectionSetupComplete this message several times into a row with EstablishmentCause set was received as a consequence of a preceding message, whichthe was received as a be counted. without waiting proper time Note: If a UE (erroneously) sends this message (3GPP TSpreceding 36.331). for reception of the RRCConnectionRequest message mo-Data consequence of a the response from eNB several times in a row without waiting the proper with EstablishmentCause set to mt-Access (3GPP reception of the (RRCConnectionSetup), only the The reception of the RRCConnectionComplete The reception of the time for the response from eNB Note: If a UE (erroneously) sends TS 36.331). RRCConnectionRequest message last message will be counted. message, which was received as last a consequence (RRCConnectionSetup), only the message will RRCConnectionComplete this message several times into a row with EstablishmentCause set mtof acounted. preceding reception of the message, whichthe was received as be without waiting proper time fora Note: If a UE (erroneously) sends this message Access (3GPP TS 36.331). RRCConnectionRequest message with consequence of a preceding the response from eNB several times in a rowset without waiting the proper EstablishmentCause to delayTolerantAccess reception of the (RRCConnectionSetup), only the time forTS the36.331). response from eNB Note: If a UE (erroneously) sends (3GPP RRCConnectionRequest message last message will be counted. (RRCConnectionSetup), only the last message will this several times into a row with message EstablishmentCause set be counted. without waiting the proper time Note: If a UE (erroneously) sends this message delayTolerantAccess (3GPP TSfor the response from eNB several times in a row without waiting the proper 36.331). (RRCConnectionSetup), only the time for the response from eNB last message will be counted. (RRCConnectionSetup), only the last message will Note: If a UE (erroneously) sends be counted. this message several times in a row without waiting the proper time for the response from eNB
The transmission of an RRCConnectionReject message (eNB -> UE) in case that this message is sent in response to the reception of the previous RRCConnectionRequest message (UE -> eNB) with EstablishmentCause set to "mo-Signalling" The transmission of an RRCConnectionReject (3GPP TS 36.331). message (eNB -> UE) in case that this message is sent in response to the reception of the previous RRCConnectionRequest message (UE -> eNB) with EstablishmentCause set to "mo-Data" (3GPP The transmission of an RRCConnectionReject TS 36.331). message (eNB -> UE) in case that this message is sent in response to the reception of the previous RRCConnectionRequest message (UE -> eNB) with EstablishmentCause set to "mt-Access" The transmission of an RRCConnectionReject (3GPP TS 36.331). message (eNB -> UE) in case that this message is sent in response to the reception of the previous RRCConnectionRequest message (UE -> eNB) with EstablishmentCause set to UE message Transmission of an S1AP:INITIAL "delayTolerantAccess" (3GPP (eNB->MME) that contains theTS first36.331). NAS signaling message to the MME (3GPP TS 36.413). Reception of the first S1AP message (MME->eNB) containing NAS signaling, which was received as a consequence of a preceding transmission of the S1AP:INITIAL UE message (3GPP TS 36.413).
The transmission of an RRCConnectionReject message (eNB -> UE) in case that this message is sent in response to the reception of the previous The transmission of an RRCConnectionRequest message RRCConnectionReject message (UE -> eNB) with (eNB -> UE) in case that this EstablishmentCause set to "momessage is sent in response to the Signalling" (3GPP TS 36.331). reception of the previous The transmission of an RRCConnectionRequest message RRCConnectionReject message (UE -> eNB) with (eNB -> UE) in case that this EstablishmentCause set to "momessage is sent in response to the Data" (3GPP TS 36.331). reception of the previous The transmission of an RRCConnectionRequest message RRCConnectionReject message (UE -> eNB) with (eNB -> UE) in case that this EstablishmentCause set to "mtmessage is sent in response to the Access" (3GPP TS 36.331). reception of the previous Transmission of an S1AP:INITIAL RRCConnectionRequest message UE message (eNB->MME) that (UE -> eNB) with contains the first NAS signaling EstablishmentCause to TS message to the MMEset (3GPP "delayTolerantAccess" (3GPP TS 36.413). Reception of the first S1AP 36.331). message (MME->eNB) containing NAS signaling, which was received as a consequence of a preceding transmission S1AP:INITIAL Reception of of anthe S1AP:INITIAL UE message (3GPP TS 36.413). CONTEXT SETUP REQUEST
Reception of an S1AP:INITIAL CONTEXT SETUP REQUEST message sent by MME to the eNB. The counter is updated irrespective of the UE Context message sent by MME to the eNB. being subject to CS Fallback (3GPP TS 36.413). The counter is updated irrespective the UE Context being subject to Reception of an S1AP:INITIAL CONTEXT SETUP of Reception of an S1AP:INITIAL CS Fallback (3GPP TS 36.413). REQUEST message sent by MME to the eNB. The CONTEXT SETUP REQUEST counter is updated only in case that this message contains the CS Fallback Indicator IE - that is, the UE is subject to Fallback (3GPP TS 36.413). Transmission of CS an S1AP:INITIAL CONTEXT SETUP RESPONSE message sent by eNB to the MME. The counter is updated irrespective of the UE Context being subject to CS Fallback (3GPP TS 36.413). of an S1AP:INITIAL CONTEXT Transmission SETUP RESPONSE message sent by eNB to the MME. The counter is updated only in case that the preceding received S1AP:INITIAL CONTEXT CONTEXT Transmission of an S1AP:INITIAL SETUP REQUEST message has contained the CS SETUP FAILURE message sent by eNB to the Fallback Indicator IE (3GPP TS 36.413). MME. The counter is updated in case that the
message sent by MME to the eNB. The counter is updated only in case that this message the CS Transmission of ancontains S1AP:INITIAL Fallback Indicator IE that is, the CONTEXT SETUP RESPONSE UE is subject to CS Fallback (3GPP message sent by eNB to the MME. TS The36.413). counter is updated irrespective of the UE Context subject to Transmission of anbeing S1AP:INITIAL CS Fallback (3GPP TS 36.413). CONTEXT SETUP RESPONSE
message sent by eNB to the MME. The counter is updated only in case that the preceding Transmission of anreceived S1AP:INITIAL S1AP:INITIAL CONTEXT SETUP CONTEXT SETUP FAILURE REQUEST message has contained message sent by eNB to the MME. Fallback Indicator (3GPP failure cause is equal to "RNL:Failure in the Radio the TheCS counter is updated in IE case that TS 36.413). Interface Procedure" (3GPP TS 36.413). the failure cause is equal to Reception of an S1AP:UE CONTEXT Reception of an S1AP:UE in the Radio Interface MODIFICATION REQUEST message sent by MME "RNL:Failure CONTEXT MODIFICATION Procedure" (3GPP TSsent 36.413). to the eNB. The counter is updated irrespective of REQUEST message by MME the UE Context being subject to CS Fallback to the eNB. The counter is updated (3GPP TS 36.413). irrespective of the UE Context being subject to CS Fallback (3GPP TS 36.413).
Reception of an S1AP:UE CONTEXT MODIFICATION REQUEST message sent by MME to the eNB. The counter is updated only in case that this message contains the CS Fallback Indicator IE - that is,S1AP:UE the UE isCONTEXT subject to CS Transmission of an Fallback (3GPP TS 36.413). MODIFICATION RESPONSE message sent by
Reception of an S1AP:UE CONTEXT MODIFICATION REQUEST message sent by MME to the eNB. The counter is updated only in case that thisS1AP:UE message Transmission of an contains the CS Fallback Indicator CONTEXT MODIFICATION IE that is, the UE is subject toeNB CS eNB to the MME. The counter is updated RESPONSE message sent by Fallback (3GPP TS 36.413). irrespective of the UE Context being subject to CS to the MME. The counter is updated Fallback (3GPP 36.413). CONTEXT irrespective ofof the Context Transmission of TS an S1AP:UE Transmission anUE S1AP:UE being subject to CS Fallback MODIFICATION RESPONSE message sent by CONTEXT MODIFICATION (3GPP TS 36.413). message sent by eNB eNB to the MME. RESPONSE The counter is updated only in case that the preceding received S1AP:UE The counter is incremented byCONTEXT one upon the MODIFICATION REQUEST has contained transmission of an S1AP: UEmesage CONTEXT the CS Fallback Indicator IE (3GPP TS RELEASE REQUEST message sent by36.413). the eNB to the MME. The counter is updated for all radio network layeriscauses used by initiated The counter incremented bythe oneeNB upon the UE CONTEXT RELEASE like "Unspecified", transmission of an S1AP: UE CONTEXT "User inactivity", Connection With UE RELEASE "Radio REQUEST message sent byLost", the eNB to "Failure in the Radio Interface Procedure", the MME with the release cause "RNL User "TX2RELOCOverall "TS1RELOCoverall Inactivity" (3GPP TSExpiry", 36.413). The counter is incremented by one upon the Expiry", "Release due to E-UTRAN Generated transmission of an S1AP: UE CONTEXT Reason", "Inter-RAT redirection", "Radio resources RELEASE REQUEST sent by the eNB to not available", "Invalid message QoS combination", "CS the MMETriggered", with the release cause "RNL Radio Fallback "Redirection towards 1xRTT", Connection UE Lost". The trigger "expiration and "UE NotWith Available For PS (3GPP The counter is incremented byService" one upon the TS of THOOverall " must be excluded because in case 36.413). transmission of an S1AP: UE CONTEXT of a failed intra eNB HO, the counter The counter is updated for all transport network RELEASE REQUEST message sent by the eNB to UE_CTX_REL_ENB_TIMER_HO is updated layer causes by the"RNL eNB Failure initiated the MME withused the cause inUE the Radio (3GPP TS 36.413). CONTEXT RELEASE like "Transport Resource Interface Procedure" (3GPP TS 36.413). The counter isand incremented by one uponTS the Unavailable" "Unspecified" (3GPP transmission of an S1AP: UE CONTEXT 36.413). RELEASE REQUEST message sent by the eNB to the MME with the cause "RNL Release due to EUTRAN generated reason" (3GPP 36.413). The counter is incremented by one TS upon the transmission of an S1AP: UE CONTEXT RELEASE REQUEST message sent by the eNB to the MME with the cause "RNL Radio resources not available" (3GPP TS 36.413). The counter is incremented by one upon the
to the MME. The only by in case The counter counter is is updated incremented one that the preceding received upon the transmission of an S1AP: S1AP:UE CONTEXT UE CONTEXT RELEASE MODIFICATION REQUEST REQUEST message sent by the mesage has contained the CS is eNB to the MME. The counter The counter is incremented by one Fallback Indicator IE (3GPP TS updated for all radio network layer upon the transmission of an S1AP: 36.413). causes used byRELEASE the eNB initiated UE CONTEXT UE CONTEXT RELEASE REQUEST message sent like by the "Unspecified", "User inactivity", eNB to the MME with the release The counter is incremented one "Radio Connection With UE by Lost", cause "RNL User Inactivity" (3GPP upon the transmission of an S1AP: "Failure in the Radio Interface TS UE 36.413). CONTEXT RELEASE Procedure", "TX2RELOCOverall REQUEST message sent byExpiry", the Expiry", "TS1RELOCoverall eNB to the MME with the release "Release dueistoincremented E-UTRAN by one The counter cause "RNL Radio Connection With Generated Reason", "Inter-RAT upon the transmission of an S1AP: UE Lost". The trigger "expiration of redirection", "Radio resources not UE CONTEXT RELEASE THOOverall " must be excluded available", "Invalid QoS REQUEST message sent by the because in MME case of a failed intra combination", "CS Fallback eNB to the with the cause The counter iscounter incremented by one eNB HO, the Triggered", "Redirection towards "RNL Failure in the Radio Interface upon the transmission of an S1AP: UE_CTX_REL_ENB_TIMER_HO 1xRTT", and(3GPP "UE Not Procedure" TSAvailable 36.413). Foris UE CONTEXT RELEASE updated (3GPP TS 36.413). PS Service" (3GPP TS 36.413). REQUEST sent The countermessage is updated forby allthe eNB to the MME with the cause transport network layer causes The counter is incremented by one "RNL Release due to E-UTRAN used by the eNB initiated UES1AP: upon the transmission of an generated reason" (3GPP CONTEXT RELEASE like TS UE CONTEXT RELEASE 36.413). "Transport Resource Unavailable" REQUEST message sent by the and "Unspecified" (3GPP TS eNB to the MME with the cause The counter is incremented by one 36.413). "RNL Radio resources of notan S1AP: upon the transmission available" (3GPP TS 36.413). UE CONTEXT RELEASE
transmission of an S1AP: UE CONTEXT RELEASE REQUEST message sent by the eNB to the MME with the cause "RNL Unspecified" (3GPP REQUEST message sent by the TS eNB to the MME with the cause The36.413). counter is incremented by one upon the The counter is incremented by one "RNL Unspecified" (3GPP TSS1AP: transmission of an S1AP: UE CONTEXT upon the transmission of an RELEASE REQUEST message sent by the eNB to 36.413). UE CONTEXT RELEASE the MME due to a failed handover. In case of an X2 releasefollowing cause "RNL Thishandover, counter isthe updated the transmission TX2RELOCoverall Expiry" is used. In case of an of an S1AP:INITIAL CONTEXT SETUP S1 handover, the release cause "RNL RESPONSE message sent by eNB to the MME. TS1RELOCoverall Expiry" is used. In of an The counter is updated irrespective ofcase the UE intra eNB handover, the release cause "RNL Context being subject to CS Fallback (3GPP Radio TS Connection With UE Lost" is used (3GPP TS 36.413). 36.413). This counter is only updated for 3GPP Release 11 (or higher) UEs.
REQUEST message sent by the eNB to the MME due to a failed This counter is updated following handover. In case of an X2 the transmission of an handover, the release cause "RNL S1AP:INITIAL CONTEXT SETUP TX2RELOCoverall Expiry" is used. RESPONSE message sent by eNB In case of an S1 handover, the to the MME. The counter is updated release cause "RNL irrespective of the UE Context TS1RELOCoverall is used. being subject to CSExpiry" Fallback (3GPP In case of an intra eNB handover, TS 36.413). the Radio Thisrelease countercause is only"RNL updated for Connection With UE Lost" is used 3GPP Release 11 (or higher) UEs. (3GPP TS 36.413).
The transmission of an RRCConnectionReject message (eNB -> UE) in case that this message is sent due to Control Plane overload (3GPP TS 36.331).
The transmission of an RRCConnectionReject message (eNB -> UE) in case that this message is sent due to Control Plane overload (3GPP The transmission of an TS 36.331).
The transmission of an RRCConnectionReject message (eNB -> UE) in case that this message is RRCConnectionReject message sent due to User Plane overload (3GPP TS (eNB -> UE) in case that this 36.331). message is sent due to User Plane overload (3GPP TS The transmission of an RRCConnectionReject The transmission of 36.331). an message (eNB -> UE) in case that this message is RRCConnectionReject message sent due to lack of PUCCH resources (3GPP TS (eNB -> UE) in case that this 36.331). message is sent due to lack of PUCCH resourcesof(3GPP TS The transmission of an RRCConnectionReject The transmission an 36.331). message (eNB -> UE) in case that this message is RRCConnectionReject message sent in case that the threshold for the maximum number of RRC Connections adrmitted in the cell is reached. It shallofbeannoted that for the The transmission RRCConnectionReject Establishment Cause "emergency" the message threshold is message (eNB -> UE) in case that this 'maxNumRrcEmergency' is used. For all other sent due to MME overload (3GPP TS 36.331). establishment causes the threshold 'maxNumRrc' is used (3GPP TS 36.331). The transmission of an X2AP: Handover Request to the target eNB.
The expiration of timer TX2RELOCprep
The reception of an X2AP: Handover Preparation Failure message from the target eNB.
(eNB -> UE) in case that this message is sent in case that the threshold for the maximum number The transmission of an of RRC Connections adrmitted in RRCConnectionReject message the cell is reached. It shall be noted (eNB -> UE) in case that this that for theisEstablishment Cause message sent due to MME "emergency" the threshold overload (3GPP TS The transmission of 36.331). an X2AP: 'maxNumRrcEmergency' is used. Handover Request to the target For all other establishment causes eNB. the threshold 'maxNumRrc' is used (3GPP TS 36.331). The expiration of timer TX2RELOCprep
The reception of an X2AP: Handover Preparation Failure message from the target eNB.
The counter is updated if the failure detected does The counter is updated if the failure not match any other failure counter. detected does not match any other failure counter. The reception of an X2AP: Handover Request Acknowledge message from the target eNB.
The reception of an X2AP: Handover Request Acknowledge message from the target eNB.
The reception of an X2AP:Release Resource message sent by the target eNB.
The reception of an X2AP:Release Resource message sent by the target eNB.
The expiration of timer TX2RELOCoverall.
The expiration of timer TX2RELOCoverall.
This counter is updated following the transmission of an S1AP: HANDOVER REQUIRED message from the source eNB to the MME if this message prepares an Inter eNB Handover.
This counter is updated following the transmission of an S1AP: HANDOVER REQUIRED message from the source eNB to the MME if this Thismessage counter isprepares updatedan at Inter the eNB Handover. expiry of the guarding timer
This counter is updated at the expiry of the guarding timer TS1RELOCprep if the timer was started because of the preparation of an Inter eNB TS1RELOCprep if the timer was Handover. started because of the preparation ancounter Inter eNB Handover. This counter is updated following the reception of of This is updated following an S1AP: HANDOVER PREPARATION FAILURE message from MME to source eNB with cause "No Radio Resources Available in Target Cell" if this receivedfollowing in response to the Thismessage counter isisupdated the reception of preparation of an Inter eNB Handover. an S1AP: HANDOVER PREPARATION FAILURE
the reception of an S1AP: HANDOVER PREPARATION FAILURE message from MME to source eNB with cause following "No Radio This counter is updated Resources Available in Target Cell" the reception of an S1AP: if this message is received in message from the MME to the source eNB with HANDOVER PREPARATION response the preparation an any other cause than "No Radio Resources FAILURE to message from the of MME Inter eNB Handover. Available in Target Cell" following in case that message thecounter sourceiseNB with any other This counter is updated thethis reception of to This updated following is received in response to the preparation of an cause than "No Radio Resources an S1AP: HANDOVER COMMAND message from the reception of an S1AP: Inter eNB to Handover. Available in Target Cell" inmessage case that the MME the source eNB in case that this HANDOVER COMMAND this message is received in message is received in response to the preparation from the MME to the source eNB in response to the preparation of an of ancounter Inter eNB Handover. that this received This is updated following the reception of case This counter ismessage updated is following Inter eNB Handover. in an S1AP: UE CONTEXT RELEASE COMMAND theresponse receptiontoofthe anpreparation S1AP: UE of an Inter eNB Handover. message from the MME to the source eNB with CONTEXT RELEASE COMMAND the cause value Radio Network Layer (Successful message from the MME to the Handover) in is case that this message received eNB with the cause value This counter updated following the is expiry of thefor source This counter is updated following an Inter eNB Handover. Radio Network Layer (Successful guarding timer TS1RELOCoverall in case that this the expiry of the guarding timer Handover) in case that this that this timer was started because of an Inter eNB TS1RELOCoverall in case message is received for anof Inter Handover. timer was started because an eNB Handover. Inter eNB Handover. This counter is incremented when during handover This counter is incremented when preparation, a neighbor cell is put on the dynamic during handover preparation, a blacklist due to any of the following reasons: neighbor cell is put on the dynamic - reception of S1AP: Handover Preparation Failure blacklist due to any of the following with of the followingwhen causes: Network reasons: This one counter is updated an "Radio Intra-eNB This counter is updated when an Layer Cause (Cell not Available)", "Miscellaneous -Intra-eNB receptionHandover of S1AP: preparation Handover Handover preparation fails for any reason. This Cause (Control Processing Overload)", or Preparation Failure with of the counter is updated in the source side of the fails for any reason. Thisone counter is "Miscellaneous Cause (Not enough User Plane following causes: "Radio Network handover. updated in the source side of the Processing Resources)" Layer Cause (Cell not Available)", handover. This counter updated when an RRC counter is updated when an - reception ofisX2AP: Handover Preparation Failure This "Miscellaneous Cause (Control CONNECTION RECONFIGURATION message CONNECTION with one of the following causes: "Radio Networkis RRC Processing Overload)", or sent the eNB to not theAvailable)", UE, indicating a Handover RECONFIGURATION is LayerbyCause (Cell "Miscellaneous "Miscellaneous Cause message (Not enough Command to theProcessing UE. This counter is updated in sent the eNB to the UE, Cause (Control Overload)" or User by Plane Processing Resources)" the side of the handover. indicating aof Handover Command "Miscellaneous Cause (Not enough User Plane -This reception Handover Thissource counter is updated when an Intra-eNB counter isX2AP: updated when an to the UE. This counter is updated in Processingsucceeds. Resources)" Preparation Failure with one of the Handover This counter is updated in the Intra-eNB Handover succeeds. This the source side of the handover. -source if TS1RELOCprep consecutively expires for more following causes: "Radio Network side of the handover. counter is updated in the source than the pre-configured number of times. Layer (Cell not Available)", side ofCause the handover. - if TX2RELOCprep consecutively expires for more "Miscellaneous Cause (Control This is updated number followingofany failure in the This counterOverload)" is updatedorfollowing than counter the pre-configured times. Processing HO preparation phase in the target cell apart from any failure in theCause HO preparation "Miscellaneous (Not enough a HANDOVER PREPARATION FAILURE message phase in theProcessing target cell apart from a User Plane Resources)" (from target side) or expiration of the respective HANDOVER PREPARATION - if TS1RELOCprep consecutively guarding timer in the source cell FAILURE (from expires formessage more than the target preside) or expiration of the respective configured number of times. guarding timer in theconsecutively source cell - if TX2RELOCprep expires for more than the preconfigured number of times.
HO via X2: This counter is updated following the expiration of the guarding timer TX2RELOCprep. HO via S1: This counter is updated following the expiration of the guarding timer TS1RELOCprep.
HO via X2: This counter is updated following the expiration of the guarding timer TX2RELOCprep. HO via S1: This counter is updated following theThis expiration HO via X2: This counter is updated following the HO via X2: counterofisthe updated guarding timer TS1RELOCprep. reception of an X2AP:HANDOVER PREPARATION following the reception of an FAILURE message from the target eNB with the X2AP:HANDOVER PREPARATION cause "No Radio Resources Available in Target FAILURE message from the target cell" eNB with the cause "No Radio HO via X2: HO via X2: HO via S1: This counter is updated following the Resources in Target cell" This counter is updated following the reception of This counterAvailable is updated following reception of an S1AP:HANDOVER PREPARATION HO via S1: This counter is updated an X2AP:HANDOVER REQUEST the reception of an FAILURE messagemessage from the from MMEthe with the cause following the reception of an ACKNOWLEDGE target eNB X2AP:HANDOVER REQUEST "No Radio Resources Available in Target cell" S1AP:HANDOVER PREPARATION ACKNOWLEDGE message from HO via X2: This counter is updated following the HO via X2:message This counter updated FAILURE from is the MME HO via S1: the target eNB reception of an X2AP:UE CONTEXT RELEASE following the reception of an with the cause "No Radio This counter updated following message sentisby the target eNB. the reception of X2AP:UE CONTEXT RELEASE Available in Target cell" an S1AP:HANDOVER COMMAND message from Resources HO via S1:sent message by the target eNB. the MME This counter is updated following HO S1: This counter following is updated Thisvia counter is updated thefollowing expiry ofthe a This counter isofupdated following the reception an reception of an either S1AP:UE CONTEXT RELEASE HO via S1:ofThis counter timer, is updated guarding timer, TX2RELOCoverall or the expiry a guarding either S1AP:HANDOVER COMMAND COMMAND message from the MME with the following the reception of an TS1RELOCoverall, in case that one of these timers message TX2RELOCoverall or from the MME cause value because Radio Network Layer (Successful S1AP:UE CONTEXT was started of an Inter-eNB Handover. TS1RELOCoverall, inRELEASE case that one Handover) in case that this message is received for COMMAND message from the of these timers was started This counter updated following the expiration of This counter iscause updated following an Inter eNB is Handover. MME with the value Radio of an Inter-eNB Handover. a guarding timer THOoverall in case that the timer because the expiration a guarding timer Network Layerof(Successful has been started due to Intra-eNB Handover. THOoverall casethat thatthis the timer Handover) inincase has been is started duefor to Intra-eNB message received an Inter Handover. eNB Handover. Reception of X2AP:RLF INDICATION message Reception of X2AP:RLF satisfying the following conditions: INDICATION message satisfying - C-RNTI corresponds to an available UE context the following conditions: - shortMAC-I is included - C-RNTI corresponds to an -Reception shortMAC-I matches the local security calculation available of ReceptionUE of context (successful authentication) shortMAC-I is included RRCConnectionReestablishmentRequest after the RRCConnectionReestablishmentRe -"HO Tstore_UE_cntxt timer associated with shortMAC-I the local has command" has been sent to the UE. The early quest after thematches "HO command" corresponding authenticated shortMAC-I is not security calculation (successful HO Type 1 condition is met only in case that the been sent to the UE. The early HO running authentication) HO supervision timer is running and the Type 1 condition is met only in case Reception of X2AP:HANDOVER REPORT Reception of X2AP:HANDOVER source cell: -that Tstore_UE_cntxt timer associated ShortMAC-I is known. the HO supervision is message withthe Handover Report Type ="HOmessage too REPORT message authenticated with timer Handover cell receiving X2AP:RLF INDICATION with corresponding The neighbor cell is equals the target cell of the running and the ShortMAC-I is early". Typeis="HO too early". is received (source cell of missed HO attempt and Report shortMAC-I not running ongoing Handover. known. source cell: source cell: optional recoverable RLF on eNB side) Reception of The receiving neighbor the cell is equals the cell X2AP:HANDOVER target cell: isthe X2AP:RLF The receiving counter updated in cell A whenREPORT a UE finally cell The counter is updated inHandover. cell A RRCConnectionReestablishmentRequest target cell of the ongoing message (source cell of attempted HO) X2AP:HANDOVER REPORT cell sending X2AP:RLF INDICATION message (cell INDICATION message is received returns to the following cell A within a short time period when a UEoffinally returns to the cell satisfying conditions: Reception target cell: cellperiod of attempted receiving thethe reestablishment request after missed message (source of missed HO attempt (defined by parameter A within cell a (source short time (defined -cell reestablishment cause is tPingPong). equal to "HOfailure" RRCConnectionReestablishmentRe sending the X2AP:HANDOVER REPORT HO) HO attempt) and optional recoverable RLF on by the parameter tPingPong). -message C-RNTI corresponds to an available UE context quest satisfying the following (target cell of attempted HO) targetside) cell: The counter is incremented at the source cell per eNB for outgoing HO preparation is ongoing Thiswhich counter is updated transmission Thissending counter is updated following The counter incremented at thethe source cell per conditions: cell X2AP:HANDOVER neighbor cellis (target cell)following target cell: the -neighbor shortMAC-I is included -REPORT reestablishment is equal of an RRC Connection Reconfiguration message the transmission ofcause an RRC cell (target cell) message (target cell of to Notes: cell sending X2AP:RLF -(sent shortMAC-I matches the local security calculation "HOfailure" by the eNB to the UE), which indicates a Connection Reconfiguration Notes: attempted HO) The case of authentication) reestablishment causes that INDICATION messageto (cell (successful -message C-RNTI corresponds antoatthe handover command toas thetime UEfrom in case this (sent by the eNB "short time" is defined period no longer The counter isreestablishment incremented the "ReconfigFailure" is excluded counting. The receiving the source cell: available UE context for which message is sent because of an inter-frequency UE), which indicates a handover than expiration value of Tstore_UE_cntxt timer up source cell per neighbor cell (target case of reestablishment causes that "HOfailure" is Intra-eNB request after missed HO attempt) Intra-eNB HO:the This counter is updated following HO:preparation This counter is cell receiving reestablishment request (source outgoing HO is ongoing load balancing handover. command to is the UE inreception case this from HO completion. cell) excluded from counting when re-establishment The counter incremented at the the reception of an eNB-internal message in case updated following the of cell of failed HO attempt) -Notes: shortMAC-I is included message is sent because of an For the sequence of Case2 the reestablishment target cell is prepared for incoming HO, as this source cell per neighbor cell (target that this message is received for a successful inter- an eNB-internal message in case target cell: shortMAC-I matches the local load balancing request (with cause "handoverFailure") received "short time" is defined as timefor a means HO has been attempted, nothandover. missed. In at inter-frequency cell) frequency load balancing intra-eNB that this message is(successful received target cell of failed HO attempt security calculation handover. cell prepared for incoming HO orto atcell HOprepared source cell successful period no longer than expiration case of reestablishment request Notes: inter-frequency load The counterfrom is incremented at the source cell per authentication) is excluded counting. value of Tstore_UE_cntxt timer up for incoming HO, the case of received PCI different The case of reestablishment Inter-eNB HO via X2: This counter is updated balancing intra-eNB handover. neighbor cell (target cell) source cell: HO completion. from PCI of of prepared HOUE is excluded causes that "ReconfigFailure" is following thecell reception an X2AP: CONTEXT from Note:source cell receiving the reestablishment For the sequence ofX2: Case2 the from counting. excluded from counting. The case RELEASE message from the target eNB in case Inter-eNB HO via This counter The RRCConnectionReestablishmentRequest after request (source cell of failed HO reestablishment request (with In the source of a HOinter- of reestablishment causes that that this message is missed received forattempt, a successful is updated following the reception a failed HO is cell recognized byHO reestablishment attempt) cause "handoverFailure") received preparation for the considered UE context might be of "HOfailure" isUE excluded from frequency load balancing inter-eNB handover. an X2AP: CONTEXT cause "HOfailure". target at cell cell: prepared for incoming or ongoing. The target cell of such HO preparation counting when re-establishment RELEASE message from theHO target target cell of failed HO attempt at HO source cell is excluded from can be different from the cellcounter receiving the target is prepared for incoming Inter-eNB HO - via S1: This is updated eNB incell case that this message is The counter is incremented at the reestablishment request. HO, as this means HO has been following the reception of an S1AP: UE CONTEXT counting. received for a successful intersource cell per neighbor cell (target attempted, not missed. In inter-eNB case of RELEASE COMMAND message from the MME frequency load balancing cell) reestablishment request to cell
This counter is updated following the transmission of an RRC:RRCConnectionRelease message (source eNB -> UE) in case that this message was sent because the source eNB received an S1AP:UE CONTEXT MODIFICATION REQUEST This counter is updated following the transmission message (source eNB UE) in case that this message was TS 23.272) sent because the source eNB received an or S1AP:UE CONTEXT MODIFICATION REQUEST This counter is updated following the transmission following the transmission of an with message (source eNB case UE) that in case this message eNB -> UE) this that message was sentwas TS 23.272). sent because the source received because the source eNB eNB received the an S1AP:UE CONTEXT MODIFICATION S1AP:INITIAL CONTEXT SETUP REQUEST Transmission of an S1AP:HANDOVERREQUEST REQUIRED message eNB <- for MME) with the CS message (source to source MME an Inter System Fallback Indicator set to CS Fallback High Priority (3GPP 36.331, Handover. This counter is TS updated forTS the36.413, source (3GPP TS 36.331, TS 36.413, TS 23.272) TS 23.272). cell of the handover. This counter is updated in or case of PS-HO to UTRAN, Inter Systempreparation Handover Updated when Inter System following the transmission of Handover an and in case of to WCDMA/GERAN with SRVCC fails due to expiration of guarding timer (source RRC:RRCConnectionRelease message CS Fallback to UTRAN withThis PS-HO. TS1RELOCprep_InterRAT. counter is updated eNB -> UE) in case that this message was sent for the source cell ofeNB the handover. This counter is because the source received the updated case PS-HOSETUP to UTRAN, Inter System S1AP:INITIAL CONTEXT REQUEST Updated in when anofS1AP:HANDOVER Handover to WCDMA/GERAN with SRVCC message (source eNB
This counter is updated following the transmission of an RRC:RRCConnectionRelease message (source eNB -> UE) in case that thisismessage sent This counter updated was following because the source eNB received the transmission of an an S1AP:UE CONTEXT RRC:RRCConnectionRelease MODIFICATION message (sourceREQUEST eNB -> UE) in message (source eNB UE) in or message (source eNB for UE)an in message to source MME 23.272). MODIFICATION REQUEST case System that thisHandover. message was Inter Thissent message (source eNB <- received MME) because the source eNB counter iswhen updated for the source Updated Inter System with the CS Fallback Indicator set to the S1AP:INITIAL CONTEXT cell of the handover. Handover preparation fails(3GPP due toTS CS Fallback High Priority SETUP REQUEST message expiration guarding 36.331, TSof36.413, TStimer 23.272) (source eNB <- MME) with the CS TS1RELOCprep_InterRAT. or Fallback Indicator (3GPP TSThis counter iswhen updated source following the transmission of an 36.331, 36.413, TSthe 23.272). UpdatedTS an for cell of the handover. RRC:RRCConnectionRelease S1AP:HANDOVER PREPARATION message eNB -> UE) infrom FAILURE (source message is received case that message was sent MME withthis cause "No radio because the source in eNB received resources available target Updated when an CONTEXTcell" the S1AP:INITIAL for an Inter System Handover. This S1AP:HANDOVER PREPARATION SETUP REQUEST message counter is updated for the source FAILURE message is received from (source eNB <- MME) with the CS cell ofwith the handover. MME other cause than "No Fallback Indicator set to CS radio resources available in target Fallback High (3GPP TS Updated whenPriority an cell" for an Inter System Handover. 36.331, TS 36.413, TS 23.272). S1AP:HANDOVER COMMAND This counter is updated forMME the for message is received from source cell of the handover. an Inter System Handover. This counter updated for the source Updatediswhen an S1AP:UE cell of the handover. CONTEXT RELEASE COMMAND message is received from MME with Cause value "Radio Network Layer" (Successful Updated when InterHandover) System for an Inter System Handover. This of Handover fails due to expiration counter is updated for the source guarding timer TS1RELOCoverall. cell the handover. Thisofcounter is updated for the source cell of the handover. Transmission of the RRC: MobilityFromEUTRANCommandme ssage (with cell change order to GSM; 3GPP TS 36.331) from the serving eNB UE indicates the Reception of to anthe S1AP:HANDOVER attempt of a Network Cell COMMAND messageAssisted (source eNB Change (NACC) from LTE to GSM. <- MME; 3GPP TS 36.413) in case that this message is received in response to the preparation of an Inter System Handover to UTRAN with SRVCC (Single Radio Voice Call Continuity, 3GPP TS 23.216).
Reception of an S1AP:UE CONTEXT RELEASE COMMAND message (source eNB <- MME; 3GPP TS 36.413) with Cause value "Radio Network Layer (Successful Handover)" in case that this message for antimer InterTS1RELOCoverall System Handover Expirationisofreceived the guarding to UTRAN with SRVCC (Single Radio Voice (3GPP TS 36.413) in case that this timer wasCall Continuity, 3GPP TS 23.216). started because of an Inter System Handover to
Reception of an S1AP:UE CONTEXT RELEASE COMMAND message (source eNB <- MME; 3GPP TS 36.413) with Cause value "Radio Network (Successful Expiration of theLayer guarding timer Handover)" in case that this TS1RELOCoverall (3GPP TS message received for an Inter 36.413) iniscase that this timer was System Handover to UTRAN with UTRAN with SRVCC (Single Radio Voice Call started because of an Inter System SRVCC (Single Radiowith Voice Call Continuity, 3GPP TS 23.216). Handover to UTRAN SRVCC Transmission of an Transmission of an Continuity, 3GPP TS 23.216). (Single Radio Voice Call Continuity, RRC:MobilityFromEUTRACommand message RRC:MobilityFromEUTRAComman 3GPP TS (source eNB -> UE; 3GPP TS36.331) in case that d message23.216). (source eNB -> UE; this message is transmitted for a CS Fallback to 3GPP TS36.331) in case that this UTRAN with handover (3GPP TSCOMMAND 36.331, TS message for a CS Reception of PS an S1AP:HANDOVER Receptionisoftransmitted an S1AP:HANDOVER 23.272). Fallback to UTRAN with PS eNB message (source eNB <- MME; 3GPP TS 36.413) COMMAND message (source handover (3GPP TS 36.331, in case this message is received in response to the <- MME; 3GPP TS 36.413) inTS case 23.272). preparation of an Inter System Handover to this message is received in GERAN with (Single Radio Voice Call Reception of SRVCC an S1AP:UE CONTEXT RELEASE Continuity, 3GPP TS 23.216). COMMAND message (source eNB <- MME; 3GPP TS 36.413) with Cause value "Radio Network Layer (Successful Handover)" in case this message for antimer InterTS1RELOCoverall System Handover Expirationisofreceived the guarding to GERAN with SRVCC (Single Radio Voice Call (3GPP TS 36.413) in case this timer was started Continuity, 3GPP TS 23.216). because of an Inter System Handover to GERAN
response Receptiontoofthe an preparation S1AP:UE of an Inter System Handover to GERAN CONTEXT RELEASE COMMAND with SRVCC (Single Radio Voice message (source eNB <- MME; Call Continuity, 3GPP TS 23.216). 3GPP TS 36.413) with Cause value
"Radio Network (Successful Expiration of theLayer guarding timer Handover)" in case this message is TS1RELOCoverall (3GPP TS received for an Inter System 36.413) in case this timer was Handover to GERAN with SRVCC (Single Radio Voice Call Continuity, started because of anwith InterSRVCC System (Single Radio Voice Call Continuity, 3GPP TS 23.216). Handover to GERAN with SRVCC This counter is updated following the transmission This counter is updated following 3GPP TS 23.216). (Single Radio Voice Call Continuity, of an the transmission of an 3GPP TS 23.216). RRC:HandoverFromEUTRAPreparationRequest RRC:HandoverFromEUTRAPrepar message by the eNB to the UE (3GPP TS 36.331) ationRequest message by the eNB ifThis thiscounter message is sent tofollowing prepare the an inter-system thecounter UE (3GPP TS 36.331) if this is updated expiration of to This is updated following handover to 1xRTT with SRVCC. message is sent to prepare an the guarding timer TUlHoPrepTransfer1xSrvcc if the expiration of the guarding timer handover to 1xRTT this timer was started because of an inter-system inter-system TUlHoPrepTransfer1xSrvcc if this with SRVCC. handover preparation to 1xRTT with SRVCC. timer was started because of an This counter is updated following the expiration of inter-system This counter handover is updatedpreparation following to 1xRTT with SRVCC. the guarding timer TC2KRelocPrep1xSrvcc if this the expiration of the guarding timer timer was started because of an inter-system handover preparation to 1xRTT with SRVCC.
TC2KRelocPrep1xSrvcc if this timer was started because of an interhandover preparation to This counter is updated following the reception of system This counter is updated following 1xRTT with SRVCC. an S1AP:DOWNLINK S1 CDMA2000 TUNNELING the reception of an (3GPP TS 36.413) message by the eNB from the S1AP:DOWNLINK S1 CDMA2000 MME if this message indicates a failed handover TUNNELING (3GPP TS 36.413) preparation to 1xRTT with SRVCC (CDMA2000 by the eNB from the MME This counter is updated following the reception of message This counter is updated following HO Status is set to HO Failure). if this message indicates a failed an S1AP:DOWNLINK S1 CDMA2000 TUNNELING the reception of an handover preparation to 1xRTT with (3GPP TS 36.413) message by the eNB from the S1AP:DOWNLINK S1 CDMA2000 SRVCC (CDMA2000 HO Status MME if this message indicates a successful TUNNELING (3GPP TS 36.413) is set to HO by Failure). handover preparation to following 1xRTT with eNB from the MME This counter is updated theSRVCC transmission message This counter the is updated following (CDMA2000 HO Status is set to HO Success). if this message indicates a of an RRC:MobilityFromEUTRACommand the transmission of an handover preparation to message by the eNB to the UE (3GPP TS 36.331) successful RRC:MobilityFromEUTRAComman 1xRTT with SRVCC (CDMA2000 if this message is sent for an inter-system d message by the eNB to the UE HO Status is set to HO handover to 1xRTT with SRVCC. (3GPP TS 36.331) if thisSuccess). message is sent for an inter-system handover to 1xRTT with SRVCC.
This counter is updated following the transmission of an S1AP:UE CONTEXT RELEASE REQUEST message (3GPP TS 36.413) by the eNB to the MME if this message is sent for an inter-system handover to 1xRTT with following SRVCC. the transmission This counter is updated
This counter is updated following the transmission of an S1AP:UE CONTEXT RELEASE REQUEST message (3GPP TS 36.413) by the eNB to the MME if this message This counter is updated followingis sent for an inter-system of an RRC:MobilityFromEUTRACommand the transmission of an handover 1xRTT with SRVCC. message by the eNB to the UE (3GPP TS 36.331) to RRC:MobilityFromEUTRAComman in case that this message is sent for a load d message by the eNB to the UE balancing handover to UTRAN. TS 36.331) in case that this This counter is updated following the reception of (3GPP This counter is updated following message is sent for a load an S1AP: UE CONTEXT RELEASE COMMAND the reception of an S1AP: UE balancing to COMMAND UTRAN. message from the MME (3GPP TS 36.413) with CONTEXThandover RELEASE cause value "Radio Network Layer (Successful Handover)" that following this message is received This counteriniscase updated the reception of for a successful load balancing handover to an RRC: CSFBParametersRequestCDMA2000 UTRAN. (3GPP TS 36.331) message by the eNB from the
message from the MME (3GPP TS 36.413) with cause valuefollowing "Radio This counter is updated Network Layer (Successful the reception of an RRC: Handover)" in case that this CSFBParametersRequestCDMA20 message is received a UE. 00 (3GPP TS 36.331)for message by successful load balancing handover the eNB from the UE. This counter is updated following the transmission This counter is updated following to UTRAN. of an RRC: CSFBParametersResponseCDMA2000 the transmission of an RRC: (3GPP TS 36.331) message by the eNB to the UE. CSFBParametersResponseCDMA2 000 (3GPP TS 36.331) message by to the This counter is updated following the transmission the ThiseNB counter is UE. updated following of an the transmission of an RRC:HandoverFromEUTRAPreparationRequest RRC:HandoverFromEUTRAPrepar message by the eNB to the UE (3GPP TS 36.331) ationRequest message by the eNB in case that this message is sent for thecounter UE (3GPP TS 36.331) in This counter is updated following thethe reception of to This is updated following preparation of a CS Fallback to 1xRTT/CDMA2000 case that this message is sent for an RRC: ULHandoverPreparationTransfer the reception of an RRC: (CDMA2000-Type is set to type1XRTT). the preparation of a CS Fallback message by the eNB from the UE (3GPP TS ULHandoverPreparationTransfer to 1xRTT/CDMA2000 (CDMA200036.331) in case that this message is received for message by the eNB from the UE Type is set to type1XRTT). the preparation of a CS Fallback to (3GPP TS 36.331) in case that this This counter is updated following the reception of This counter is updated following 1xRTT/CDMA2000 (CDMA2000-Type is set to message is received for the an S1AP:DOWNLINK S1 CDMA2000 TUNNELING the reception of an type1XRTT). of a CSS1 Fallback to (3GPP TS 36.413) message by the eNB from the preparation S1AP:DOWNLINK CDMA2000 1xRTT/CDMA2000 (CDMA2000MME in case that this message indicates a "HO TUNNELING (3GPP TS 36.413) Type is setbytothe type1XRTT). Failure" for the CS Fallback preparation to 1xRTT eNBSystem from the MME Updated when Inter System Handover preparation message Updated when Inter (CDMA2000 HO Status is set to HO Failure, in case that this message indicates to UTRAN fails due to expiration of guarding timer Handover preparation to UTRAN CDMA2000 RAT Type is set to 1xRTT). a "HO Failure" for the CS Fallback TS1RELOCprep_InterRAT. This counter is updated fails due to expiration of guarding to 1xRTT (CDMA2000 for the source cell of the handover. This counter is preparation timer TS1RELOCprep_InterRAT. HO Status is setupdated to HO Failure, updated caseanofS1AP:HANDOVER PS-HO to UTRAN, Inter System This counter is the Updated in when Updated when anType isfor CDMA2000 RAT set to Handover to WCDMA with SRVCC and in case of source cell of the handover. PREPARATION FAILURE message is received S1AP:HANDOVER PREPARATION 1xRTT). CS to UTRAN withradio PS-HO. fromFallback MME with cause "No resources FAILURE message is received from available in target cell" for an Inter System MME with cause "No radio Handover. This counter is updated for the source resources available Updated when an S1AP:HANDOVER Updated when an in target cell" cell of the handover. This counter is updated in for an Inter System This PREPARATION FAILURE message is received S1AP:HANDOVER Handover. PREPARATION case of PS-HO to UTRAN, Inter System Handover counter is updated for the source from MME with other cause than "No radio FAILURE message is received from to WCDMAavailable with SRVCC and cell" in case of CS cell ofwith the handover. resources in target for an Inter MME other cause than "No Fallback to UTRAN with PS-HO. System Handover. This counter is updated for the radio resources available in target Updated when an S1AP:HANDOVER COMMAND Updated when an source cell of the handover. This counter is cell" for an Inter System Handover. message is received from MME for a PS-HO. This S1AP:HANDOVER COMMAND updated in case of PS-HO to UTRAN, Inter System This counter is updated for the for counter is updated for the source cell of the message is received from MME Handover to WCDMA with SRVCC and in case of source cell of the handover. handover. an Inter System Handover. This CS Fallback to UTRAN with PS-HO. counter is updated for the source cell of the handover.
Updated when an S1AP:UE CONTEXT RELEASE COMMAND message is received from MME with Cause value "Radio Network Layer" (Successful Handover) for a PS-HO to UTRAN. This counter is updated theasource the handover. Updated for when PS-HOcell to of UTRAN fails due to expiration of guarding timer TS1RELOCoverall. This counter is updated for the source cell of the handover. Transmission of an S1AP:HANDOVER REQUIRED message to source MME for an Inter System Handover. This counter is updated for the source cell of the handover. This counter is updated in case of PS-HO UTRAN, Inter System Handover Reception of antoS1AP:HANDOVER COMMAND to WCDMA with SRVCC and in case of CS message (source eNB <- MME; 3GPP TS 36.413) Fallback to UTRAN with PS-HO. in case that this message is received in response to the preparation of an Inter System Handover to UTRAN with (Single Radio Voice Call Reception of SRVCC an S1AP:UE CONTEXT RELEASE Continuity, 3GPP TS 23.216). COMMAND message (source eNB <- MME; 3GPP TS 36.413) with Cause value "Radio Network Layer (Successful Handover)" in case that this message for antimer InterTS1RELOCoverall System Handover Expirationisofreceived the guarding to UTRAN with SRVCC (Single Radio Voice (3GPP TS 36.413) in case that this timer wasCall Continuity, 3GPP TS 23.216). started because of an Inter System Handover to UTRAN with SRVCC (Single Radio Voice Call Continuity, 3GPPaverage TS 23.216). The arithmetical of samples taken from the number of UEs, having one SRB and at least one DRB established.
Updated when an S1AP:UE CONTEXT RELEASE COMMAND message is received from MME with Cause value "Radio Network Layer" (Successful Updated when InterHandover) System for an Inter System Handover. This of Handover fails due to expiration counter is updated for the source guarding timer TS1RELOCoverall. cell the handover. Thisofcounter is updated for the source cell of the handover. Transmission of an S1AP:HANDOVER REQUIRED message to source MME for an Inter System Handover. This counter is updated for the source Reception of an S1AP:HANDOVER cell of the handover. COMMAND message (source eNB <- MME; 3GPP TS 36.413) in case that this message is received in response Receptiontoofthe an preparation S1AP:UE of an Inter System Handover to UTRAN CONTEXT RELEASE COMMAND with SRVCC (Single Radio Voice message (source eNB <- MME; Call Continuity, 3GPP TS 23.216). 3GPP TS 36.413) with Cause value "Radio Network (Successful Expiration of theLayer guarding timer Handover)" in case that this TS1RELOCoverall (3GPP TS message received for an Inter 36.413) iniscase that this timer was System Handover to UTRAN with started because of an Inter System SRVCC (Single Radiowith Voice Call Handover to UTRAN SRVCC The arithmetical average of Continuity, 3GPP TS 23.216). (Single Continuity, samplesRadio takenVoice from Call the number of 3GPP TS 23.216). UEs, having one SRB and at least one DRB established.
The maximum value of the samples of UEs having The maximum value of the samples one SRB and at least one DRB established during of UEs having one SRB and at a measurement period. least one DRB established during a measurement period. Transmission of an S1AP:RESET Message (partial Transmission of an S1AP:RESET or global). Message (partial or global).
Transmission of an S1AP:RESET Message (partial Transmission of an S1AP:RESET or global). Message (partial or global).
Reception of an S1AP:RESET Message (partial or Reception of an S1AP:RESET global) sent by MME to the eNB. Message (partial or global) sent by MME to the eNB. Reception of an S1AP:RESET Message (partial or Reception of an S1AP:RESET global) sent by MME to the eNB. Message (partial or global) sent by MME to the eNB.
This counter is updated after each sampling interval with the sample taken from the number of Active UEs.
This counter is updated after each sampling interval with the sample taken from the number of Active UEs.
This counter is updated by value 1 when the number of Active UEs is summed to counter SUM_ACTIVE_UE_ENB.
This counter is updated by value 1 when the number of Active UEs is summed to counter SUM_ACTIVE_UE_ENB.
Transmission of the RRC:MobilityFromEUTRANCommand message (with cell change order to GSM; 3GPP TS 36.331) from the serving eNB to the UE indicates the attempt of a Assisted Cell Change Reception ofNetwork an S1AP:HANDOVER COMMAND (NACC) from LTE to GSM. message (source eNB <- MME; 3GPP TS 36.413)
Transmission of the RRC:MobilityFromEUTRANComma nd message (with cell change order to GSM; 3GPP TS 36.331) from the serving eNB UE indicates the Reception of to anthe S1AP:HANDOVER attempt of a Network Cell COMMAND messageAssisted (source eNB Change (NACC) from LTE to GSM. in case this message is received in response to the <- MME; 3GPP TS 36.413) in case preparation of an Inter System Handover to this message is received in GERAN with SRVCC (Single Radio Voice Call response Reception of an S1AP:UE CONTEXT RELEASE Receptiontoofthe an preparation S1AP:UE of an Continuity, 3GPP TS 23.216). Inter System Handover to GERAN COMMAND message (source eNB <- MME; 3GPP CONTEXT RELEASE COMMAND with SRVCC (Single Radio Voice TS 36.413) with Cause value "Radio Network message (source eNB <- MME; Call Continuity, 3GPP TS 23.216). Layer (Successful Handover)" in case this 3GPP TS 36.413) with Cause value message for antimer InterTS1RELOCoverall System Handover Expirationisofreceived the guarding to GERAN with SRVCC (Single Radio Voice Call (3GPP TS 36.413) in case this timer was started Continuity, 3GPP TS 23.216). because of an Inter System Handover to GERAN
"Radio Network (Successful Expiration of theLayer guarding timer Handover)" in case this message is TS1RELOCoverall (3GPP TS received for an Inter System 36.413) in case this timer was Handover to GERAN with SRVCC (Single Radio Voice Call Continuity, started because of anwith InterSRVCC System (Single Radio Voice Call Continuity, 3GPP TS 23.216). Handover to GERAN with SRVCC The counter is updated with value 1 when cell state The counter is updated with value 1 3GPP TS 23.216). (Single Radio Call to Continuity, changes to Cell Operational is enabled. when cell stateVoice changes Cell 3GPP TS 23.216). Operational is enabled. The counter is incremented with value 1 when cell "Administrative State transitions to locked" or "Energy State transitions to energySaving" or "Local State transitions to blocked". The counter is incremented with value 1 when cell "Operational State changes to disabled" and cell "Administrative State is unlocked" and "Energy State is notEnergySaving" and "Local State is unblocked". The counter is incremented by 1 approximately every 10 seconds when "Cell Operational State is enabled".
The counter is incremented with value 1 when cell "Administrative State transitions to locked" or "Energy State transitions to energySaving" or "Local State The counter is incremented with transitions to blocked". value 1 when cell "Operational State changes to disabled" and cell "Administrative State is unlocked" and State is The "Energy counter is incremented by 1 notEnergySaving" and State approximately every 10"Local seconds is unblocked". when "Cell Operational State is enabled".
The counter is incremented with value 1 approximately every 10 seconds when cell "Administrative State is locked" or "Energy State is energySaving" or "Local State is blocked". The counter is incremented with value 1 approximately every 10 seconds when cell "Operational State is disabled" and cell "Administrative State is unlocked" and "Energy State is notEnergySaving" and "Local State is unblocked".
The counter is incremented with value 1 approximately every 10 seconds when cell "Administrative State is locked" or "Energy State is energySaving" or "Local State is The counter is incremented with blocked". value 1 approximately every 10 seconds when cell "Operational State is disabled" and cell "Administrative State is unlocked" and "Energy State is notEnergySaving" and "Local State is unblocked".
The counter is updated with value 1 approximately The counter is updated with value 1 every 10 seconds. approximately every 10 seconds.
The counter is incremented with value 1 approximately every 10 seconds when the cell "Operational State is disabled" and the "Energy State is energySaving". The counter is incremented with value 1 when the cell "Operational State changes to disabled" and the "Energy State is energySaving". intra-eNB HO: This counter is updated following the transmission of an RRC Connection Reconfiguration message sent by the eNB to the UE, which indicates a Handover Command to the UE in caseHO: thatThis this counter message sent in following response to intra-eNB is is updated the preparation of an inter-frequency Intra the transmission of an RRC Connection eNB Handover. Reconfiguration message sent by the eNB to the inter-eNB - via X2: This counter is updated UE, whichHO indicates a Handover Command to the following the reception of an X2AP:HANDOVER UE in case that this message is sent in response to intra-eNB HO: This counter is message updated following REQUEST ACKNOWLEDGE from the the preparation of an inter-frequency Intra eNB the reception an that internal in that in it target eNBand in of case this message message is case received Handover when measurement gaps are is receivedto for an inter-frequency Intra eNB response the preparation of an inter-frequency configured for the UE. Handover. Inter eNB Handover. intra-eNB HO: counter is updatedupdated following inter-eNB HO --This via X2: This counter inter-eNB HO of via X2: This message counter is isinupdated S1: the reception an internal case that it following the reception of an X2AP:HANDOVER X2AP:UE CONTEXT following the reception of an S1AP:HANDOVER is received for an inter-frequency Intra eNB REQUEST ACKNOWLEDGE message from the RELEASE message from the target for an COMMAND message from the MMEeNB in case that in Handover when measurement gaps are configured target eNB in case that this message is received inter-frequency Inter eNB Handover. this message is received in response to the for the UE.to response theExpiration preparation of an THOoverall inter-frequency intra eNB HO: of timer in preparation of an inter-frequency Inter eNB gaps Inter eNB Handover and when measurement case that the timer was started because of an inter-eNB HO via S1: This counter is updated Handover. inter-eNB HO - for via X2: This counter is updated are configured the UE. inter-frequency Intra eNB Handover. following the reception of an S1AP:UE CONTEXT following the reception of an X2AP:UE CONTEXT inter eNB HO - via X2: Expiration of thethe timer RELEASE COMMAND message from MME RELEASE message from the target is eNB for an inter-eNB HO via S1: This counter updated TX2RELOCoverall (3GPP TS36.423) in case thatthe with the cause value Radio Network Layer intra eNB HO: This counter is updated following inter-frequency Inter eNB Handover when following the reception of an S1AP:HANDOVER the timer was started because of an inter(Successful Handover) in case that this message expiration of message timer THOoverall case that thethat is measurement gaps are configured forinthe UE. COMMAND from theinInter MME case frequency Inter eNB Handover. received for an inter-frequency eNB timer was started because an inter-frequency this message is received in of response to the timer inter eNB HO - via S1: Expiry of the guarding Handover. Intra eNB Handover when measurement gaps inter-eNB HO via S1: This counter is preparation of an inter-frequency Inter eNB TS1RELOCoverall (3GPP TS 36.413) updated in case that were configured for the UE. following the reception of an S1AP:UE CONTEXT Handover andstarted when measurement gaps are intra eNBwas HO: the timer because of an inter eNB HO -the viaUE. X2: This counter isinterupdated RELEASE COMMAND message from theaMME configured fortrigger. Internal eNB At eNB MM receives list with frequency Inter eNB Handover. following thefrom expiration of the timer toLayer with the cause value Network target cells RRMRadio and decides perform an TX2RELOCoverall (3GPP TS36.423) if the timer is (Successful Handover) case that this message Intra eNB Handover for in IMS emergency session. was started because of an inter-frequency Inter received for an inter-frequency Inter eNB Handover This counter is updated following thegaps transmission eNB Handover when measurement were when measurement gaps are configured for the inter - via X2: Reconfiguration message of aneNB RRCHO Connection configured for the UE. UE. Transmission of the X2AP:HANDOVER REQUEST (sent by the the UE),counter which indicates a inter eNB HOeNB - viato S1: This is 3GPP updated message (source eNB -> target eNB; Handoverthe Command to of thethe UEguarding in case timer this TS following expiration 36.423) iniscase that this message prepares an message sent because of service-based TS1RELOCoverall (3GPP TS in case that Intra-eNB HO: This counter isa 36.413) updated following Inter eNB Handover for an IMS emergency handover. the timer was started because of an interthe reception of an eNB-internal message in case session. frequency Inter eNB Handoverfor when measurement that this message is received a successful gaps were configured for the UE . service-based inter eNB HO -intra-eNB via S1: handover. Transmission of the S1AP:HANDOVER Inter-eNB HO - via X2:(source This counter is MME; updated REQUIRED message eNB -> 3GPP following theinreception anmessage X2AP:UEprepares CONTEXT TS 36.413) case thatofthis an RELEASE message for from target eNB in case Inter eNB Handover anthe IMS emergency that this message is received for a successful session. service-based inter-eNB handover. Inter-eNB HO - via S1: This counter is updated following the reception of an S1AP:UE CONTEXT RELEASE COMMAND message from the MME
The counter is incremented with value 1 approximately every 10 seconds when the cell "Operational State is disabled" and the "Energy State is energySaving". The counter is incremented with value 1 when the cell "Operational State changes to disabled" and the "Energy State is energySaving". intra-eNB HO: This counter is updated following the transmission of an RRC Connection Reconfiguration message sent by the eNB toHO: the This UE, which indicates intra-eNB counter is a Handover Command to the UE in updated following the transmission case message is sent in of an that RRCthis Connection response to the of an Reconfiguration preparation message sent by inter-frequency Intra eNB the eNB to the UE, which indicates intra-eNB HO: This counter is Handover. a Handover Command to the UEofin updated following inter-eNB HO message - viathe X2:reception This counter case that this is sent in it an internal following message the in case that is updated reception response to the preparation of an is received for an inter-frequency of an X2AP:HANDOVER inter-frequency Intra eNB Handover Intra eNB Handover. REQUEST ACKNOWLEDGE intra-eNB This counter is are and when HO: measurement gaps message from the target eNB inof updated following the reception configured for -the UE. inter-eNB HO via X2: This counter case that this message is received an internal message in case that it is updated following the reception in response to-an the preparation of an is received for inter-frequency inter-eNB HO via X2: This counter of an X2AP:UE CONTEXT inter-frequency Inter eNB Intra eNB HO: Handover when is updated following the reception intra eNB Expiration of timer RELEASE message from the target Handover. measurement gaps are configured of an X2AP:HANDOVER THOoverall in case that theInter timer eNB for an inter-frequency for the UE. ACKNOWLEDGE REQUEST was started an intereNB Handover. inter-eNB HObecause -the via target S1:ofThis counter message from eNB in frequency Intra eNB the Handover. is updated following reception inter-eNB HO message - via via X2: X2: Expiration This counter case that this is received inter eNB HO of inter-eNB S1: counter of aneNB S1AP:HANDOVER intra HO: counter is is updated following theThis reception in response to This the preparation of an the timer TX2RELOCoverall (3GPP is updated following the reception COMMAND message fromHandover the of updated following theeNB expiration of an X2AP:UE CONTEXT inter-frequency Inter TS36.423) in case that thethat timer of an S1AP:UE CONTEXT MME in case that this message is timer THOoverall in case the RELEASE message from the target and when measurement gaps are was started because ofmessage an interRELEASE COMMAND received in response to the timer was started because of an eNB for an inter-frequency Inter configured for the UE. frequency Inter eNB Handover. from the MME with the cause value preparation of an inter-frequency inter-frequency Intra eNB Handover eNB Handover when measurement intra HO: inter eNB HO via S1: Expiry of the Radio Network Layer (Successful Inter eNB Handover. when measurement gaps gaps are configured for thewere UE. inter-eNB HO via S1: This counter Internal eNB trigger. At eNB MM guarding timer TS1RELOCoverall Handover) in that this configured forcase the UE. is updated following reception receives ais36.413) list with target cells from (3GPP TS inthe case that the message received for an interinter eNB HO via X2: This counter inter-eNB S1: of an S1AP:HANDOVER RRM and decides to perform an timer was started because of an frequency Inter eNB Handover. expiration is updated following reception COMMAND message from the Intra eNB Handover for IMS inter-frequency Inter the eNB This counter is updated following of the timer TX2RELOCoverall an S1AP:UE CONTEXT MME in case that this message is emergency session. Handover. the transmission ofifan (3GPP TS36.423) the timer was RELEASE message received in COMMAND response toRRC the Connection Reconfiguration started of an interfrom thebecause MME with the cause value preparation of inter-frequency inter eNB HO -an via X2: message (sent by the eNB to the frequency Inter eNB Handover Radio Network Layer (Successful Inter eNB Handover and when Transmission of the a Handover UE), which indicates when measurement gaps were Handover) in case measurement Intra-eNB HO: gaps Thisthat counter are this configured is X2AP:HANDOVER REQUEST Command to the case thisof configured for theUE UE.in message is received for an interfor the UE. updated following the reception message (source eNB -> target message is sent because of a inter eNB HO via S1: This counter frequency Inter eNB Handover an eNB-internal message case eNB; 3GPP TShandover. 36.423) in in case that service-based is updated following expiration when measurement gaps are that this message is the received for a this message prepares an Inter of theHandover guarding timer configured for the UE. successful service-based eNB for an IMSintra-eNB TS1RELOCoverall handover. emergency session.(3GPP TS 36.413) in case that the timer was started because ofS1: an interInter-eNB HO -- via via X2: This counter inter eNB HO frequency Inter eNB Handover is updated following reception Transmission of the the when measurement gaps were of an X2AP:UE CONTEXT S1AP:HANDOVER REQUIRED configured for the eNB UEfrom . -> MME; RELEASE message the target message (source eNB in case that this message is 3GPP TS 36.413) in case that this received a successful servicemessagefor prepares an Inter eNB based inter-eNB handover. Handover for an IMS emergency
intra eNB HO: eNB MM receives a list with target cells from RRM. MM or RRM decides not to execute an Intra eNB Handover for any reason. Intra-eNB HO: Inter eNB HO via X2: Trigger Event: Transmission of an Trigger Event: RRC:RRCConnectionReconfiguration message -(source ExpiryeNB of the timer in ->guarding UE; 3GPP TS TX2RELOCprep 36.331) in case that case that the timer was started because of this message is transmitted to command an IntraIntra eNB HO:of transmission thean X2AP:HANDOVER REQUEST eNB Handover for IMS emergency session. Trigger Event: eNB-internal message caseTS that message (source eNB -> target eNB; in 3GPP this message indicates a successful Intra eNB 36.423) for the preparation of an Inter eNB Inter-eNB viaIMS X2: emergency session. Handover HO for an Trigger Event: Reception of the X2AP:HANDOVER or Intra-eNB HO: Trigger Event: Transmission of an REQUEST ACKNOWLEDGE message (source Inter eNB HO via -RRC:RRCConnectionReconfiguration Reception ofeNB; theX2: X2AP:HANDOVER message eNB UE; 3GPPin TS inthe case this message is received response to CONTEXT message (source eNBin target cell) in case that thisnot message isIn RELEASE message from the target eNB in cell case prepared for incoming HO or at HO source is case of reestablishment request to cell prepared received for an intra-eNB handover preparation. that this message is received for a successful load excluded from counting. for incoming HO, the case of received PCI different Intra-eNB HO: This counter is updated following balancing inter-eNB Handover. from source cell PCI of This prepared HOisisupdated excluded Inter-eNB HO - via X2: counter the reception of an eNB-internal message (source from counting. following the reception of an X2AP: HANDOVER cell -> target cell) in case that this message is Inter-eNB HO via S1: This counter is updated In the source cell of missed HO attempt, a HO REQUEST message (source eNB ->preparation target eNB) in received for an intra-eNB handover following the reception of an S1AP: UE CONTEXT preparation formessage the considered UE context may be case that this is received for an inter-eNB with handover causecell Time Critical Handover. RELEASE COMMAND message from the MME ongoing. The target of such HO preparation handover preparation. with cause valuefrom Radio Layer the (Successful can be different theNetwork cell receiving Inter-eNB HO - via X2: This counter isisupdated Handover) in case that this message received for reestablishment request. Inter-eNB HOreception - via S1: of This is updated following the ancounter X2AP: HANDOVER a successful load balancing inter-eNB Handover. following themessage reception of an S1AP: REQUEST (source eNB ->HANDOVER target eNB) in REQUEST message (MME -> target in case case that this message is received foreNB) an inter-eNB that this message is received for an inter-eNB handover preparation with handover cause Time handover preparation. Critical Handover.
intra eNB HO: eNB MM receives a list with target cells from RRM. MM or RRM decides not to execute an Intra eNB Intra-eNB HO:Handover for any reason. Trigger Event: Transmission of an
RRC:RRCConnectionReconfigurati Inter eNB HO(source via X2:eNB -> UE; on message Trigger Event: 3GPP TS 36.331) in case that this Intra eNB HO: -message Expiry ofis the guardingto timer transmitted Trigger Event: eNB-internal TX2RELOCprep in case that the command ancase Intra-eNB Handover message in that this message timer was started because of for an IMSa emergency session. indicates successful Intra eNB transmission of the Handover for an IMS emergency X2AP:HANDOVER REQUEST Intra-eNB HO HO:via Trigger Inter-eNB X2: Event: session. message (source target Transmission of aneNB -> of Trigger Event: Reception the eNB; 3GPP TS 36.423) for the RRC:RRCConnectionReconfigurati X2AP:HANDOVER REQUEST Inter eNB HO via preparation of(source an X2: Inter eNB on message eNB -> (source UE; ACKNOWLEDGE message Trigger Event: Reception of thethis Handover for an IMS emergency 3GPP TS 36.331) in case that eNB time' target case that this Note: is updated following the reception no longer than expiration value of The case of reestablishment cause message is received for an intraThe Intra-eNB HO: This counter isfrom of an X2AP: UE CONTEXT Tstore_UE_cntxt timer up from HO 'ReconfigFailure' is excluded eNB handover preparation. RRCConnectionReestablishmentRe updated following reception of RELEASE message the target completion. counting. The casethe offrom quest after a failed HO is (source an eNB-internal message eNB in case that this message is For the sequence of Case2 the reestablishment cause 'HOfailure' is Inter-eNB HO -reestablishment via This counter recognized by cell -> target inX2: case that this received for acell) successful load reestablishment request (cause excluded from counting when reis updated following the reception cause 'HOfailure'. message is received forcell an balancing inter-eNB 'HOfailure') received at establishment target Handover. cell is intraof anhandover X2AP: HANDOVER eNB preparation with prepared formessage incoming(source HO HO HO,or asat this REQUEST eNB handover cause Time Critical Inter-eNB HO via S1: This counter source cell is excluded from means HO has been attempted, -> target eNB) in case that this Handover. is the counting. notupdated missed. In case of message isfollowing received for reception an interof an S1AP: UE CONTEXT reestablishment request to cell eNB handover preparation. Inter-eNB HO - via X2: HO, This counter RELEASE COMMAND message prepared for incoming the case is updated following the reception from the MME with cause value of received PCI different from Inter-eNB HO via S1: This counter of an X2AP: HANDOVER Radio Network Layer (Successful source cell following PCI of prepared HO is is updated the reception REQUEST message (source eNB Handover) in case that this excluded from counting. Inter-RAT counter updated following of an S1AP: HANDOVER Inter-eNB HO: HO -This via S1: This is counter is updated -> target eNB) in case that this message is received for a In the source cell of missed HO the reception of an S1AP: HANDOVER REQUEST REQUEST message (MME ->
Intra-eNB HO: This counter is updated following the reception of an eNB-internal message (source cell -> target cell) in case that this message is received for an intra-eNB handover preparation with handover Handover desirable for Radio Intra-eNB HO: cause This counter is updated following Reasons. the reception of an eNB-internal message (source cell -> target cell) in case that this message is Inter-eNB HO via X2: This counter preparation is updated received for an- intra-eNB handover following the reception of an X2AP: HANDOVER with handover cause Reduce Load in Serving Cell. Intra-eNB This counter updated following REQUESTHO: message (sourceiseNB -> target eNB) in the reception of an eNB-internal message (source case that this message is received for inter-eNB Inter-eNB HOcell) - viainX2: This counter is an updated cell -> target case that this message is handover preparation with handover cause following thean reception of an X2AP: preparation HANDOVER received for intra-eNB handover Handover desirable for Radio Reasons. REQUEST message (source eNB -> target eNB) in with handover cause Resource Optimization Intra-eNB HO:message This counter is updated following case that this is received for an inter-eNB Handover. Inter-eNB HO - via Thishandover counter message iscause updated the transmission of S1: anwith eNB-internal handover preparation Reduce following the of an S1AP: HANDOVER (targetincell ->reception source cell) in case that this Load Serving Cell. Inter-eNB HO - via This -> counter iseNB) updated REQUESTis message target in case message sent forX2: a(MME successful handover following the reception of an X2AP: HANDOVER that this message is received for an inter-eNB preparation. Inter-eNB HO -This via S1: This is counter updated Intra-eNB HO: counter updated following REQUEST message (source eNB ->iscause target eNB) in handover preparation with handover following the reception of an S1AP: HANDOVER the transmission of an eNB-internal message case that this message is received for an inter-eNB Handover desirable for Radio Reasons. Inter-eNB HO - via X2: This -> counter iseNB) updated REQUEST message (MME target in case (target cellpreparation -> source cell) case that this handover within handover cause following the transmission of an X2AP: that this message is received for an inter-eNB message is sent for a successful handover Resource Optimization Handover. HANDOVER REQUEST ACKNOWLEDGE handover preparation with handover cause Reduce preparation with handover cause Time Critical Intra-eNB HO: This counter is updated following message (target eNB -> source eNB) in case that Load in Serving Cell. Handover. Inter-eNB HO is - via This counter message isinter-eNB updated the of S1: anforeNB-internal this transmission message sent a successful following the of an S1AP: HANDOVER (target cell ->reception source cell) in case that this handover preparation. Inter-eNB HO - via This -> counter iseNB) updated REQUESTis message target in case message sent forX2: a(MME successful handover following the transmission of an X2AP: that this message is received for an inter-eNB preparation with handover cause Handover Inter-eNB HOREQUEST -This via S1: This counter is updated Intra-eNB HO: counter is updated following HANDOVER ACKNOWLEDGE handover preparation with handover cause desirable for Radio Reasons. following the transmission of an S1AP: the transmission of an eNB-internal message message (target eNB ->Handover. source eNB) in case that Resource Optimization HANDOVER (target cell -> REQUEST source cell)aACKNOWLEDGE in case thatinter-eNB this this message is sent for successful Inter-eNB HO - via This counter is updated message (target eNB MME) in handover case that Time this message is sent forX2: a -> successful handover preparation with handover cause following the transmission of an X2AP: message is sent for a successful inter-eNB preparation with handover cause Reduce Load in Critical Handover. Intra-eNB HO: This counter is updated following HANDOVER REQUEST ACKNOWLEDGE handover preparation. Serving Cell. the transmission of an-> eNB-internal message message (target eNB source eNB) in case that Inter-eNB HO - via S1: This counter isinter-eNB updated (target cellHO: -> source cell) in case that this this message is sent for a successful Inter-RAT This counter is updated following Inter-eNB HO - via X2: Thisofcounter is updated following the transmission an S1AP: message is sent for a successful handover handover preparation with handover cause the transmission of an S1AP: HANDOVER following thewith transmission of an X2AP: HANDOVER REQUEST ACKNOWLEDGE preparation handover cause Resource Handover desirable for Radio Reasons. REQUEST ACKNOWLEDGE (target Intra-eNB HO: This counter is message updated HANDOVER REQUEST ACKNOWLEDGE message (target eNB -> MME) in case following that thiseNB Optimization Handover. -> MME) in case that this message is sent for a the transmission of an eNB-internal message message (target eNB source eNB) in case that is sent forS1: a -> successful inter-eNB Inter-eNB HO via This counter is updated successful inter-RAT handover preparation. (target cell -> source cell) in case that this this message is sent for a successful inter-eNB handover preparation with handover Time Inter-eNB HO - via This counter iscause updated following the transmission of an S1AP: message is sent forX2: a with handover preparation failure handover preparation handover cause Reduce Critical Handover. following thecause transmission ofResources an X2AP: Available HANDOVER REQUEST ACKNOWLEDGE with failure No Radio In Load in Serving Cell. Intra-eNB HO:REQUEST This counter is updated HANDOVER ACKNOWLEDGE message (target eNB -> MME) in case following that this Target Cell. the transmission of an eNB-internal message message (target eNB source eNB) in case that is sent for a -> successful inter-eNB Inter-eNB HO - via S1: This counter isinter-eNB updated (target cellpreparation -> source cell) in case that this this message is sent for a successful handover with handover cause Inter-eNB HO - via X2: Thisofcounter is updated following the transmission an S1AP: message is sent for a handover preparation handover preparation cause failure Handover desirable forwith Radio Reasons. following the transmission ofhandover an X2AP: HANDOVER REQUEST ACKNOWLEDGE with failure cause Transport Resources Resource Optimization Handover. This counter is updated HANDOVER PREPARATION message message (target eNB -> following MME)FAILURE in the casetransmission that this Unavailable. of an RRC Connection Reconfiguration (target eNB -> source eNB) in case that message this message is sent for a successful inter-eNB Inter-eNB HO - via This counter is updated (sent by the eNB toS1: the UE), whichhandover indicates a message is sent for anwith inter-eNB handover preparation handover cause Reduce Inter-eNB HO via X2: This counter is updated following the transmission of an S1AP: handover command to the UE in case this preparation failure with failure cause No Radio Load in Serving Cell. following the transmission of an an inter-frequency X2AP: HANDOVER REQUEST ACKNOWLEDGE message is sent because of Resources Available In Target Cell. Intra-eNB HO: This counter is FAILURE updated following HANDOVER PREPARATION message message (target eNB -> MME) in case that this handover for UEs with QCI1 (A3/A5 radio related the reception of an eNB-internal message in case (target eNB -> source eNB) in case that this message is sent for a successful inter-eNB handovers only). Inter-eNB HO - via This counter is updatedinterthat this message isS1: received for ahandover successful message is sent for an inter-eNB handover preparation with handover cause following the transmission of an S1AP: frequency handover for Handover. UEs with QCI1 (A3/A5 preparation failure with failure cause Transport Resource Optimization HANDOVER FAILURE message radio related handovers only). (target eNB -> Resources Unavailable. MME) in case that this message is sent for an inter-eNB preparation failure with failure X2: This counter is updated Inter-eNB handover HO - via S1: cause No Radio Resources Available In Target following the reception of an UE CONTEXT transmission of X2AP: an S1AP: Cell. RELEASE message from the target eNBeNB in case HANDOVER FAILURE message (target -> that this received for is a successful MME) in message case that is this message sent for an interInter-RAT HO: This counter updated frequency handover for UEsiswith QCI1 following (A3/A5 inter-eNB handover preparation failure with failure the transmission of an S1AP: HANDOVER radio related handovers only). cause Transport Resources Unavailable. FAILURE message (target eNB -> MME) in case that this message sent foris an inter-RAT Inter-eNB HO -This viaisS1: This counter is updated Inter-RAT HO: counter updated following handover preparation failure with failure cause No
Intra-eNB HO: This counter is updated following the reception of an eNB-internal message (source cell -> target cell) in case that this message received for an intraIntra-eNB is HO: This counter is eNB handover preparation with of updated following the reception handover cause message Handover(source an eNB-internal desirable for Radio cell -> target cell) inReasons. case that this message is receivedcounter for an intraIntra-eNB HO: is Inter-eNB HO -This via X2: Thiswith counter eNB handover preparation updated following the reception of is updated following the reception handover cause message Reduce Load in anan eNB-internal (source of X2AP: HANDOVER Serving Cell. cell) in case that this cell -> target REQUEST message (source eNB message is received for an intra-> target eNB) case that Intra-eNB HO HO: This counter is Inter-eNB -in via X2: Thisthis counter eNB handover preparation message is received for an with interupdated following thethe transmission is updated following reception handover causepreparation Resource eNB of anhandover eNB-internal messagewith (target X2AP: HANDOVER Optimization Handover. handover cause Handover cell -> source cell) in thateNB this REQUEST message case (source desirable for Radio Reasons. message is sent for a successful -> target eNB) case that Intra-eNB HO: This counter is Inter-eNB HO -in via X2: Thisthis counter handover preparation. message is received for an interupdated following the transmission is updatedHO following theThis reception Inter-eNB via S1: counter eNB preparation with of anhandover eNB-internal message (target X2AP: HANDOVER is updated following the reception Inter-eNB HO cell) - via X2: This counter handover cause Reduce Load in cell -> source in case that this REQUEST message (source eNB of an S1AP: HANDOVER is updated following the Serving Cell. message is sent for a successful -> target eNB) in case that this REQUEST message (MME -> Intra-eNB HO:ofThis counter is transmission an X2AP: handover preparation with message is received for an intertarget eNB) in case that this updated following the transmission HANDOVER REQUEST Inter-eNB HO -preparation via S1: This counter handover cause Time Critical eNB handover message is received for an with interof an eNB-internal message (target ACKNOWLEDGE message (target is updated following the reception Handover. handover cause Resource eNB preparation with cell ->handover source cell) in in case that this eNB -> source eNB) case that of an S1AP: HANDOVER Optimization Handover. handover cause Handover message is sent for a successful this message is sent for a -> REQUEST message (MME Intra-eNB HO: counter is Inter-eNB HO -This via X2: This counter desirable for Radio Reasons. handover preparation with successful inter-eNB handover target eNB) in case that this updated following the transmission is updated following the Inter-eNB HO via S1: This counter handover cause Handover preparation. message is received for reception an interof an eNB-internal message (target transmission of an X2AP: is updated following the desirable for Radio Reasons. eNB handover preparation with cell -> source cell) in case that this HANDOVER REQUEST of an S1AP: HANDOVER Inter-eNB HO - via S1: This counter handover cause Reduce Load in message is sent for a successful ACKNOWLEDGE message (target REQUEST message (MME Intra-eNB HO: counter is Inter-eNB HO -This via X2: This -> counter is updated following the Serving Cell. handover preparation with eNB ->eNB) source eNB) intransmission case that target in case that this updated following the is updated following the transmission of an S1AP: handover cause Reduce Load in this message is sent for a message is received an interof an eNB-internal transmission of an message X2AP: (target HANDOVER REQUEST Serving Cell. successful inter-eNB handover eNB preparation with cell ->handover source cell) in case that this HANDOVER REQUEST ACKNOWLEDGE message (target preparation with handover cause handover cause Resource message is sent for a successful ACKNOWLEDGE message (target eNB -> MME) case that Intra-eNB HO: This counter is Inter-eNB HOHandover. -in via X2: Thisthis counter Time Critical Optimization handover preparation with eNB -> source eNB) in case that message is sent for a successful updated following the transmission is updatedcause following the handover Resource this message is sent for a inter-eNB handover preparation. of an eNB-internal (target transmission of- via an message X2AP: Inter-eNB HO S1: This counter Optimization Handover. successful inter-eNB handover cell -> source cell) in case that this HANDOVER REQUEST is updated following the cause preparation with handover Inter-RAT HO: This counter is message is sent for a handover ACKNOWLEDGE message (target transmission of-This an S1AP: Intra-eNB HO: counter is Inter-eNB HO via X2: This counter Handover desirable for Radio updated following the preparation failure with failure eNB -> source eNB) intransmission case that HANDOVER REQUEST updated following the transmission is updated following the Reasons. of anmessage S1AP: HANDOVER cause No Radio Resources this is sent for a ACKNOWLEDGE message (target of an eNB-internal (target transmission of an message X2AP: REQUEST ACKNOWLEDGE Available Ininter-eNB Target Cell. successful handover eNB ->source MME) invia case that this cell -> cell) in case that this HANDOVER REQUEST Inter-eNB HO S1: This counter message (target eNB -> MME) in preparation with handover cause successful message is sent for a handover ACKNOWLEDGE message (target is updated following theThis case This counter that this is message updated is following sent for a Inter-eNB HO via X2: counter Reduce Load in Serving Cell. inter-eNB handover preparation preparation failure with failurethat eNB -> source in case transmission ofeNB) an S1AP: successful the transmission inter-RAT of an handover RRC is updated following the with handover Time cause Transport Resources this message iscause sent for a Critical HANDOVER REQUEST preparation. Connection Reconfiguration transmission of an X2AP: Inter-eNB HO - via S1: This counter Handover. Unavailable. successful inter-eNB handover ACKNOWLEDGE message message by the eNB to(target the HANDOVER PREPARATION is updated(sent following the preparation with handover cause eNB -> MME) in case that this UE), which indicates a handover FAILURE message (target eNB -> transmission of-This an S1AP: Intra-eNB HO: counter is Inter-eNB HO via This counter Resource Optimization Handover. message is sent forX2: ain successful command to the UE case this source eNB) in case that this HANDOVER REQUEST updated following the reception of is updated following the inter-eNB handover preparation message is sentmessage because of (target an formessage an inter-eNB ACKNOWLEDGE an eNB-internal in case transmission of an X2AP: Inter-eNB HO via S1: This counter with handover cause Handover inter-frequency handover for UEs handover preparation failure with eNB -> MME) in case that this that this message isReasons. received for a HANDOVER PREPARATION is updated following the desirable for Radio with QCI1 (A3/A5 radio related failure cause No for Radio Resources message is sent a successful successful inter-frequency FAILURE message (target eNB -> transmission of an S1AP: handovers only). Available In Target Cell. inter-eNB handover preparation handover for UEs with QCI1 source eNB) in case that this(A3/A5 HANDOVER REQUEST with handover cause Reduce Load radio related handovers only). message is sent for an inter-eNB ACKNOWLEDGE (target Inter-eNB HO - viamessage S1:failure This counter in Serving Cell. handover preparation with eNB -> MME) in casethe that this is updated following Inter-eNB HO - via X2: This counter failure cause Transport Resources message is sent for a successful transmission of an S1AP: is updatedhandover following the reception Unavailable. inter-eNB preparation HANDOVER FAILURE message of anhandover X2AP: UE CONTEXT with cause Resource (target eNB -> MME) in case that RELEASE message from thecounter target Inter-eNB HO - via S1: This Optimization Handover. this message is sent for an intereNB in casefollowing that thisthe message is is updated eNB handover preparation failure received for aofsuccessful transmission an S1AP: interwith failure cause No Radio
Transmission of X2AP: X2 SETUP REQUEST message to the neighbor eNB (3GPP TS 36.423)
Transmission of X2AP: X2 SETUP REQUEST message to the neighbor eNB (3GPP TS 36.423)
Reception of X2AP: X2 SETUP FAILURE message or expiration of Timer (wait for X2 SETUP RESPONSE) - (3GPP TS 36.423)
Reception of X2AP: X2 SETUP FAILURE message or expiration of Timer (wait for X2 SETUP RESPONSE) -This (3GPP TS 36.423) counter is updated when a
This counter is updated when a PDCP SDU is received from a UE assigned to QCI Counter Group 1.
PDCP SDU is received from a UE assigned to QCI Counter Group 1.
This counter is updated when a PDCP SDU is received from a UE assigned to QCI Counter Group 2.
This counter is updated when a PDCP SDU is received from a UE assigned to QCI Counter Group 2.
This counter is updated when a PDCP SDU is received from a UE assigned to QCI Counter Group 3.
This counter is updated when a PDCP SDU is received from a UE assigned to QCI Counter Group 3.
This counter is updated when a PDCP SDU is received from a UE assigned to QCI Counter Group 4.
This counter is updated when a PDCP SDU is received from a UE assigned to QCI Counter Group 4.
This counter is updated when a PDCP SDU is received from a UE assigned to QCI Counter Group 5.
This counter is updated when a PDCP SDU is received from a UE assigned to QCI Counter Group 5.
This counter is updated when a PDCP SDU is received from a UE assigned to QCI Counter Group 6.
This counter is updated when a PDCP SDU is received from a UE assigned to QCI Counter Group 6.
This counter is updated when a PDCP SDU is This counter is updated when a transmitted towards a UE assigned to QCI Counter PDCP SDU is transmitted towards Group 1. a UE assigned to QCI Counter Group 1. This counter is updated when a PDCP SDU is This counter is updated when a transmitted towards a UE assigned to QCI Counter PDCP SDU is transmitted towards Group 2. a UE assigned to QCI Counter Group 2. This counter is updated when a PDCP SDU is This counter is updated when a transmitted towards a UE assigned to QCI Counter PDCP SDU is transmitted towards Group 3. a UE assigned to QCI Counter Group 3. This counter is updated when a PDCP SDU is This counter is updated when a transmitted towards a UE assigned to QCI Counter PDCP SDU is transmitted towards Group 4. a UE assigned to QCI Counter Group 4.
This counter is updated when a PDCP SDU is This counter is updated when a transmitted towards a UE assigned to QCI Counter PDCP SDU is transmitted towards Group 5. a UE assigned to QCI Counter Group 5. This counter is updated when a PDCP SDU is This counter is updated when a transmitted towards a UE assigned to QCI Counter PDCP SDU is transmitted towards Group 6. a UE assigned to QCI Counter Group 6. The average of samples taken from the number of active UEs, having one SRB and at least one DRB established. The SPID assigned to the UE has to be mapped to Mobility Profile 1 according to the SPID Mapping The average ofTable. samples taken from the number of
The average of samples taken from the number of active UEs, having one SRB and at least one DRB established. The SPID assigned to the has toofbesamples mappedtaken to from TheUE average Mobility Profile 1 according to the active UEs, having one SRB and at least one DRB the number of active UEs, having SPID Mapping Table. established. The SPID assigned to the UE has to one SRB and at least one DRB be mapped to Mobility Profile 2 according to the established. The SPID assigned to SPID Mapping Table. has toofbesamples mappedtaken to from The average of samples taken from the number of the TheUE average Mobility Profile 2 according to the active UEs, having one SRB and at least one DRB the number of active UEs, having SPID Mapping Table. established. The SPID assigned to the UE has to one SRB and at least one DRB be mapped to Mobility Profile 3 according to the established. The SPID assigned to SPID Mapping Table. has toofbesamples mappedtaken to from The average of samples taken from the number of the TheUE average Mobility Profile 3 according to the active UEs, having one SRB and at least one DRB the number of active UEs, having SPID Mapping Table. established. The SPID assigned to the UE has to one SRB and at least one DRB be mapped to Mobility Profile 4 according to the established. The SPID assigned to SPID Mapping Table. has toofbesamples mappedtaken to from The average of samples taken from the number of the TheUE average Mobility Profile 4 according to the active UEs, having one SRB and at least one DRB the number of active UEs, having SPID Mapping Table. established. The SPID assigned to the UE has to one SRB and at least one DRB be mapped to Mobility Profile 5 according to the established. The SPID assigned to SPID Mapping Table. has toofbesamples mappedtaken to from The average of samples taken from the number of the TheUE average Mobility Profile 5 according to the active UEs, having one SRB and at least one DRB the number of active UEs, having SPID Mapping Table. established. The SPID assigned to the UE has to one SRB and at least one DRB be mapped to Mobility Profile 6 according to the established. The SPID assigned to SPID Mapping Table. has toofbesamples mappedtaken to from The average of samples taken from the number of the TheUE average Mobility Profile 6 according to the active UEs, having one SRB and at least one DRB the number of active UEs, having SPID Mapping Table. established. The SPID assigned to the UE has to one SRB and at least one DRB be mapped to Mobility Profile 7 according to the established. The SPID assigned to SPID Mapping Table. has toofbesamples mappedtaken to from The average of samples taken from the number of the TheUE average Mobility Profile 7 according to the active UEs, having one SRB and at least one DRB the number of active UEs, having SPID Mapping Table. established. The SPID assigned to the UE has to one SRB and at least one DRB be mapped to Mobility Profile 8 according to the established. The SPID assigned to SPID Mapping Table. has toofbesamples mappedtaken to from The average of samples taken from the number of the TheUE average Mobility Profile 8 according to the active UEs, having one SRB and at least one DRB the number of active UEs, having SPID Mapping Table. established. The Default Mobility Profile is one SRB and at least one DRB assigned to the UE when either an SPID value is not to the UE orof when the SPID Theassigned arithmetical average samples takencannot from be mapped to any of the 16 dedicated Mobility the number of active UEs, having one SRB and at profiles. least one DRB established. At least the operator-
established. The Default Mobility Profile is assigned to the UE The arithmetical average of when either an SPID value is not samples taken from the number of assigned to having the UE one or when active UEs, SRBthe and at SPID cannot be mapped to any of specific QCI of one DRB has to be assigned to the least one DRB established. At least the 16 dedicated Mobility profiles. Counter Group 1 according to the QCI Translation the operator-specific QCI of one Table. DRB has to be assigned to the Counter Group 1 according to the QCI Translation Table.
The arithmetical average of samples taken from the number of active UEs, having one SRB and at least one DRB established. At least the operatorspecific QCI of one DRB has to be assigned to the Counter Group 2average according the QCItaken Translation The arithmetical of to samples from Table. the number of active UEs, having one SRB and at
The arithmetical average of samples taken from the number of active UEs, having one SRB and at least one DRB established. At least the QCI of of one Theoperator-specific arithmetical average DRB has to be assigned to the of samples taken from the number Counter Group 2 according theat least one DRB established. At least the operatoractive UEs, having one SRBtoand QCI Translation Table. specific QCI of one DRB has to be assigned to the least one DRB established. At least Counter Group 3average according the QCItaken Translation the QCI of of one The arithmetical of to samples from Theoperator-specific arithmetical average Table. DRB has to be assigned to the of the number of active UEs, having one SRB and at samples taken from the number Counter Group 3 according theat least one DRB established. At least the operatoractive UEs, having one SRBtoand QCI Translation Table. specific QCI of one DRB has to be assigned to the least one DRB established. At least Counter Group 4average according the QCItaken Translation The arithmetical of to samples from Table. the number of active UEs, having one SRB and at
the QCI of of one Theoperator-specific arithmetical average DRB has to be assigned to the of samples taken from the number Counter Group 4 according theat least one DRB established. At least the operatoractive UEs, having one SRBtoand QCI Translation Table. specific QCI of one DRB has to be assigned to the least one DRB established. At least Counter Group 5average according the QCItaken Translation the QCI of of one The arithmetical of to samples from Theoperator-specific arithmetical average Table. DRB has to be assigned to the of the number of active UEs, having one SRB and at samples taken from the number Counter Group 5 according theat least one DRB established. At least the operatoractive UEs, having one SRBtoand QCI Translation Table. specific QCI of one DRB has to be assigned to the least one DRB established. At least Counter Group 6 according to the operator-specific QCI Translation This counter is incremented if the Table. QCIs of the DRBs for a UE do not share the same QCI Counter Group that is when a unique assignment of a UE context to a QCI Counter Group is not possible. The arithmetical average of samples taken from the number of active UEs, having one SRB and at least one DRB established. The SPID assigned to the UE has to be mapped to Mobility Profile 9 according to the SPID Mapping Table.taken from The arithmetical average of samples the number of active UEs, having one SRB and at least one DRB established. The SPID assigned to the UE has to be mapped to Mobility Profile 10 according to the SPID Mapping Table.taken from The arithmetical average of samples the number of active UEs, having one SRB and at least one DRB established. The SPID assigned to the UE has to be mapped to Mobility Profile 11 according to the SPID Mapping Table.taken from The arithmetical average of samples the number of active UEs, having one SRB and at least one DRB established. The SPID assigned to the UE has to be mapped to Mobility Profile 12 according to the SPID Mapping Table.taken from The arithmetical average of samples the number of active UEs, having one SRB and at least one DRB established. The SPID assigned to the UE has to be mapped to Mobility Profile 13 according to the SPID Mapping Table.taken from The arithmetical average of samples the number of active UEs, having one SRB and at least one DRB established. The SPID assigned to the UE has to be mapped to Mobility Profile 14 according to the SPID Mapping Table.
the QCI of one Thisoperator-specific counter is incremented if the DRB has to be assigned the operator-specific QCIs ofto the DRBs Counter according to the for a UE Group do not 6share the same QCI Table. QCI Translation Counter Group that is when a unique assignment of a UE The arithmetical average of context to a QCI Counter Group is not of samples taken from the number possible. active UEs, having one SRB and at least one DRB established. The SPID assigned toaverage the UE of has to be The arithmetical mapped to Mobility Profile 9 samples taken from the number of according to the SPID Mapping active UEs, having one SRB and at Table. least one DRB established. The SPID assigned toaverage the UE of has to be The arithmetical mapped to Mobility Profile 10 of samples taken from the number according to the SPID Mapping active UEs, having one SRB and at Table. least one DRB established. The SPID assigned toaverage the UE of has to be The arithmetical mapped to Mobility Profile 11 samples taken from the number of according to the SPID Mapping active UEs, having one SRB and at Table. least one DRB established. The SPID assigned toaverage the UE of has to be The arithmetical mapped to Mobility Profile 12 of samples taken from the number according to the SPID Mapping active UEs, having one SRB and at Table. least one DRB established. The SPID assigned toaverage the UE of has to be The arithmetical mapped to Mobility Profile 13 of samples taken from the number according to the SPID Mapping active UEs, having one SRB and at Table. least one DRB established. The SPID assigned to the UE has to be mapped to Mobility Profile 14 according to the SPID Mapping Table.
The arithmetical average of samples taken from the number of active UEs, having one SRB and at least one DRB established. The SPID assigned to the UE has to be mapped to Mobility Profile 15 according to the SPID Mapping Table.taken from The arithmetical average of samples the number of active UEs, having one SRB and at least one DRB established. The SPID assigned to the UE has to be mapped to Mobility Profile 16 according to the SPID Mapping This counter is updated followingTable. the transmission
The arithmetical average of samples taken from the number of active UEs, having one SRB and at least one DRB established. The SPID assigned toaverage the UE of has to be The arithmetical mapped to Mobility Profile 15 of samples taken from the number according to the SPID Mapping active UEs, having one SRB and at Table. least one DRB established. The
SPID assigned to the UEfollowing has to be This counter is updated mapped to Mobility Profile 16 of an the transmission of an according to the SPID Mapping RRC:HandoverFromEUTRAPreparationRequest RRC:HandoverFromEUTRAPrepar message by the eNB to the UE (3GPP TS 36.331) Table. ationRequest message by the eNB in case that this message is sent to prepare a Inter thecounter UE (3GPP TS 36.331) in This counter is updated following the expiration of to This is updated following System Handover to eHRPD. case that this message is sent to the guarding timer TUlHoPrepTransferHrpd in case the expiration of the guarding timer prepare a Inter System Handover that this timer was started because of a Inter TUlHoPrepTransferHrpd in case to eHRPD. System Handover preparation to eHRPD. that this timer was started because This counter is updated following the expiration of the guarding timer TC2KRelocPrepHrpd in case that this timer was started because of a Inter System Handover preparation to eHRPD.
of a Inter System Handover This counter is updated following preparation to eHRPD. the expiration of the guarding timer
System Handover to eHRPD.
that this timer was started because of a Inter System Handover to This counter is updated following eHRPD. the reception of an S1AP:UE
TC2KRelocPrepHrpd in case that this timer was started because of a System is Handover This counter is updated following the reception of Inter This counter updated preparation following to eHRPD. an S1AP:DOWNLINK S1 CDMA2000 TUNNELING the reception of an (3GPP TS 36.413) message by the eNB from the S1AP:DOWNLINK S1 CDMA2000 MME in case that this message indicates a failed TUNNELING (3GPP TS 36.413) Handover preparation to eHRPD (CDMA2000 HO by the eNB from the MME This counter is updated following the reception of message This counter is updated following Status is set to HO Failure). in case that this message indicates an S1AP:DOWNLINK S1 CDMA2000 TUNNELING the reception of an failed Handover preparation to (3GPP TS 36.413) message by the eNB from the a S1AP:DOWNLINK S1 CDMA2000 eHRPD (CDMA2000 HO Status MME in case that this message indicates a TUNNELING (3GPP TS 36.413) is set to HO by Failure). successful Handover preparation to eHRPD eNB from the MME This counter is updated following the transmission message This counter the is updated following (CDMA2000 HO Status is set to HO Success). in case that this message indicates of an RRC:MobilityFromEUTRACommand the transmission of an successful Handover preparation message by the eNB to the UE (3GPP TS 36.331) a RRC:MobilityFromEUTRAComman to eHRPD (CDMA2000 HO Status in case that this message is sent for a Inter System d message by the eNB to the UE is set to HO Success). Handover to eHRPD. (3GPP TS 36.331) in case that this This counter is updated following the expiration of This counter is updated following message is sent for a Inter System the guarding timer TC2KRelocOverallHRPD in the expiration of the guarding timer to eHRPD. case that this timer was started because of a Inter Handover TC2KRelocOverallHRPD in case This counter is updated following the reception of an S1AP:UE CONTEXT RELEASE COMMAND message by the eNB from the MME (3GPP TS 36.413) with cause value Radio Network Layer (Successful casea that this message The counter Handover) is updated in when missing UL PDCPis received for a Inter System Handover to eHRPD. sequence number is detected.
The counter is updated when a missing UL PDCP sequence number is detected.
CONTEXT RELEASE COMMAND message by the eNB from the MME (3GPP TS 36.413) with cause The counter is updated when avalue Radio Network Layer (Successful missing UL PDCP sequence Handover) in case that this number is detected. message is received for a Inter System Handover to eHRPD. The counter is updated when a missing UL PDCP sequence number is detected.
The counter is updated when a missing UL PDCP sequence number is detected.
The counter is updated when a missing UL PDCP sequence number is detected.
The counter is updated when a missing UL PDCP sequence number is detected.
The counter is updated when a missing UL PDCP sequence number is detected.
The counter is updated when a missing UL PDCP sequence number is detected.
The counter is updated when a missing UL PDCP sequence number is detected.
The counter is updated when a part of that PDCP SDU has been transmitted over the air but not positively acknowledged, and it was decided that no more transmission attempts will be done. If thecounter transmission of a packet The is updated when amight part of that PDCP continue in another cell, it shall SDU has been transmitted overnot thebe airincluded but not in this count. (HO case) positively acknowledged, and it was decided that
The counter is updated when a part of that PDCP SDU has been transmitted over the air but not positively acknowledged, and it was decided that is noupdated more transmission The counter when a part attempts will be done. of that PDCP SDU has been If the transmission a packet transmitted over theofair but not might positively acknowledged, and it was continue in another cell, it shall not decided that noupdated more transmission The counter is when part be included in this count. (HO acase) attempts will be done. of that PDCP SDU has been If the transmission a packet transmitted over theofair but not might positively acknowledged, and it was continue in another cell, it shall not decided that noupdated more transmission The counter is when part be included in this count. (HO acase) attempts will be done. of that PDCP SDU has been If the transmission a packet transmitted over theofair but not might positively acknowledged, and it was continue in another cell, it shall not decided that noupdated more transmission The counter is when part be included in this count. (HO acase) attempts will be done. of that PDCP SDU has been If the transmission a packet transmitted over theofair but not might positively acknowledged, and it was continue in another cell, it shall not decided that no more transmission This counter isthis updated when be included in count. (HO a case) attempts willofbea done. PDCP SDU QCI 5 bearer is If thetotransmission of a packet sent the UE. might continue in another cell, it shall not This counterinisthis updated be included count.when (HO a case) PDCP SDU of a QCI 6 bearer is sent to the UE.
no more transmission attempts will be done. If thecounter transmission of a packet The is updated when amight part of that PDCP continue in another cell, it shall SDU has been transmitted overnot thebe airincluded but not in this count. (HO case) positively acknowledged, and it was decided that no more transmission attempts will be done. If thecounter transmission of a packet The is updated when amight part of that PDCP continue in another cell, it shall SDU has been transmitted overnot thebe airincluded but not in this count. (HO case) positively acknowledged, and it was decided that no more transmission attempts will be done. If thecounter transmission of a packet The is updated when amight part of that PDCP continue in another cell, it shall SDU has been transmitted overnot thebe airincluded but not in this count. (HO case) positively acknowledged, and it was decided that no more transmission attempts will be done. If thecounter transmission of a packet This is updated when amight PDCP SDU of a continue in another cell, it shall QCI 5 bearer is sent to the UE. not be included in this count. (HO case) This counter is updated when a PDCP SDU of a QCI 6 bearer is sent to the UE.
This counter is updated when a PDCP SDU of a QCI 7 bearer is sent to the UE.
This counter is updated when a PDCP SDU of a QCI 7 bearer is sent to the UE.
This counter is updated when a PDCP SDU of a QCI 8 bearer is sent to the UE.
This counter is updated when a PDCP SDU of a QCI 8 bearer is sent to the UE.
This counter is updated when a PDCP SDU of a QCI 9 bearer is sent to the UE.
This counter is updated when a PDCP SDU of a QCI 9 bearer is sent to the UE.
This counter is updated when a PDCP SDU for a QCI 5 bearer is delivered to higher layers.
This counter is updated when a PDCP SDU for a QCI 5 bearer is delivered to higher layers.
This counter is updated when a PDCP SDU for a QCI 6 bearer is delivered to higher layers.
This counter is updated when a PDCP SDU for a QCI 6 bearer is delivered to higher layers.
This counter is updated when a PDCP SDU for a QCI 7 bearer is delivered to higher layers.
This counter is updated when a PDCP SDU for a QCI 7 bearer is delivered to higher layers.
This counter is updated when a PDCP SDU for a QCI 8 bearer is delivered to higher layers.
This counter is updated when a PDCP SDU for a QCI 8 bearer is delivered to higher layers.
This counter is updated when a PDCP SDU for a QCI 9 bearer is delivered to higher layers.
This counter is updated when a PDCP SDU for a QCI 9 bearer is delivered to higher layers.
The counter is incremented when the eNB received feedback (ACK/NACK) from the UE for an HARQ transmission of QCI 1 data. Round trip times for PDCP SDUs (or parts thereof), which could not be completely sent, be The counter is incremented when themust eNBnot received included in the calculation. feedback (ACK/NACK) from the UE for an HARQ
The counter is incremented when the eNB received feedback (ACK/NACK) from the UE for an HARQ transmission of QCI 1 data. Round trip times for PDCP SDUs The counter is incremented when (or parts thereof), which could not the eNB received feedback be completelyfrom sent,the must transmission of QCI 2 data. (ACK/NACK) UEnot for be an included in the calculation. Round trip times for PDCP SDUs (or parts thereof), HARQ transmission of QCI 2 data. which could not be completely sent, be Round trip times for PDCP SDUs The counter is incremented when themust eNBnot received The counter is incremented when included in the calculation. (or parts thereof), which could not feedback (ACK/NACK) from the UE for an HARQ the eNB received feedback be completelyfrom sent,the must transmission of QCI 3 data. (ACK/NACK) UEnot for be an included in the calculation. Round trip times for PDCP SDUs (or parts thereof), HARQ transmission of QCI 3 data. which could not be completely sent, be The counter is incremented when themust eNBnot received included in the calculation. feedback (ACK/NACK) from the UE for an HARQ
Round trip times for PDCP SDUs The counter is incremented when (or parts thereof), which could not the eNB received feedback be completelyfrom sent,the must transmission of QCI 4 data. (ACK/NACK) UEnot for be an included in the calculation. Round trip times for PDCP SDUs (or parts thereof), HARQ transmission of QCI 4 data. which could not be completely sent, be Round trip times for PDCP SDUs The counter is incremented when themust eNBnot received The counter is incremented when included in the calculation. (or parts thereof), which could not feedback (ACK/NACK) from the UE for an HARQ the eNB received feedback be completelyfrom sent,the must transmission of QCI 5 data. (ACK/NACK) UEnot for be an included in the calculation. Round trip times for PDCP SDUs (or parts thereof), HARQ transmission of QCI 5 data. which could not be completely sent, be The counter is incremented when themust eNBnot received included in the calculation. feedback (ACK/NACK) from the UE for an HARQ
Round trip times for PDCP SDUs The counter is incremented when (or parts thereof), which could not the eNB received feedback be completelyfrom sent,the must transmission of QCI 6 data. (ACK/NACK) UEnot for be an included in the calculation. Round trip times for PDCP SDUs (or parts thereof), HARQ transmission of QCI 6 data. which could not be completely sent, must not be Round trip times for PDCP SDUs included in the calculation. (or parts thereof), which could not be completely sent, must not be included in the calculation.
The counter is incremented when the eNB received feedback (ACK/NACK) from the UE for an HARQ transmission of QCI 7 data. Round trip times for PDCP SDUs (or parts thereof), which could not be completely sent, be The counter is incremented when themust eNBnot received included in the calculation. feedback (ACK/NACK) from the UE for an HARQ
The counter is incremented when the eNB received feedback (ACK/NACK) from the UE for an HARQ transmission of QCI 7 data. Round trip times for PDCP SDUs The counter is incremented when (or parts thereof), which could not the eNB received feedback be completelyfrom sent,the must transmission of QCI 8 data. (ACK/NACK) UEnot for be an included in the calculation. Round trip times for PDCP SDUs (or parts thereof), HARQ transmission of QCI 8 data. which could not be completely sent, be Round trip times for PDCP SDUs The counter is incremented when themust eNBnot received The counter is incremented when included in the calculation. (or parts thereof), which could not feedback (ACK/NACK) from the UE for an HARQ the eNB received feedback be completelyfrom sent,the must transmission of QCI 9 data. (ACK/NACK) UEnot for be an included in the calculation. Round trip times for PDCP SDUs (or parts thereof), HARQ transmission of QCI 9 data. which could not be completely must be The counter is updated when asent, missing ULnot PDCP included in the calculation. sequence number is detected.
Round trip times for PDCP SDUs The counter is updated when a (or parts thereof), which could missing UL PDCP sequence not be completely sent, must not be number is detected. included in the calculation.
The counter is updated when a missing UL PDCP sequence number is detected.
The counter is updated when a missing UL PDCP sequence number is detected.
The counter is updated when a missing UL PDCP sequence number is detected.
The counter is updated when a missing UL PDCP sequence number is detected.
The counter is updated when a missing UL PDCP sequence number is detected.
The counter is updated when a missing UL PDCP sequence number is detected.
The counter is updated when a missing UL PDCP sequence number is detected.
The counter is updated when a missing UL PDCP sequence number is detected.
The counter is updated when a part of that PDCP SDU has been transmitted over the air but not positively acknowledged, and it was decided that no more transmission attempts will be done. If thecounter transmission of a packet The is updated when amight part of that PDCP continue in another cell, it shall SDU has been transmitted overnot thebe airincluded but not in this count. (HO case) positively acknowledged, and it was decided that
The counter is updated when a part of that PDCP SDU has been transmitted over the air but not positively acknowledged, and it was decided that is noupdated more transmission The counter when a part attempts will be done. of that PDCP SDU has been If the transmission a packet transmitted over theofair but not might positively acknowledged, and it was continue in another cell, it shall not decided that noupdated more transmission The counter is when part be included in this count. (HO acase) attempts will be done. of that PDCP SDU has been If the transmission a packet transmitted over theofair but not might positively acknowledged, and it was continue in another cell, it shall not decided that noupdated more transmission Theincluded counter is when part be in this count. (HO acase) attempts will be done. of that PDCP SDU has been If the transmission a packet transmitted over theofair but not might positively acknowledged, and it was continue in another cell, it shall not decided that no more transmission be included in this count. (HO case) attempts will be done.
no more transmission attempts will be done. If thecounter transmission of a packet The is updated when amight part of that PDCP continue in another cell, it shall SDU has been transmitted overnot thebe airincluded but not in this count. (HO case) positively acknowledged, and it was decided that no more transmission attempts will be done. If thecounter transmission of a packet The is updated when amight part of that PDCP continue in another cell, it shall SDU has been transmitted overnot thebe airincluded but not in this count. (HO case) positively acknowledged, and it was decided that no more transmission attempts will be done. If the transmission of a packet might continue in another cell, it shall not be included in this count. (HO case)
If the transmission of a packet might continue in another cell, it shall not be included in this count. (HO case)
The counter is updated when a part of that PDCP SDU has been transmitted over the air but not positively acknowledged, and it was decided that no more transmission attempts will be done. If the transmission of a packet might Intra-eNB HO: continue in another cell,ofit eNB-internal shall not be included Trigger Event: Sending messageinin this count. (HO case) case that this message indicates the start of a RLF-triggered Handover Preparation procedure as a result of HO: a previously received RLF indication. Intra-eNB Trigger Event: Reception of eNB-internal message Inter-eNB HO viamessage X2: in case that this indicates the successful Trigger Event: Sending of the X2AP:HANDOVER outcome of the RLF-triggered Handover REQUEST message to the requesting eNB to start Preparation procedure. Intra-eNB HO: Handover Preparation procedure a RLF-triggered Trigger Event: Reception of eNB-internal message as a result of avia previously received X2AP:RLF Inter-eNB HO X2: in case that this message indicates the successful INDICATION message from the requesting eNB. Trigger of theHandover. X2AP:HANDOVER outcomeEvent: of theReception RLF-triggered REQUEST ACKNOWLEDGE message from the Intra-eNB HO: requesting eNB a result of a RLF-triggered Inter-eNB HO viaasX2: Sending of eNB-internal message in case that this Handover Preparation. Trigger Event: Reception of Indication the X2AP:UE message indicates the RLF after the CONTEXT RELEASE message from the suspension of the RRC Connection requesting eNB inprocedure. case that this message indicates Reestablishment Intra-eNB HO: outcome the successful of the RLF-triggered Trigger Event: Sending of eNB-internal message in Handover. inter-eNB HO message via X2: indicates the successful case that this Trigger Event: Sending of X2AP:RLF INDICATION allocation of the UE context as a result of a message to the serving eNB after the suspension successful RLF-triggered Handover Preparation. Expiration the guard timer for the UE context of the RRCofConnection Reestablishment retrieval during RLF-triggered Handover procedure procedure. inter-eNB HO via X2: (T301). As amultiple result the pending RRC Connection In case that X2AP:RLF INDICATION Trigger Event: Sending of X2AP:HANDOVER Reestablishment procedure fails. because the messages are sent, for example, REQUEST ACKNOWLEDGE message after the original serving eNB cannot beofthe defined uniquely, This counter is set the endat therequesting measurement allocation of the UEatcontext eNB the counter is updated only once. period with of thea value of theRLF-triggered parameter "LNCELas a result successful Handover expectedCellSize". Preparation. The counter is updated on the following events: 1. on random access response it is incremented by 1 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA The counter is updated on the following events: or TA command) for a UE, which was in the 1. on random access response it is incremented by counter's range d 1 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA The counter is updated on the following events: or TA command) for a UE, which was in the 1. on random access response it is incremented by counter's range d 1 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA The counter is updated on the following events: or TA command) for a UE, which was in the 1. on random access response it is incremented by counter's range d 1
The counter is updated when a part of that PDCP SDU has been transmitted over the air but not positively acknowledged, and it was decided no more transmission Intra-eNBthat HO: attempts will done. of eNBTrigger Event:beSending If the transmission a packet internal message inofcase that this might message indicates the start of a continue in another cell, it shall not RLF-triggered Handover Intra-eNB HO: be included in this count. (HO case) Preparation procedure asof a result Trigger Event: Reception eNBof a previously received internal message in caseRLF that this indication. message indicates the successful outcome the RLF-triggered Intra-eNBofHO HO: Inter-eNB via X2: procedure. Handover Preparation Reception eNBTrigger Event: Sending ofof the internal message in REQUEST case that this X2AP:HANDOVER Inter-eNB HO via X2: message indicates the successful to theReception requesting Trigger Event: ofeNB the to outcome of the RLF-triggered start a RLF-triggered Handover Intra-eNB HO: X2AP:HANDOVER REQUEST Handover. Preparation procedure asmessage a result Sending of eNB-internal ACKNOWLEDGE message from of a previously received X2AP:RLF in case that thiseNB message indicates the requesting as a result of a Inter-eNB HOmessage via X2: INDICATION the RLF Indication afterfrom the the RLF-triggered Handover Trigger Event: Reception of the requesting eNB. suspension of the RRC Connection Preparation. Intra-eNB CONTEXT HO: X2AP:UE RELEASE Reestablishment procedure. Trigger Event: of eNBmessage from Sending the requesting eNB internal message in case that this in case that this message indicates inter-eNB HO via X2: message indicates the successful the successful outcome of the Trigger Event: Sending of asRLFallocation of the UE context triggered Handover. Expiration of the guard timer forathe X2AP:RLF INDICATION message result of a successful RLF-triggered UE context retrieval during to the serving eNB after theRLFHandover Preparation. triggered Handover procedure suspension of the RRC Connection (T301). As a resultprocedure. the pending Reestablishment inter-eNB HO via Reestablishment X2: RRC Connection In case that multiple This counter isSending set atX2AP:RLF theofend of the Trigger Event: procedure fails. INDICATION messages measurement periodREQUEST withare thesent, value X2AP:HANDOVER for example, because the original of the parameter "LNCELACKNOWLEDGE message after serving eNB cannot be defined expectedCellSize". the allocation of the UE context at uniquely, the counter the requesting eNB asisaupdated result The counter is updated on the of a only once. RLF-triggered Handover successful following events: Preparation. 1. on random access response it is incremented by 1 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. on TA command by the time
2. on TA command by the time difference (in seconds) to the last counter update (either initial TA or TA command) for a UE, which was in the difference (in seconds) to the last counter's range d counter update (either initial TA or TA command) for a UE, which was in the counter's range d
The counter is updated on the following events: 1. on random access response it is incremented by 1 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA The counter is updated on the following events: or TA command) for a UE, which was in the 1. on random access response it is incremented by counter's range d 1 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA The counter is updated on the following events: or TA command) for a UE, which was in the 1. on random access response it is incremented by counter's range d 1 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA The counter is updated on the following events: or TA command) for a UE, which was in the 1. on random access response it is incremented by counter's range d 1 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA The counter is updated on the following events: or TA command) for a UE, which was in the 1. on random access response it is incremented by counter's range d 1 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA The counter is updated on the following events: or TA command) for a UE, which was in the 1. on random access response it is incremented by counter's range d 1 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA The counter is updated on the following events: or TA command) for a UE, which was in the 1. on random access response it is incremented by counter's range d 1 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA The counter is updated on the following events: or TA command) for a UE, which was in the 1. on random access response it is incremented by counter's range d 1 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA The counter is updated on the following events: or TA command) for a UE, which was in the 1. on random access response it is incremented by counter's range d 1 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA The counter is updated on the following events: or TA command) for a UE, which was in the 1. on random access response it is incremented by counter's range d 1 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA The counter is updated on the following events: or TA command) for a UE, which was in the 1. on random access response it is incremented by counter's range d 1 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA The counter is updated on the following events: or TA command) for a UE, which was in the 1. on random access response it is incremented by counter's range d 1
The counter is updated on the following events: 1. on random access response it is incremented by 1 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. on TA command by the time
2. on TA command by the time difference (in seconds) to the last counter update (either initial TA or TA command) for a UE, which was in the difference (in seconds) to the last counter's range d counter update (either initial TA or TA command) for a UE, which was in the counter's range d
The counter is updated on the following events: 1. on random access response it is incremented by 1 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA The counter is updated on the following events: or TA command) for a UE, which was in the 1. on random access response it is incremented by counter's range d 1 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA The counter is updated on the following events: or TA command) for a UE, which was in the 1. on random access response it is incremented by counter's range d 1 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA The counter is updated on the following events: or TA command) for a UE, which was in the 1. on random access response it is incremented by counter's range d 1 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA The counter is updated on the following events: or TA command) for a UE, which was in the 1. on random access response it is incremented by counter's range d 1 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA The counter is updated on the following events: or TA command) for a UE, which was in the 1. on random access response it is incremented by counter's range d. 1 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA The counter is updated on the following events: or TA command) for a UE, which was in the 1. on random access response it is incremented by counter's range d 1 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA The counter is updated on the following events: or TA command) for a UE, which was in the 1. on random access response it is incremented by counter's range d 1 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA The counter is updated on the following events: or TA command) for a UE, which was in the 1. on random access response it is incremented by counter's range d 1 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA The counter is updated on the following events: or TA command) for a UE, which was in the 1. on random access response it is incremented by counter's range d 1 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA The counter is updated on the following events: or TA command) for a UE, which was in the 1. on random access response it is incremented by counter's range d 1 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA The counter is updated on the following events: or TA command) for a UE, which was in the 1. on random access response it is incremented by counter's range d 1
The counter is updated on the following events: 1. on random access response it is incremented by 1 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d. 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. on TA command by the time
2. on TA command by the time difference (in seconds) to the last counter update (either initial TA or TA command) for a UE, which was in the difference (in seconds) to the last counter's range d counter update (either initial TA or TA command) for a UE, which was in the counter's range d
The counter is updated on the following events: 1. on random access response it is incremented by 1 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA The counter is updated on the following events: or TA command) for a UE, which was in the 1. on random access response it is incremented by counter's range d 1
The counter is updated on the following events: 1. on random access response it is incremented by 1 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was 2. on TA command by the time difference (in incremented by 1 in the counter's range d seconds) to the last counter (either initialthe TA 2. oncounter TA command by the timethe The counter is updated whenupdate the eNB receives The is updated when or TA command) for a UE, which was in the difference (in seconds) to the last msg3 in case of a contention-based RACH eNB receives the msg3 in case of a counter's range d counter update (either initial TA or procedure for UL data arrival. contention-based RACH procedure TA for a UE, which was for command) UL data arrival. in the counter's range d The counter is updated when the eNB receives the The counter is updated when the msg3 in case of any kind of contention-based eNB receives the msg3 in case of RACH procedure. any kind of contention-based RACH procedure. This counter is updated for each TTI when the CRAN is activated and PUSCH reception is done with 2Rx antennas.
This counter is updated for each TTI when the CRAN is activated and PUSCH reception is done with 2Rx antennas.
This counter is updated for each TTI when the CRAN is activated and PUSCH reception is done with 4Rx antennas.
This counter is updated for each TTI when the CRAN is activated and PUSCH reception is done with 4Rx antennas.
This counter is updated for each TTI when the CRAN is activated and PUSCH reception is done with 8Rx antennas.
This counter is updated for each TTI when the CRAN is activated and PUSCH reception is done with 8Rx antennas.
eNB-internal average calculation of the number of activated MBMS sessions in the cell (Multimedia Broadcast/Multicast Service, 3GPP TS 36.300, TS 23.246, TS 36.331); the average is calculated as the average when over the measurement Thisarithmetical counter is updated MBMS user data is period. transmitted.
eNB-internal average calculation of the number of activated MBMS sessions in the cell (Multimedia Broadcast/Multicast Service, 3GPP TS 36.331); This36.300, counterTS is 23.246, updatedTS when the average is calculated as the MBMS user data is transmitted. arithmetical average over the Only MBMS user data are taken measurement period. data are not into account; signalling
Only MBMS user data are taken into account; signalling data are not taken into account (Multimedia Service, TS This counterBroadcast/Multicast is updated when MBMS user3GPP data is 36.300, TS 23.246, TS 36.331). RLC/MAC protocol received. data (protocol header/trailer) are not included in the measurement. The counter is updated when MBMS user data is lost.
taken into account (Multimedia This counter is updated when Broadcast/Multicast Service, 3GPP MBMS user data is received. TS 36.300, TS 23.246, TS 36.331). RLC/MAC protocol data (protocol header/trailer) are not included in The counter is updated when the measurement. MBMS user data is lost.
The counter is updated when MBMS user data is dropped.
The counter is updated when MBMS user data is dropped.
The counter is updated when MBMS user data is dropped.
The counter is updated when MBMS user data is dropped.
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 1 downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than or equal to -10 dB and less than or calculate Subband 1 downlink SINR postequal to -8 dB.and PRBthe range ofincremented subband 1 according compensation bin is every to frequency: sample period (5 seconds) with the respective This measurement is updated for each UE every 3 MHz and 5 MHz refers to PRB#0 to PRB#3 number of calculated values wheresubband each oneCQI is to TTI by using the UE's most recent 10 MHz refers to PRB#0 to PRB#5 greater than -8 dB and less than or equal to -6 dB. calculate Subband 1 downlink SINR post15 MHz and 20subband MHz refers to PRB#0 to PRB#7 PRB range of 1 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#0 to PRB#3 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#0 to PRB#5 number of calculated values wheresubband each oneCQI is to TTI by using the UE's most recent 15 MHzthan and 20 MHz refers to PRB#0 to PRB#7 greater -6 dB and less than or equal to -4 dB. calculate Subband 1 downlink SINR postPRB range of subband 1 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#0 to PRB#3 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#0 to PRB#5 number of calculated values wheresubband each oneCQI is to TTI by using theMHz UE'srefers most to recent 15 MHz and 20 PRB#0 to PRB#7 greater than -4 dB and less than or equal to -2 dB. calculate Subband 1 downlink SINR postPRB range of subband 1 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#0 to PRB#3 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#0 to PRB#5 number of calculated values wheresubband each oneCQI is to TTI by using the UE's most recent 15 MHzthan and 20 MHz refers to PRB#0 to PRB#7 greater -2 dB and less than or equal to 0 dB. calculate Subband 1 downlink SINR postPRB range of subband 1 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#0 to PRB#3 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#0 to PRB#5 number of calculated values wheresubband each oneCQI is to TTI by using theMHz UE'srefers most to recent 15 MHz and 20 PRB#0 to PRB#7 greater than 0 dB and less than or equal to 2 dB. calculate Subband 1 downlink SINR postPRB range of subband 1 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to PRB#0 to PRB#3 sample period (5 seconds) with the respective This measurement is updated for each UE every 10 MHz refers to PRB#0 to PRB#5 number of calculated values wheresubband each oneCQI is to TTI by using the UE's most recent 15 MHzthan and 20 MHz refers to PRB#0 to PRB#7 greater 2 dB and less than or equal to 4 dB. calculate Subband 1 downlink SINR postPRB range of subband 1 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to PRB#0 to PRB#3 sample period (5 seconds) with the respective This measurement is updated for each UE every 10 MHz refers to PRB#0 to PRB#5 number of calculated values wheresubband each oneCQI is to TTI by using theMHz UE'srefers most to recent 15 MHz and 20 PRB#0 to PRB#7 greater than 4 dB and less than or equal to 6 dB. calculate Subband 1 downlink SINR postPRB range of subband 1 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to PRB#0 to PRB#3 sample period (5 seconds) with the respective This measurement is updated for each UE every 10 MHz refers to PRB#0 to PRB#5 number of calculated values wheresubband each oneCQI is to TTI by using theMHz UE'srefers most to recent 15 MHz and 20 PRB#0 to PRB#7 greater than 6 dB and less than or equal to 8 dB. calculate Subband 1 downlink SINR postPRB range of subband 1 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to PRB#0 to PRB#3 sample period (5 seconds) with the respective This measurement is updated for each UE every 10 MHz refers to PRB#0 to PRB#5 number of calculated values wheresubband each oneCQI is to TTI by using theMHz UE'srefers most to recent 15 MHz and 20 PRB#0 to PRB#7 greater than 8 dB and less than or equal to 10 dB. calculate Subband 1 downlink SINR postPRB range of subband 1 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#0 PRB#3 sample period (5 seconds) the to respective 10 MHz refers to PRB#0 to PRB#5 number of calculated values where each one is 15 MHzthan and 20 refers PRB#0 to PRB#7 greater 10 MHz dB and lesstothan or equal to 12 dB. PRB range of subband 1 according to frequency: 3 MHz and 5 MHz refers to PRB#0 to PRB#3 10 MHz refers to PRB#0 to PRB#5 15 MHz and 20 MHz refers to PRB#0 to PRB#7
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 1 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 1 downlink SINR each one is greater and thanthe or equal post-compensation bin is to This measurement is or updated for -10 dB and less than equal to -8 incremented every sample each UE range every TTI by usingperiod the (5 dB. PRB of subband 1 seconds) the subband respective UE's mostwith recent CQI to according to frequency: number of calculated values where calculate Subband 1 downlink SINR 3 MHz and 5 MHz refers to each one is greater and thanthe -8 PRB#0 dB and post-compensation bin is to PRB#3 This measurement is-6 updated for less than or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#0 to PRB#5 each UE every TTI1by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#0 to PRB#7 calculate Subband 1 downlink SINR 3 MHzone and 5greater MHz refers to PRB#0 each is than -6 dB and post-compensation and the bin is to PRB#3 This than measurement is-4 updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#0 to PRB#5 each UE every TTI1by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1 downlink SINR 3 MHzone andis5greater MHz refers to PRB#0 each thanthe -4 dB and post-compensation and bin is to PRB#3 This measurement is-2 updated for less than or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#0 to PRB#5 each UE every TTI1by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#0 to PRB#7 calculate Subband 1 downlink SINR 3 MHzone and 5greater MHz refers to PRB#0 each is than -2 dB and post-compensation and the bin is to PRB#3 This than measurement is0updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#0 to PRB#5 each UE every TTI1by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1 downlink SINR 3 MHzone andis5greater MHz refers todB PRB#0 each thanthe 0 and post-compensation and bin is to PRB#3 This measurement is2updated for less than or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#0 to PRB#5 each UE every TTI1by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#0 to PRB#7 calculate Subband 1 downlink SINR 3 MHzone and 5greater MHz refers todB PRB#0 each is than 2 and post-compensation and the bin is to PRB#3 This than measurement is4updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#0 to PRB#5 each UE every TTI1by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1 downlink SINR 3 MHzone andis5greater MHz refers todB PRB#0 each thanthe 4 and post-compensation and bin is to PRB#3 This measurement is6updated for less than or equal to dB. PRB incremented every sample period 10 MHz PRB#0 to PRB#5 each UE everyto TTI using theto (5 range of refers subband 1by according seconds) with the respective 15 MHz and 20 MHz refers to UE's most recent subband CQI to frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1 downlink SINR 3 MHz and 5greater MHz refers todB PRB#0 each one is than 6 and post-compensation and the bin is to PRB#3 This than measurement is8updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#0 to PRB#5 each UE every TTI1by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#0 to PRB#7 calculate Subband 1 downlink SINR 3 MHzone and 5greater MHz refers todB PRB#0 each is than 8 post-compensation and the binand is to PRB#3 less than or equal to 10 dB.period PRB (5 incremented every sample 10 MHz to PRB#0 to PRB#5 range of refers subband 1 according to seconds) with20the respective 15 MHz and MHz refers to frequency: number of PRB#7 calculated values where PRB#0 to 3 MHzone and MHz refers to PRB#0 each is5greater than 10 dB and to PRB#3 less than or equal to 12 dB. PRB 10 MHz to PRB#0 to PRB#5 range of refers subband 1 according to 15 MHz and 20 MHz refers to frequency: PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 to PRB#3
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 1 downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 12 dB and less than or equal to 14 db. calculate Subband 1 downlink SINR postPRB range of subband 1 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#0 to PRB#3 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#0 to PRB#5 number of calculated values wheresubband each oneCQI is to TTI by using the UE's most recent 15 MHzthan and 20 MHz refers tothan PRB#0 to PRB#7 greater 14 dB and less or equal to 16 dB. calculate Subband 1 downlink SINR postPRB range of subband 1 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#0 to PRB#3 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#0 to PRB#5 number of calculated values wheresubband each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent 15 and 20 PRB#0 to PRB#7 greater than 16 dB and less than or equal to 18 dB. calculate Subband 1 downlink SINR postPRB range of subband 1 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#0 to PRB#3 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#0 to PRB#5 number of calculated values wheresubband each oneCQI is to TTI by using the UE's most recent 15 MHzthan and 20 MHz refers tothan PRB#0 to PRB#7 greater 18 dB and less or equal to 20 dB. calculate Subband 1 downlink SINR postPRB range of subband 1 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#0 to PRB#3 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#0 to PRB#5 number of calculated values wheresubband each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent 15 and 20 PRB#0 to PRB#7 greater than 20 dB and less than or equal to 22 dB. calculate Subband 1 downlink SINR postPRB range of subband 1 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#0 to PRB#3 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#0 to PRB#5 number of calculated values wheresubband each oneCQI is to TTI by using the UE's most recent 15 MHzthan and 20 MHz refers tothan PRB#0 to PRB#7 greater 22 dB and less or equal to 24 dB. calculate Subband 1 downlink SINR postPRB range of subband 1 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#0 to PRB#3 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#0 to PRB#5 number of calculated values wheresubband each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent 15 and 20 PRB#0 to PRB#7 greater than 24 dB and less than or equal to 26 dB. calculate Subband 1 downlink SINR postPRB range of subband 1 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#0 to PRB#3 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#0 to PRB#5 number of calculated values wheresubband each oneCQI is to TTI by using the UE's most recent 15 MHzthan and 20 MHz refers tothan PRB#0 to PRB#7 greater 26 dB and less or equal to 28 dB. calculate Subband 1 downlink SINR postPRB range of subband 1 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#0 to PRB#3 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#0 to PRB#5 number of calculated values wheresubband each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent 15 and 20 PRB#0 to PRB#7 greater than 28 dB and less than or equal to 30 dB. calculate Subband 2 downlink SINR postPRB range of subband 1 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#0 to PRB#3 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#0 to PRB#5 number of calculated values wheresubband each oneCQI is to TTI by using theMHz UE'srefers most to recent 15 MHz and 20 PRB#0 to PRB#7 greater than or equal to -10 dB and less than or calculate Subband 2 downlink SINR postequal to -8 dB.and PRBthe range ofincremented subband 2 according compensation bin is every to frequency: sample period (5 seconds) with the respective This measurement is updated for each UE every 3 MHz and 5 MHz refers to PRB#4 to PRB#7 number of calculated values wheresubband each oneCQI is to TTIMHz by using the UE's most recent 10 refers to PRB#6 to PRB#11 greater than -8 dB and less than or equal to -6 dB. calculate Subband 2 downlink SINR post15 MHz and 20subband MHz refers to PRB#8 to PRB#15 PRB range of 2 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#4 PRB#7 sample period (5 seconds) the to respective 10 MHz refers to PRB#6 to PRB#11 number of calculated values where each one is 15 MHzthan and 20 MHz refers PRB#8 to PRB#15 greater -6 dB and less to than or equal to -4 dB. PRB range of subband 2 according to frequency: 3 MHz and 5 MHz refers to PRB#4 to PRB#7 10 MHz refers to PRB#6 to PRB#11 15 MHz and 20 MHz refers to PRB#8 to PRB#15
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 1 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 1 downlink SINR each one is greater and thanthe 12 bin dB and post-compensation is This measurement is14 updated for less than or equal to db.period PRB incremented every sample each UE every TTI1by using theto (5 range of subband according seconds) with the respective UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 1 downlink SINR 3 MHz and 5greater MHz refers to PRB#0 each one is than 14 dB and post-compensation and the bin is to PRB#3 This than measurement is16 updated for less or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#0 to PRB#5 each UE every TTI1by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers CQI to to UE's most recent subband frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1 downlink SINR 3 MHzone andis5greater MHz refers to PRB#0 each thanthe 16 dB and post-compensation and bin is to PRB#3 This measurement is18 updated for less than or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#0 to PRB#5 each UE every TTI1by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#0 to PRB#7 calculate Subband 1 downlink SINR 3 MHzone and 5greater MHz refers to PRB#0 each is than 18 dB and post-compensation and the bin is to PRB#3 This than measurement is20 updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#0 to PRB#5 each UE every TTI1by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1 downlink SINR 3 MHzone andis5greater MHz refers to PRB#0 each thanthe 20 dB and post-compensation and bin is to PRB#3 This measurement is22 updated for less than or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#0 to PRB#5 each UE every TTI1by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#0 to PRB#7 calculate Subband 1 downlink SINR 3 MHzone and 5greater MHz refers to PRB#0 each is than 22 dB and post-compensation and the bin is to PRB#3 This than measurement is24 updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#0 to PRB#5 each UE every TTI1by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1 downlink SINR 3 MHzone andis5greater MHz refers to PRB#0 each thanthe 24 dB and post-compensation and bin is to PRB#3 This measurement is26 updated for less than or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#0 to PRB#5 each UE every TTI1by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#0 to PRB#7 calculate Subband 1 downlink SINR 3 MHzone and 5greater MHz refers to PRB#0 each is than 26 dB and post-compensation and the bin is to PRB#3 This than measurement is28 updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#0 to PRB#5 each UE every TTI1by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 2 downlink SINR 3 MHzone andis5greater MHz refers to PRB#0 each thanthe 28 dB and post-compensation and bin is to PRB#3 This measurement is30 updated for less than or equal to dB.period PRB incremented every sample 10 MHz PRB#0 to PRB#5 each UE everyto TTI using theto (5 range of refers subband 1by according seconds) with the respective 15 MHz and 20 MHz refers to UE's most recent subband CQI to frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 2 downlink SINR 3 MHz and 5greater MHz refers to PRB#0 each one is than or equal post-compensation and the bin is to to PRB#3 ThisdB measurement is or updated for -10 and less than equal to -8 incremented every sample 10 MHz to PRB#0 to period PRB#5 each UErefers every TTI by using the (5 dB. PRB range of subband 2 seconds) with the respective 15 MHz and 20 MHz refers CQI to to UE's most recent subband according to frequency: number of calculated values where PRB#0 to PRB#7 calculate Subband 2 downlink SINR 3 MHzone and 5greater MHz refers to PRB#4 each is than -8 dB post-compensation and the bin and is to PRB#7 less than or equal to -6 dB. period PRB (5 incremented every sample 10 MHz to PRB#6 to PRB#11 range of refers subband 2 according to seconds) with20the respective 15 MHz and MHz refers to frequency: number of PRB#15 calculated values where PRB#8 to 3 MHzone and MHz refers to PRB#4 each is5greater than -6 dB and to PRB#7 less than or equal to -4 dB. PRB 10 MHz to PRB#6 to PRB#11 range of refers subband 2 according to 15 MHz and 20 MHz refers to frequency: PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 to PRB#7
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 2 downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than -4 dB and less than or equal to -2 dB. calculate Subband 2 downlink SINR postPRB range of subband 2 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#4 to PRB#7 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#6 to PRB#11 number of calculated values wheresubband each oneCQI is to TTI by using the UE's most recent 15 MHzthan and 20 MHz refers to PRB#8 to PRB#15 greater -2 dB and less than or equal to 0 dB. calculate Subband 2 downlink SINR postPRB range of subband 2 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#4 to PRB#7 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#6 to PRB#11 number of calculated values wheresubband each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent 15 and 20 PRB#8 to PRB#15 greater than 0 dB and less than or equal to 2 dB. calculate Subband 2 downlink SINR postPRB range of subband 2 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to PRB#4 to PRB#7 sample period (5 seconds) with the respective This measurement is updated for each UE every 10 MHz refers to PRB#6 to PRB#11 number of calculated values wheresubband each oneCQI is to TTI by using the UE's most recent 15 MHzthan and 20 MHz refers to PRB#8 to PRB#15 greater 2 dB and less than or equal to 4 dB. calculate Subband 2 downlink SINR postPRB range of subband 2 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to PRB#4 to PRB#7 sample period (5 seconds) with the respective This measurement is updated for each UE every 10 MHz refers to PRB#6 to PRB#11 number of calculated values wheresubband each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent 15 and 20 PRB#8 to PRB#15 greater than 4 dB and less than or equal to 6 dB. calculate Subband 2 downlink SINR postPRB range of subband 2 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to PRB#4 to PRB#7 sample period (5 seconds) with the respective This measurement is updated for each UE every 10 MHz refers to PRB#6 to PRB#11 number of calculated values wheresubband each oneCQI is to TTI by using the UE's most recent 15 MHzthan and 20 MHz refers to PRB#8 to PRB#15 greater 6 dB and less than or equal to 8 dB. calculate Subband 2 downlink SINR postPRB range of subband 2 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to PRB#4 to PRB#7 sample period (5 seconds) with the respective This measurement is updated for each UE every 10 MHz refers to PRB#6 to PRB#11 number of calculated values wheresubband each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent 15 and 20 PRB#8 to PRB#15 greater than 8 dB and less than or equal to 10 dB. calculate Subband 2 downlink SINR postPRB range of subband 2 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#4 to PRB#7 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#6 to PRB#11 number of calculated values wheresubband each oneCQI is to TTI by using the UE's most recent 15 MHzthan and 20 MHz refers tothan PRB#8 to PRB#15 greater 10 dB and less or equal to 12 dB. calculate Subband 2 downlink SINR postPRB range of subband 2 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#4 to PRB#7 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#6 to PRB#11 number of calculated values wheresubband each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent 15 and 20 PRB#8 to PRB#15 greater than 12 dB and less than or equal to 14 db. calculate Subband 2 downlink SINR postPRB range of subband 2 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#4 to PRB#7 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#6 to PRB#11 number of calculated values wheresubband each oneCQI is to TTI by using theMHz UE'srefers most to recent 15 MHz and 20 PRB#8 to PRB#15 greater than 14 dB and less than or equal to 16 dB. calculate Subband 2 downlink SINR postPRB range of subband 2 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#4 to PRB#7 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#6 to PRB#11 number of calculated values wheresubband each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent 15 and 20 PRB#8 to PRB#15 greater than 16 dB and less than or equal to 18 dB. calculate Subband 2 downlink SINR postPRB range of subband 2 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#4 PRB#7 sample period (5 seconds) the to respective 10 MHz refers to PRB#6 to PRB#11 number of calculated values where each one is 15 MHzthan and 20 refers PRB#8 to PRB#15 greater 18 MHz dB and lesstothan or equal to 20 dB. PRB range of subband 2 according to frequency: 3 MHz and 5 MHz refers to PRB#4 to PRB#7 10 MHz refers to PRB#6 to PRB#11 15 MHz and 20 MHz refers to PRB#8 to PRB#15
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 2 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 2 downlink SINR each one is greater and thanthe -4 dB and post-compensation bin is This measurement is-2 updated for less than or equal to dB. PRB incremented every sample period each UE every TTI2by using theto (5 range of subband according seconds) with the respective UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 2 downlink SINR 3 MHz and 5greater MHz refers to PRB#4 each one is than -2 dB and post-compensation and the bin is to PRB#7 This than measurement is0updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#6 to PRB#11 each UE every TTI2by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers CQI to to UE's most recent subband frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2 downlink SINR 3 MHzone andis5greater MHz refers todB PRB#4 each thanthe 0 and post-compensation and bin is to PRB#7 This measurement is2updated for less than or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#6 to PRB#11 each UE every TTI2by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#8 to PRB#15 calculate Subband 2 downlink SINR 3 MHzone and 5greater MHz refers todB PRB#4 each is than 2 and post-compensation and the bin is to PRB#7 This than measurement is4updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#6 to PRB#11 each UE every TTI2by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2 downlink SINR 3 MHzone andis5greater MHz refers todB PRB#4 each thanthe 4 and post-compensation and bin is to PRB#7 This measurement is6updated for less than or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#6 to PRB#11 each UE every TTI2by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#8 to PRB#15 calculate Subband 2 downlink SINR 3 MHzone and 5greater MHz refers todB PRB#4 each is than 6 and post-compensation and the bin is to PRB#7 This than measurement is8updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#6 to PRB#11 each UE every TTI2by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2 downlink SINR 3 MHzone andis5greater MHz refers todB PRB#4 each thanthe 8 and post-compensation and bin is to PRB#7 This measurement is10 updated for less than or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#6 to PRB#11 each UE every TTI2by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#8 to PRB#15 calculate Subband 2 downlink SINR 3 MHzone and 5greater MHz refers to PRB#4 each is than 10 dB and post-compensation and the bin is to PRB#7 This than measurement is12 updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#6 to PRB#11 each UE every TTI2by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2 downlink SINR 3 MHzone andis5greater MHz refers to PRB#4 each thanthe 12 dB and post-compensation and bin is to PRB#7 This measurement is14 updated for less than or equal to db.period PRB incremented every sample 10 MHz PRB#6 to PRB#11 each UE everyto TTI using theto (5 range of refers subband 2by according seconds) with the respective 15 MHz and 20 MHz refers to UE's most recent subband CQI to frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2 downlink SINR 3 MHz and 5greater MHz refers to PRB#4 each one is than 14 dB and post-compensation and the bin is to PRB#7 This than measurement is16 updated for less or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#6 to PRB#11 each UE every TTI2by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#8 to PRB#15 calculate Subband 2 downlink SINR 3 MHzone and 5greater MHz refers to PRB#4 each is than 16 dB post-compensation and the bin and is to PRB#7 less than or equal to 18 dB.period PRB (5 incremented every sample 10 MHz to PRB#6 to PRB#11 range of refers subband 2 according to seconds) with20the respective 15 MHz and MHz refers to frequency: number of PRB#15 calculated values where PRB#8 to 3 MHzone and MHz refers to PRB#4 each is5greater than 18 dB and to PRB#7 less than or equal to 20 dB. PRB 10 MHz to PRB#6 to PRB#11 range of refers subband 2 according to 15 MHz and 20 MHz refers to frequency: PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 to PRB#7
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 2 downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 20 dB and less than or equal to 22 dB. calculate Subband 2 downlink SINR postPRB range of subband 2 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#4 to PRB#7 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#6 to PRB#11 number of calculated values wheresubband each oneCQI is to TTI by using the UE's most recent 15 MHzthan and 20 MHz refers tothan PRB#8 to PRB#15 greater 22 dB and less or equal to 24 dB. calculate Subband 2 downlink SINR postPRB range of subband 2 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#4 to PRB#7 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#6 to PRB#11 number of calculated values wheresubband each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent 15 and 20 PRB#8 to PRB#15 greater than 24 dB and less than or equal to 26 dB. calculate Subband 2 downlink SINR postPRB range of subband 2 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#4 to PRB#7 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#6 to PRB#11 number of calculated values wheresubband each oneCQI is to TTI by using the UE's most recent 15 MHzthan and 20 MHz refers tothan PRB#8 to PRB#15 greater 26 dB and less or equal to 28 dB. calculate Subband 2 downlink SINR postPRB range of subband 2 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#4 to PRB#7 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#6 to PRB#11 number of calculated values wheresubband each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent 15 and 20 PRB#8 to PRB#15 greater than 28 dB and less than or equal to 30 dB. calculate Subband 3 downlink SINR postPRB range of subband 2 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#4 to PRB#7 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#6 to PRB#11 number of calculated values wheresubband each oneCQI is to TTI by using the UE's most recent 15 MHzthan and 20 MHz refers to PRB#8 to PRB#15 greater or equal to -10 dB and less than or calculate Subband 3 downlink SINR postequal to -8 dB.and PRBthe range ofincremented subband 3 according compensation bin is every to frequency: sample period (5 seconds) with the respective This measurement is updated for each UE every 3 MHz and 5 MHz refers to PRB#8 to PRB#11 number of calculated values wheresubband each oneCQI is to TTIMHz by using the UE's mosttorecent 10 refers to PRB#12 PRB#17 greater than -8 dB and less than or equal to -6 dB. calculate Subband 3 downlink SINR post15 MHz and 20subband MHz refers to PRB#16 to PRB#23 PRB range of 3 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#8 to PRB#11 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#12 to PRB#17 number of calculated values wheresubband each oneCQI is to TTI by using the UE's most recent 15 MHzthan and 20 MHz refers to PRB#16 to PRB#23 greater -6 dB and less than or equal to -4 dB. calculate Subband 3 downlink SINR postPRB range of subband 3 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#8 to PRB#11 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#12 to PRB#17 number of calculated values wheresubband each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent 15 and 20 PRB#16 to PRB#23 greater than -4 dB and less than or equal to -2 dB. calculate Subband 3 downlink SINR postPRB range of subband 3 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#8 to PRB#11 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#12 to PRB#17 number of calculated values wheresubband each oneCQI is to TTI by using theMHz UE'srefers most to recent 15 MHz and 20 PRB#16 to PRB#23 greater than -2 dB and less than or equal to 0 dB. calculate Subband 3 downlink SINR postPRB range of subband 3 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#8 to PRB#11 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#12 to PRB#17 number of calculated values wheresubband each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent 15 and 20 PRB#16 to PRB#23 greater than 0 dB and less than or equal to 2 dB. calculate Subband 3 downlink SINR postPRB range of subband 3 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to PRB#8 to PRB#11 sample period (5 seconds) with the respective 10 MHz of refers to PRB#12 to where PRB#17 number calculated values each one is 15 MHz and 20 MHz refers to PRB#16 toto PRB#23 greater than 2 dB and less than or equal 4 dB. PRB range of subband 3 according to frequency: 3 MHz and 5 MHz refers to PRB#8 to PRB#11 10 MHz refers to PRB#12 to PRB#17 15 MHz and 20 MHz refers to PRB#16 to PRB#23
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 2 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 2 downlink SINR each one is greater and thanthe 20 bin dB and post-compensation is This measurement is22 updated for less than or equal to dB.period PRB incremented every sample each UE every TTI2by using theto (5 range of subband according seconds) with the respective UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 2 downlink SINR 3 MHz and 5greater MHz refers to PRB#4 each one is than 22 dB and post-compensation and the bin is to PRB#7 This than measurement is24 updated for less or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#6 to PRB#11 each UE every TTI2by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers CQI to to UE's most recent subband frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2 downlink SINR 3 MHzone andis5greater MHz refers to PRB#4 each thanthe 24 dB and post-compensation and bin is to PRB#7 This measurement is26 updated for less than or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#6 to PRB#11 each UE every TTI2by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#8 to PRB#15 calculate Subband 2 downlink SINR 3 MHzone and 5greater MHz refers to PRB#4 each is than 26 dB and post-compensation and the bin is to PRB#7 This than measurement is28 updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#6 to PRB#11 each UE every TTI2by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 3 downlink SINR 3 MHzone andis5greater MHz refers to PRB#4 each thanthe 28 dB and post-compensation and bin is to PRB#7 This measurement is30 updated for less than or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#6 to PRB#11 each UE every TTI2by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#8 to PRB#15 calculate Subband 3 downlink SINR 3 MHzone and 5greater MHz refers to PRB#4 each is than or equal post-compensation and the bin is to to PRB#7 ThisdB measurement is or updated for -10 and less than equal to -8 incremented every sample 10 MHz to PRB#6 to period PRB#11 each UErefers every TTI by using the (5 dB. PRB range of subband 3 seconds) with the respective 15 MHz and 20 MHz refers CQI to to UE's most recent subband according to frequency: number of calculated values where PRB#8 to PRB#15 calculate Subband 3 downlink SINR 3 MHzone andis5greater MHz refers to PRB#8 each thanthe -8 dB and post-compensation and bin is to PRB#11 This measurement is-6 updated for less than or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#12 to each UE every TTI3by using theto (5 range of subband according seconds) with the respective PRB#17 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3 downlink SINR 3 MHz 5greater MHz refers to PRB#8 each one is than -6 dB and PRB#16 to PRB#23 post-compensation and the bin is to PRB#11 This than measurement is-4 updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#12 to each UE every TTI3by using theto (5 range of subband according seconds) with the respective PRB#17 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3 downlink SINR 3 MHz 5greater MHz refers to PRB#8 each one is than -4 dB and PRB#16 to PRB#23 post-compensation and the bin is to PRB#11 This measurement is-2 updated for less than or equal to dB. PRB incremented every sample period 10 MHz PRB#12 to theto (5 each UE everyto TTI using range of refers subband 3by according seconds) with the respective PRB#17 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3 downlink SINR 3 MHz 5greater MHz refers to PRB#8 each one is than -2 dB and PRB#16 to PRB#23 post-compensation and the bin is to PRB#11 This than measurement is0updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#12 to each UE every TTI3by using theto (5 range of subband according seconds) with the respective PRB#17 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3 downlink SINR 3 MHz 5greater MHz refers todB PRB#8 each one is than 0 PRB#16 to PRB#23and the post-compensation binand is to PRB#11 less than or equal to 2 dB. PRB incremented every sample period 10 MHz to PRB#12 to to (5 range of refers subband 3 according seconds) with the respective PRB#17 frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers 3 MHz MHz refers todB PRB#8 each onetois5 greater than 2 and PRB#16 PRB#23 to PRB#11 less than or equal to 4 dB. PRB 10 MHz to PRB#12 to to range of refers subband 3 according PRB#17 frequency: 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 PRB#16 to PRB#23 to PRB#11
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 3 downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 4 dB and less than or equal to 6 dB. calculate Subband 3 downlink SINR postPRB range of subband 3 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to PRB#8 to PRB#11 sample period (5 seconds) with the respective This measurement is updated for each UE every 10 MHz refers to PRB#12 to where PRB#17 number of calculated values each oneCQI is to TTI by using the UE's most recent subband 15 MHzthan and 20 MHz refers to PRB#16 toto PRB#23 greater 6 dB and less than or equal 8 dB. calculate Subband 3 downlink SINR postPRB range of subband 3 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to PRB#8 to PRB#11 sample period (5 seconds) with the respective This measurement is updated for each UE every 10 MHz refers to PRB#12 to where PRB#17 number of calculated values each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent subband 15 and 20 PRB#16 toto PRB#23 greater than 8 dB and less than or equal 10 dB. calculate Subband 3 downlink SINR postPRB range of subband 3 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#8 to PRB#11 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#12 to PRB#17 number of calculated values wheresubband each oneCQI is to TTI by using the UE's most recent 15 MHzthan and 20 MHz refers tothan PRB#16 to PRB#23 greater 10 dB and less or equal to 12 dB. calculate Subband 3 downlink SINR postPRB range of subband 3 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#8 to PRB#11 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#12 to PRB#17 number of calculated values wheresubband each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent 15 and 20 PRB#16 to PRB#23 greater than 12 dB and less than or equal to 14 db. calculate Subband 3 downlink SINR postPRB range of subband 3 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#8 to PRB#11 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#12 to PRB#17 number of calculated values wheresubband each oneCQI is to TTI by using the UE's most recent 15 MHzthan and 20 MHz refers tothan PRB#16 to PRB#23 greater 14 dB and less or equal to 16 dB. calculate Subband 3 downlink SINR postPRB range of subband 3 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#8 to PRB#11 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#12 to PRB#17 number of calculated values wheresubband each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent 15 and 20 PRB#16 to PRB#23 greater than 16 dB and less than or equal to 18 dB. calculate Subband 3 downlink SINR postPRB range of subband 3 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#8 to PRB#11 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#12 to PRB#17 number of calculated values wheresubband each oneCQI is to TTI by using the UE's most recent 15 MHzthan and 20 MHz refers tothan PRB#16 to PRB#23 greater 18 dB and less or equal to 20 dB. calculate Subband 3 downlink SINR postPRB range of subband 3 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#8 to PRB#11 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#12 to PRB#17 number of calculated values wheresubband each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent 15 and 20 PRB#16 to PRB#23 greater than 20 dB and less than or equal to 22 dB. calculate Subband 3 downlink SINR postPRB range of subband 3 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#8 to PRB#11 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#12 to PRB#17 number of calculated values wheresubband each oneCQI is to TTI by using theMHz UE'srefers most to recent 15 MHz and 20 PRB#16 to PRB#23 greater than 22 dB and less than or equal to 24 dB. calculate Subband 3 downlink SINR postPRB range of subband 3 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#8 to PRB#11 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#12 to PRB#17 number of calculated values wheresubband each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent 15 and 20 PRB#16 to PRB#23 greater than 24 dB and less than or equal to 26 dB. calculate Subband 3 downlink SINR postPRB range of subband 3 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#8 PRB#11 sample period (5 seconds) the to respective 10 MHz refers to PRB#12 to PRB#17 number of calculated values where each one is 15 MHzthan and 20 refers PRB#16 to PRB#23 greater 26 MHz dB and lesstothan or equal to 28 dB. PRB range of subband 3 according to frequency: 3 MHz and 5 MHz refers to PRB#8 to PRB#11 10 MHz refers to PRB#12 to PRB#17 15 MHz and 20 MHz refers to PRB#16 to PRB#23
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 3 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 3 downlink SINR each one is greater and thanthe 4 dB and post-compensation bin is This measurement is6updated for less than or equal to dB. PRB incremented every sample period each UE every TTI3by using theto (5 range of subband according seconds) with the respective UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 3 downlink SINR 3 MHz and 5greater MHz refers todB PRB#8 each one is than 6 and post-compensation and the bin is to PRB#11 This than measurement is8updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#12 to each UE every TTI3by using theto (5 range of subband according seconds) with the respective PRB#17 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3 downlink SINR 3 MHz 5greater MHz refers todB PRB#8 each one is than 8 and PRB#16 to PRB#23 post-compensation and the bin is to PRB#11 This measurement is10 updated for less than or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#12 to each UE every TTI3by using theto (5 range of subband according seconds) with the respective PRB#17 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3 downlink SINR 3 MHz 5greater MHz refers to PRB#8 each one is than 10 dB and PRB#16 to PRB#23 post-compensation and the bin is to PRB#11 This than measurement is12 updated for less or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#12 to each UE every TTI3by using theto (5 range of subband according seconds) with the respective PRB#17 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3 downlink SINR 3 MHz 5greater MHz refers to PRB#8 each one is than 12 dB and PRB#16 to PRB#23 post-compensation and the bin is to PRB#11 This measurement is14 updated for less than or equal to db.period PRB incremented every sample 10 MHz refers to PRB#12 to each UE every TTI3by using theto (5 range of subband according seconds) with the respective PRB#17 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3 downlink SINR 3 MHz 5greater MHz refers to PRB#8 each one is than 14 dB and PRB#16 to PRB#23 post-compensation and the bin is to PRB#11 This than measurement is16 updated for less or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#12 to each UE every TTI3by using theto (5 range of subband according seconds) with the respective PRB#17 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3 downlink SINR 3 MHz 5greater MHz refers to PRB#8 each one is than 16 dB and PRB#16 to PRB#23 post-compensation and the bin is to PRB#11 This measurement is18 updated for less than or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#12 to each UE every TTI3by using theto (5 range of subband according seconds) with the respective PRB#17 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3 downlink SINR 3 MHz 5greater MHz refers to PRB#8 each one is than 18 dB and PRB#16 to PRB#23 post-compensation and the bin is to PRB#11 This than measurement is20 updated for less or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#12 to each UE every TTI3by using theto (5 range of subband according seconds) with the respective PRB#17 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3 downlink SINR 3 MHz 5greater MHz refers to PRB#8 each one is than 20 dB and PRB#16 to PRB#23 post-compensation and the bin is to PRB#11 This measurement is22 updated for less than or equal to dB.period PRB incremented every sample 10 MHz PRB#12 to theto (5 each UE everyto TTI using range of refers subband 3by according seconds) with the respective PRB#17 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3 downlink SINR 3 MHz 5greater MHz refers to PRB#8 each one is than 22 dB and PRB#16 to PRB#23 post-compensation and the bin is to PRB#11 This than measurement is24 updated for less or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#12 to each UE every TTI3by using theto (5 range of subband according seconds) with the respective PRB#17 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3 downlink SINR 3 MHz 5greater MHz refers to PRB#8 each one is than 24 dB and PRB#16 to PRB#23and the post-compensation bin is to PRB#11 less than or equal to 26 dB.period PRB (5 incremented every sample 10 MHz to PRB#12 to to range of refers subband 3 according seconds) with the respective PRB#17 frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers 3 MHz MHz refers to PRB#8 each onetois5 greater than 26 dB and PRB#16 PRB#23 to PRB#11 less than or equal to 28 dB. PRB 10 MHz to PRB#12 to to range of refers subband 3 according PRB#17 frequency: 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 PRB#16 to PRB#23 to PRB#11
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 3 downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 28 dB and less than or equal to 30 dB. calculate Subband 4 downlink SINR postPRB range of subband 3 according to frequency: compensation and the bin is incremented every 3 MHz and 5 MHz refers to with PRB#8 to PRB#11 sample period (5 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#12 to PRB#17 number of calculated values wheresubband each oneCQI is to TTI by using the UE's most recent 15 MHzthan and 20 MHz refers to PRB#16 tothan PRB#23 greater or equal to -10 dB and less or calculate Subband 4 downlink SINR postequal to -8 dB.and PRBthe range ofincremented subband 4 according compensation bin is every to frequency: sample period (5 seconds) with the respective This measurement is updated for each UE every 3 MHz refers to PRB#12 to PRB#14 number of calculated wheresubband each oneCQI is to TTI by using the UE's values most recent 5 MHz refers to PRB#12 to PRB#15 greater than -8 dB and less than or equal to -6 dB. calculate Subband 4 downlink SINR post10 MHz refers to PRB#18 to PRB#23 PRB range of subband 4 according to frequency: compensation and therefers bin istoincremented every 15 MHzrefers and 20 PRB#24 to PRB#31 3 MHz to(5MHz PRB#12 to with PRB#14 sample period seconds) the respective This measurement is updated for each UE every 5 MHz refers to PRB#12 to PRB#15 number of calculated values wheresubband each oneCQI is to TTI by using the UE's most recent 10 MHzthan refers to PRB#18 tothan PRB#23 greater -6 dB and less or equal to -4 dB. calculate Subband 4 downlink SINR post15 MHz and 20subband MHz refers to PRB#24 to PRB#31 PRB range of 4 according to frequency: compensation and the bin is incremented every 3 MHz refers to with PRB#14 sample periodto(5PRB#12 seconds) the respective This measurement is updated for each UE every 5 MHz refers to PRB#12 to PRB#15 number of calculated values where each oneCQI is to TTIMHz by using the UE's mosttorecent subband 10 refers to PRB#18 PRB#23 greater than -4 dB and less than or equal to -2 dB. calculate Subband 4 downlink SINR post15 MHz and 20subband MHz refers to PRB#24 to PRB#31 PRB range of 4 according to frequency: compensation and the bin is incremented every 3 MHz refers to with PRB#14 sample periodto(5PRB#12 seconds) the respective This measurement is updated for each UE every 5 MHz refers to PRB#12 to PRB#15 number of calculated values where each oneCQI is to TTI by using the UE's most recent subband 10 MHzthan refers to PRB#18 tothan PRB#23 greater -2 dB and less or equal to 0 dB. calculate Subband 4 downlink SINR post15 MHz and 20subband MHz refers to PRB#24 to PRB#31 PRB range of 4 according to frequency: compensation and the bin is incremented every 3 MHz refers to with PRB#14 sample periodto(5PRB#12 seconds) the respective This measurement is updated for each UE every 5 MHz refers to PRB#12 to PRB#15 number of calculated values where each oneCQI is to TTIMHz by using the UE's mosttorecent subband 10 refers to PRB#18 PRB#23 greater than 0 dB and less than or equal to 2 dB. calculate Subband 4 downlink SINR post15 MHz and MHz refers to PRB#24 to PRB#31 PRB range of20subband 4 according to frequency: compensation and the bin is incremented every 3 MHz refers to(5PRB#12 to with PRB#14 sample period seconds) the respective This measurement is updated for each UE every 5 MHz refers to PRB#12 to PRB#15 number of calculated values wheresubband each oneCQI is to TTI by using the UE's most recent 10 MHzthan refers to PRB#18 tothan PRB#23 greater 2 dB and less or equal to 4 dB. calculate Subband 4 downlink SINR post15 MHz and MHz refers to PRB#24 to PRB#31 PRB range of20subband 4 according to frequency: compensation and the bin is incremented every 3 MHz refers to(5PRB#12 to with PRB#14 sample period seconds) the respective This measurement is updated for each UE every 5 MHz refers to PRB#12 to PRB#15 number of calculated values wheresubband each oneCQI is to TTIMHz by using the UE's mosttorecent 10 refers to PRB#18 PRB#23 greater than 4 dB and less than or equal to 6 dB. calculate Subband 4 downlink SINR post15 MHz and MHz refers to PRB#24 to PRB#31 PRB range of20subband 4 according to frequency: compensation and the bin is incremented every 3 MHz refers to(5PRB#12 to with PRB#14 sample period seconds) the respective This measurement is updated for each UE every 5 MHz refers to PRB#12 to PRB#15 number of calculated values wheresubband each oneCQI is to TTI by using the UE's mosttorecent 10 MHz refers to PRB#18 PRB#23 greater than 6 dB and less than or equal to 8 dB. calculate Subband 4 downlink SINR post15 MHz and MHz refers to PRB#24 to PRB#31 PRB range of20subband 4 according to frequency: compensation and the bin is incremented every 3 MHz refers to(5PRB#12 to with PRB#14 sample period seconds) the respective This measurement is updated for each UE every 5 MHz refers to PRB#12 to PRB#15 number of calculated values wheresubband each oneCQI is to TTIMHz by using the UE's mosttorecent 10 refers to PRB#18 PRB#23 greater than 8 dB and less than or equal to 10 dB. calculate Subband 4 downlink SINR post15 MHz and 20subband MHz refers to PRB#24 to PRB#31 PRB range of 4 according to frequency: compensation and the bin is incremented every 3 MHz refers to with PRB#14 sample periodto(5PRB#12 seconds) the respective 5 MHz refers to PRB#12 to number of calculated valuesPRB#15 where each one is 10 MHzthan refers PRB#18 to than PRB#23 greater 10todB and less or equal to 12 dB. 15 MHz and 20 MHz refers to PRB#24 to PRB#31 PRB range of subband 4 according to frequency: 3 MHz refers to PRB#12 to PRB#14 5 MHz refers to PRB#12 to PRB#15 10 MHz refers to PRB#18 to PRB#23 15 MHz and 20 MHz refers to PRB#24 to PRB#31
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 3 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 4 downlink SINR each one is greater and thanthe 28 bin dB and post-compensation is This measurement is30 updated for less than or equal to dB.period PRB incremented every sample each UE every TTI3by using theto (5 range of subband according seconds) with the respective UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 4 downlink SINR 3 MHz and 5greater MHz refers to PRB#8 each one is than or equal post-compensation and the bin is to to PRB#11 ThisdB measurement is or updated for -10 and less than equal to -8 incremented every sample period 10 MHz to PRB#12 to each UErefers every TTI by using the (5 dB. PRB range of subband 4 seconds) the subband respective PRB#17 UE's mostwith recent CQI to according to frequency: number of calculated valuestowhere 15 MHzrefers and 20 MHz refers calculate Subband 4 downlink SINR 3 MHz to PRB#12 to each onetoisPRB#23 greater and thanthe -8 dB and PRB#16 post-compensation bin is PRB#14 This measurement is-6 updated for less than or equal to dB. PRB incremented every sample period 5 MHz refers to PRB#12 to each UE every TTI4by using theto (5 range of subband according seconds) with the respective PRB#15 UE's most recent subband CQI to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4 downlink 3 MHz totoPRB#12 totodB SINR each one is greater than -6 and PRB#23 post-compensation and the binfor is PRB#14 This measurement is updated less than or equal to -4 dB. PRB 15 MHzrefers and 20 MHz refers to incremented every sample period 5 MHz to PRB#12 to each UE every TTI4by using theto (5 range of subband according PRB#24 to PRB#31 seconds) with the respective PRB#15 UE's most recent subband CQI to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4 downlink 3 MHz totoPRB#12 totodB SINR each one is greater than -4 and PRB#23 post-compensation and the binfor is PRB#14 This measurement is updated less than or equal to -2 dB. PRB 15 MHz and 20 MHz refers to incremented every sample period 5 MHz refers to PRB#12 to each UE every TTI4by using theto (5 range of subband according PRB#24 to PRB#31 seconds) with the respective PRB#15 UE's most recent subband CQI to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4 downlink 3 MHz totoPRB#12 totodB SINR each one is greater than -2 and PRB#23 post-compensation and the binfor is PRB#14 This measurement is updated less than or equal to 0 dB. PRB 15 MHz and 20 MHz refers to incremented every sample period 5 MHz refers to PRB#12 to each UE every TTI4by using theto (5 range of subband according PRB#24 to PRB#31 seconds) with the respective PRB#15 UE's most recent subband CQI to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4 downlink SINR 3 MHz totoPRB#12 toto each one is greater than 0 dB and PRB#23 post-compensation and the bin is PRB#14 This measurement is2refers updated less than or equal to dB. PRB 15 MHz and 20 MHz to for (5 incremented every sample period 5 MHz refers to PRB#12 to each UE every TTI4by using theto range of subband according PRB#24 to PRB#31 seconds) with the subband respective PRB#15 UE's most recent CQI to frequency: number of calculated values 10 MHzrefers refers toPRB#12 PRB#18 to where calculate Subband 4 downlink SINR 3 MHz to to each one is greater and thanthe 2 dB and PRB#23 post-compensation bin is PRB#14 This measurement is4refers updated less than or equal to dB. PRB 15 MHz and 20 MHz to for (5 incremented every sample period 5 MHz refers to PRB#12 to each UE every TTI4by using theto range of subband according PRB#24 to PRB#31 seconds) the subband respective PRB#15 UE's mostwith recent CQI to frequency: number of calculated values 10 MHzrefers refers toPRB#12 PRB#18 to where calculate Subband 4 downlink SINR 3 MHz to to each one is greater and thanthe 4 dB and PRB#23 post-compensation bin is PRB#14 This measurement is6refers updated for less than or equal to dB. PRB 15 MHz and 20 MHz to incremented every sample period 5 MHzUE refers toTTI PRB#12 to theto (5 each every using range of subband 4by according PRB#24 to PRB#31 seconds) with the respective PRB#15 UE's most recent subband CQI to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4 downlink SINR 3 MHz totoPRB#12 toto each one is greater than 6 dB and PRB#23 post-compensation and the bin is PRB#14 This measurement is8refers updated less than or equal to dB. PRB 15 MHz and 20 MHz to for (5 incremented every sample period 5 MHz refers to PRB#12 to each UE every TTI4by using theto range of subband according PRB#24 to PRB#31 seconds) the subband respective PRB#15 UE's mostwith recent CQI to frequency: number of calculated values 10 MHzrefers refers toPRB#12 PRB#18 to where calculate Subband 4 downlink SINR 3 MHz to to each one is greater and thanthe 8 dB PRB#23 post-compensation binand is PRB#14 less thanand or equal to 10 dB.period PRB (5 15 MHz 20 MHz refers to incremented every sample 5 MHzof refers to PRB#12 to range subband 4 according to PRB#24 to PRB#31 seconds) with the respective PRB#15 frequency: number of calculated values where 10 MHzrefers refers PRB#18 3 MHz totoPRB#12 totodB and each one is greater than 10 PRB#23 PRB#14 less thanand or equal to 12 dB.to PRB 15 MHz 20 refers 5 MHz refers to MHz PRB#12 to range of subband 4 according to PRB#24 to PRB#31 PRB#15 frequency: 10 MHzrefers referstotoPRB#12 PRB#18toto 3 MHz PRB#23 PRB#14 15 MHz and 20 MHz refers to
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 4 downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 12 dB and less than or equal to 14 db. calculate Subband 4 downlink SINR postPRB range of subband 4 according to frequency: compensation and the bin is incremented every 3 MHz refers to with PRB#14 sample periodto(5PRB#12 seconds) the respective This measurement is updated for each UE every 5 MHz refers to PRB#12 to PRB#15 number of calculated values where each oneCQI is to TTI by using the UE's most recent subband 10 MHzthan refers todB PRB#18 to than PRB#23 greater 14 and less or equal to 16 dB. calculate Subband 4 downlink SINR post15 MHz and 20subband MHz refers to PRB#24 to PRB#31 PRB range of 4 according to frequency: compensation and the bin is incremented every 3 MHz refers to with PRB#14 sample periodto(5PRB#12 seconds) the respective This measurement is updated for each UE every 5 MHz refers to PRB#12 to PRB#15 number of calculated values where each oneCQI is to TTIMHz by using the UE's mosttorecent subband 10 refers to PRB#18 PRB#23 greater than 16 dB and less than or equal to 18 dB. calculate Subband 4 downlink SINR post15 MHz and 20subband MHz refers to PRB#24 to PRB#31 PRB range of 4 according to frequency: compensation and the bin is incremented every 3 MHz refers to with PRB#14 sample periodto(5PRB#12 seconds) the respective This measurement is updated for each UE every 5 MHz refers to PRB#12 to PRB#15 number of calculated values where each oneCQI is to TTI by using the UE's most recent subband 10 MHzthan refers todB PRB#18 to than PRB#23 greater 18 and less or equal to 20 dB. calculate Subband 4 downlink SINR post15 MHz and 20subband MHz refers to PRB#24 to PRB#31 PRB range of 4 according to frequency: compensation and the bin is incremented every 3 MHz refers to with PRB#14 sample periodto(5PRB#12 seconds) the respective This measurement is updated for each UE every 5 MHz refers to PRB#12 to PRB#15 number of calculated values where each oneCQI is to TTIMHz by using the UE's mosttorecent subband 10 refers to PRB#18 PRB#23 greater than 20 dB and less than or equal to 22 dB. calculate Subband 4 downlink SINR post15 MHz and 20subband MHz refers to PRB#24 to PRB#31 PRB range of 4 according to frequency: compensation and the bin is incremented every 3 MHz refers to with PRB#14 sample periodto(5PRB#12 seconds) the respective This measurement is updated for each UE every 5 MHz refers to PRB#12 to PRB#15 number of calculated values where each oneCQI is to TTI by using the UE's most recent subband 10 MHzthan refers todB PRB#18 to than PRB#23 greater 22 and less or equal to 24 dB. calculate Subband 4 downlink SINR post15 MHz and 20subband MHz refers to PRB#24 to PRB#31 PRB range of 4 according to frequency: compensation and the bin is incremented every 3 MHz refers to with PRB#14 sample periodto(5PRB#12 seconds) the respective This measurement is updated for each UE every 5 MHz refers to PRB#12 to PRB#15 number of calculated values where each oneCQI is to TTIMHz by using the UE's mosttorecent subband 10 refers to PRB#18 PRB#23 greater than 24 dB and less than or equal to 26 dB. calculate Subband 4 downlink SINR post15 MHz and 20subband MHz refers to PRB#24 to PRB#31 PRB range of 4 according to frequency: compensation and the bin is incremented every 3 MHz refers to with PRB#14 sample periodto(5PRB#12 seconds) the respective This measurement is updated for each UE every 5 MHz refers to PRB#12 to PRB#15 number of calculated values where each oneCQI is to TTI by using the UE's most recent subband 10 MHzthan refers todB PRB#18 to than PRB#23 greater 26 and less or equal to 28 dB. calculate Subband 4 downlink SINR post15 MHz and 20subband MHz refers to PRB#24 to PRB#31 PRB range of 4 according to frequency: compensation and the bin is incremented every 3 MHz refers to with PRB#14 sample periodto(5PRB#12 seconds) the respective This measurement is updated for each UE every 5 MHz refers to PRB#12 to PRB#15 number of calculated values where each oneCQI is to TTIMHz by using the UE's mosttorecent subband 10 refers to PRB#18 PRB#23 greater than 28 dB and less than or equal to 30 dB. calculate Subband 5 downlink SINR post15 MHz and 20subband MHz refers to PRB#24 to PRB#31 PRB range of 4 according to frequency: compensation and the bin is incremented every 3 MHz refers to with PRB#14 sample periodto(5PRB#12 seconds) the respective This measurement is updated for each UE every 5 MHz refers to PRB#12 to PRB#15 number of calculated values where each oneCQI is to TTI by using the UE's mosttorecent subband 10 MHz refers to PRB#18 PRB#23 greater than or equal to -10 dB and less than or calculate Subband 5 downlink SINR post15 MHz 20PRB MHz refersof tosubband PRB#24 PRB#31 equal to and -8 dB. range 5toaccording compensation and the bin is incremented every to frequency: sample period (5 seconds) with the respective This measurement is updated for each UE every 5 MHz refers to PRB#16 to PRB#19 number of calculated values wheresubband each oneCQI is to TTIMHz by using the UE's mosttorecent 10 refers to PRB#24 PRB#29 greater than -8 dB and less than or equal to -6 dB. calculate Subband 5 downlink SINR post15 MHz and 20subband MHz refers to PRB#32 to PRB#39 PRB range of 5 according to frequency: compensation and the bin is incremented every 5 MHz refers to with PRB#19 sample periodto(5PRB#16 seconds) the respective 10 MHz refers to PRB#24 to PRB#29 number of calculated values where each one is 15 MHzthan and 20 MHz refers PRB#32 to PRB#39 greater -6 dB and less to than or equal to -4 dB. PRB range of subband 5 according to frequency: 5 MHz refers to PRB#16 to PRB#19 10 MHz refers to PRB#24 to PRB#29 15 MHz and 20 MHz refers to PRB#32 to PRB#39
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 4 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 4 downlink SINR each one is greater and thanthe 12 bin dB and post-compensation is This measurement is14 updated for less than or equal to db.period PRB incremented every sample each UE every TTI4by using theto (5 range of subband according seconds) with the respective UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 4 downlink 3 MHz refers to PRB#12 to dBSINR each one is greater than 14 and post-compensation and the binfor is PRB#14 This than measurement is16 updated less or equal to dB. PRB incremented every sample period 5 MHz refers to PRB#12 to each UE every TTI4by using theto (5 range of subband according seconds) with the respective PRB#15 UE's most recent subband CQI to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4 downlink 3 MHz totoPRB#12 totodBSINR each one is greater than 16 and PRB#23 post-compensation and the binfor is PRB#14 This measurement is updated less than or equal to 18 dB. PRB 15 MHz and 20 MHz refers to incremented every sample period 5 MHz refers to PRB#12 to each UE every TTI4by using theto (5 range of subband according PRB#24 to PRB#31 seconds) with the respective PRB#15 UE's most recent subband CQI to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4 downlink 3 MHz totoPRB#12 totodBSINR each one is greater than 18 and PRB#23 post-compensation and the binfor is PRB#14 This measurement is updated less than or equal to 20 dB. PRB 15 MHzrefers and 20 MHz refers to incremented every sample period 5 MHz to PRB#12 to each UE every TTI4by using theto (5 range of subband according PRB#24 to PRB#31 seconds) with the respective PRB#15 UE's most recent subband CQI to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4 downlink 3 MHz totoPRB#12 totodBSINR each one is greater than 20 and PRB#23 post-compensation and the binfor is PRB#14 This measurement is updated less than or equal to 22 dB. PRB 15 MHz and 20 MHz refers to incremented every sample period 5 MHz refers to PRB#12 to each UE every TTI4by using theto (5 range of subband according PRB#24 to PRB#31 seconds) with the respective PRB#15 UE's most recent subband CQI to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4 downlink 3 MHz totoPRB#12 totodBSINR each one is greater than 22 and PRB#23 post-compensation and the binfor is PRB#14 This measurement is updated less than or equal to 24 dB. PRB 15 MHz and 20 MHz refers to incremented every sample period 5 MHz refers to PRB#12 to each UE every TTI4by using theto (5 range of subband according PRB#24 to PRB#31 seconds) with the respective PRB#15 UE's most recent subband CQI to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4 downlink 3 MHz totoPRB#12 totodBSINR each one is greater than 24 and PRB#23 post-compensation and the binfor is PRB#14 This measurement is updated less than or equal to 26 dB. PRB 15 MHz and 20 MHz refers to incremented every sample period 5 MHz refers to PRB#12 to each UE every TTI4by using theto (5 range of subband according PRB#24 to PRB#31 seconds) with the respective PRB#15 UE's most recent subband CQI to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4 downlink 3 MHz totoPRB#12 totodBSINR each one is greater than 26 and PRB#23 post-compensation and the binfor is PRB#14 This measurement is updated less than or equal to 28 dB. PRB 15 MHz and 20 MHz refers to incremented every sample period 5 MHz refers to PRB#12 to each UE every TTI4by using theto (5 range of subband according PRB#24 to PRB#31 seconds) with the respective PRB#15 UE's most recent subband CQI to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 5 downlink 3 MHz totoPRB#12 totodBSINR each one is greater than 28 and PRB#23 post-compensation and the binfor is PRB#14 This measurement is updated less than or equal to 30 dB. PRB 15 MHz and 20 MHz refers to incremented every sample period 5 MHzUE refers toTTI PRB#12 to theto (5 each every using range of subband 4by according PRB#24 to PRB#31 seconds) with the respective PRB#15 UE's most recent subband CQI to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 5 downlink SINR 3 MHz totoPRB#12 totoequal each one is greater than or PRB#23 post-compensation and the bin is to PRB#14 This measurement is refers updated for -10 dB and less than or equal to -8(5 15 MHz and 20 MHz to incremented every sample 5 MHz refers toTTI PRB#12 to period each UE every by using the dB. PRB range of subband 5 PRB#24 to PRB#31 seconds) the subband respective PRB#15 UE's mostwith recent CQI to according to frequency: number of calculated values 10 MHzrefers refers toPRB#16 PRB#18 to where calculate Subband 5 downlink SINR 5 MHz to to each one is greater and thanthe -8 dB PRB#23 post-compensation bin and is PRB#19 less thanand or equal to -6 dB. period PRB (5 15 MHz 20 MHz refers to incremented every sample 10 MHz to PRB#24 to to range of refers subband 5 according PRB#24 to PRB#31 seconds) with the respective PRB#29 frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to dB and each onetoisPRB#39 greater than -6 PRB#32 PRB#19 less than or equal to -4 dB. PRB 10 MHz to PRB#24 to to range of refers subband 5 according PRB#29 frequency: 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to PRB#32 to PRB#39 PRB#19
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 5 downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than -4 dB and less than or equal to -2 dB. calculate Subband 5 downlink SINR postPRB range of subband 5 according to frequency: compensation and the bin is incremented every 5 MHz refers to with PRB#19 sample periodto(5PRB#16 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#24 to PRB#29 number of calculated values where each oneCQI is to TTI by using the UE's most recent subband 15 MHzthan and 20 MHz refers to PRB#32 to PRB#39 greater -2 dB and less than or equal to 0 dB. calculate Subband 5 downlink SINR postPRB range of subband 5 according to frequency: compensation and the bin is incremented every 5 MHz refers to with PRB#19 sample periodto(5PRB#16 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#24 to PRB#29 number of calculated values where each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent subband 15 and 20 PRB#32 to PRB#39 greater than 0 dB and less than or equal to 2 dB. calculate Subband 5 downlink SINR postPRB range of subband 5 according to frequency: compensation and the bin is incremented every 5 MHz refers to PRB#16 to PRB#19 sample period (5 seconds) with the respective This measurement is updated for each UE every 10 MHz refers to PRB#24 to where PRB#29 number of calculated values each oneCQI is to TTI by using the UE's most recent subband 15 MHzthan and 20 MHz refers to PRB#32 toto PRB#39 greater 2 dB and less than or equal 4 dB. calculate Subband 5 downlink SINR postPRB range of subband 5 according to frequency: compensation and the bin is incremented every 5 MHz refers to PRB#16 to PRB#19 sample period (5 seconds) with the respective This measurement is updated for each UE every 10 MHz refers to PRB#24 to where PRB#29 number of calculated values each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent subband 15 and 20 PRB#32 toto PRB#39 greater than 4 dB and less than or equal 6 dB. calculate Subband 5 downlink SINR postPRB range of subband 5 according to frequency: compensation and the bin is incremented every 5 MHz refers to PRB#16 to PRB#19 sample period (5 seconds) with the respective This measurement is updated for each UE every 10 MHz refers to PRB#24 to where PRB#29 number of calculated values each oneCQI is to TTI by using the UE's most recent subband 15 MHzthan and 20 MHz refers to PRB#32 toto PRB#39 greater 6 dB and less than or equal 8 dB. calculate Subband 5 downlink SINR postPRB range of subband 5 according to frequency: compensation and the bin is incremented every 5 MHz refers to PRB#16 to PRB#19 sample period (5 seconds) with the respective This measurement is updated for each UE every 10 MHz refers to PRB#24 to where PRB#29 number of calculated values each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent subband 15 and 20 PRB#32 toto PRB#39 greater than 8 dB and less than or equal 10 dB. calculate Subband 5 downlink SINR postPRB range of subband 5 according to frequency: compensation and the bin is incremented every 5 MHz refers to with PRB#19 sample periodto(5PRB#16 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#24 to PRB#29 number of calculated values where each oneCQI is to TTI by using the UE's most recent subband 15 MHzthan and 20 MHz refers tothan PRB#32 to PRB#39 greater 10 dB and less or equal to 12 dB. calculate Subband 5 downlink SINR postPRB range of subband 5 according to frequency: compensation and the bin is incremented every 5 MHz refers to with PRB#19 sample periodto(5PRB#16 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#24 to PRB#29 number of calculated values where each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent subband 15 and 20 PRB#32 to PRB#39 greater than 12 dB and less than or equal to 14 dB. calculate Subband 5 downlink SINR postPRB range of subband 5 according to frequency: compensation and the bin is incremented every 5 MHz refers to with PRB#19 sample periodto(5PRB#16 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#24 to PRB#29 number of calculated values where each oneCQI is to TTI by using theMHz UE'srefers most to recent subband 15 MHz and 20 PRB#32 to PRB#39 greater than 14 dB and less than or equal to 16 dB. calculate Subband 5 downlink SINR postPRB range of subband 5 according to frequency: compensation and the bin is incremented every 5 MHz refers to with PRB#19 sample periodto(5PRB#16 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#24 to PRB#29 number of calculated values where each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent subband 15 and 20 PRB#32 to PRB#39 greater than 16 dB and less than or equal to 18 dB. calculate Subband 5 downlink SINR postPRB range of subband 5 according to frequency: compensation and the bin is incremented every 5 MHz refers to with PRB#19 sample periodto(5PRB#16 seconds) the respective 10 MHz refers to PRB#24 to PRB#29 number of calculated values where each one is 15 MHzthan and 20 refers PRB#32 to PRB#39 greater 18 MHz dB and lesstothan or equal to 20 dB. PRB range of subband 5 according to frequency: 5 MHz refers to PRB#16 to PRB#19 10 MHz refers to PRB#24 to PRB#29 15 MHz and 20 MHz refers to PRB#32 to PRB#39
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 5 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 5 downlink SINR each one is greater and thanthe -4 dB and post-compensation bin is This measurement is-2 updated for less than or equal to dB. PRB incremented every sample period each UE every TTI5by using theto (5 range of subband according seconds) with the respective UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 5 downlink 5 MHz refers to PRB#16 to dB SINR each one is greater than -2 and post-compensation and the binfor is PRB#19 This than measurement is0updated less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#24 to each UE every TTI5by using theto (5 range of subband according seconds) with the respective PRB#29 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5 downlink SINR 5 MHz to MHz PRB#16 todB and each one is greater than 0 PRB#32 to PRB#39 post-compensation and the bin is PRB#19 This measurement is2updated for less than or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#24 to each UE every TTI5by using theto (5 range of subband according seconds) with the respective PRB#29 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5 downlink SINR 5 MHz to MHz PRB#16 todB and each one is greater than 2 PRB#32 to PRB#39 post-compensation and the bin is PRB#19 This than measurement is4updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#24 to each UE every TTI5by using theto (5 range of subband according seconds) with the respective PRB#29 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5 downlink SINR 5 MHz to MHz PRB#16 todB and each one is greater than 4 PRB#32 to PRB#39 post-compensation and the bin is PRB#19 This measurement is6updated for less than or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#24 to each UE every TTI5by using theto (5 range of subband according seconds) with the respective PRB#29 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5 downlink SINR 5 MHz to MHz PRB#16 todB and each one is greater than 6 PRB#32 to PRB#39 post-compensation and the bin is PRB#19 This than measurement is8updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#24 to each UE every TTI5by using theto (5 range of subband according seconds) with the respective PRB#29 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5 downlink SINR 5 MHz to MHz PRB#16 todB and each one is greater than 8 PRB#32 to PRB#39 post-compensation and the bin is PRB#19 This measurement is10 updated for less than or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#24 to each UE every TTI5by using theto (5 range of subband according seconds) with the respective PRB#29 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5 downlink 5 MHz to MHz PRB#16 to dBSINR each one is greater than 10 and PRB#32 to PRB#39 post-compensation and the binfor is PRB#19 This than measurement is12 updated less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#24 to each UE every TTI5by using theto (5 range of subband according seconds) with the respective PRB#29 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5 downlink 5 MHz to MHz PRB#16 to dBSINR each one is greater than 12 and PRB#32 to PRB#39 post-compensation and the binfor is PRB#19 This measurement is14 updated less than or equal to dB. PRB incremented every sample period 10 MHz PRB#24 to theto (5 each UE everyto TTI using range of refers subband 5by according seconds) with the respective PRB#29 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5 downlink 5 MHz to MHz PRB#16 to dBSINR each one is greater than 14 and PRB#32 to PRB#39 post-compensation and the binfor is PRB#19 This than measurement is16 updated less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#24 to each UE every TTI5by using theto (5 range of subband according seconds) with the respective PRB#29 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5 downlink 5 MHz to MHz PRB#16 to dBSINR each one is greater than 16 PRB#32 to PRB#39and the post-compensation bin and is PRB#19 less than or equal to 18 dB. PRB (5 incremented every sample period 10 MHz to PRB#24 to to range of refers subband 5 according seconds) with the respective PRB#29 frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to dB and each onetoisPRB#39 greater than 18 PRB#32 PRB#19 less than or equal to 20 dB. PRB 10 MHz to PRB#24 to to range of refers subband 5 according PRB#29 frequency: 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to PRB#32 to PRB#39 PRB#19
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 5 downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 20 dB and less than or equal to 22 dB. calculate Subband 5 downlink SINR postPRB range of subband 5 according to frequency: compensation and the bin is incremented every 5 MHz refers to with PRB#19 sample periodto(5PRB#16 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#24 to PRB#29 number of calculated values where each oneCQI is to TTI by using the UE's most recent subband 15 MHzthan and 20 MHz refers tothan PRB#32 to PRB#39 greater 22 dB and less or equal to 24 dB. calculate Subband 5 downlink SINR postPRB range of subband 5 according to frequency: compensation and the bin is incremented every 5 MHz refers to with PRB#19 sample periodto(5PRB#16 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#24 to PRB#29 number of calculated values where each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent subband 15 and 20 PRB#32 to PRB#39 greater than 24 dB and less than or equal to 26 dB. calculate Subband 5 downlink SINR postPRB range of subband 5 according to frequency: compensation and the bin is incremented every 5 MHz refers to with PRB#19 sample periodto(5PRB#16 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#24 to PRB#29 number of calculated values where each oneCQI is to TTI by using the UE's most recent subband 15 MHzthan and 20 MHz refers tothan PRB#32 to PRB#39 greater 26 dB and less or equal to 28 dB. calculate Subband 5 downlink SINR postPRB range of subband 5 according to frequency: compensation and the bin is incremented every 5 MHz refers to with PRB#19 sample periodto(5PRB#16 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#24 to PRB#29 number of calculated values where each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent subband 15 and 20 PRB#32 to PRB#39 greater than 28 dB and less than or equal to 30 dB. calculate Subband 6 downlink SINR postPRB range of subband 5 according to frequency: compensation and the bin is incremented every 5 MHz refers to with PRB#19 sample periodto(5PRB#16 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#24 to PRB#29 number of calculated values where each oneCQI is to TTI by using the UE's most recent subband 15 MHzthan and 20 MHz refers to PRB#32 tothan PRB#39 greater or equal to -10 dB and less or calculate Subband 6 downlink SINR postequal to -8 dB.and PRBthe range ofincremented subband 6 according compensation bin is every to frequency: sample period (5 seconds) with the respective This measurement is updated for each UE every 5 MHz refers to PRB#20 to PRB#23 number of calculated values wheresubband each oneCQI is to TTIMHz by using the UE's mosttorecent 10 refers to PRB#30 PRB#35 greater than -8 dB and less than or equal to -6 dB. calculate Subband 6 downlink SINR post15 MHz and 20subband MHz refers to PRB#40 to PRB#47 PRB range of 6 according to frequency: compensation and the bin is incremented every 5 MHz refers to with PRB#23 sample periodto(5PRB#20 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#30 to PRB#35 number of calculated values where each oneCQI is to TTI by using the UE's most recent subband 15 MHzthan and 20 MHz refers to PRB#40 to PRB#47 greater -6 dB and less than or equal to -4 dB. calculate Subband 6 downlink SINR postPRB range of subband 6 according to frequency: compensation and the bin is incremented every 5 MHz refers to with PRB#23 sample periodto(5PRB#20 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#30 to PRB#35 number of calculated values where each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent subband 15 and 20 PRB#40 to PRB#47 greater than -4 dB and less than or equal to -2 dB. calculate Subband 6 downlink SINR postPRB range of subband 6 according to frequency: compensation and the bin is incremented every 5 MHz refers to with PRB#23 sample periodto(5PRB#20 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#30 to PRB#35 number of calculated values where each oneCQI is to TTI by using theMHz UE'srefers most to recent subband 15 MHz and 20 PRB#40 to PRB#47 greater than -2 dB and less than or equal to 0 dB. calculate Subband 6 downlink SINR postPRB range of subband 6 according to frequency: compensation and the bin is incremented every 5 MHz refers to with PRB#23 sample periodto(5PRB#20 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#30 to PRB#35 number of calculated values where each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent subband 15 and 20 PRB#40 to PRB#47 greater than 0 dB and less than or equal to 2 dB. calculate Subband 6 downlink SINR postPRB range of subband 6 according to frequency: compensation and the bin is incremented every 5 MHz refers to PRB#20 to PRB#23 sample period (5 seconds) with the respective 10 MHz of refers to PRB#30 to where PRB#35 number calculated values each one is 15 MHz and 20 MHz refers to PRB#40 toto PRB#47 greater than 2 dB and less than or equal 4 dB. PRB range of subband 6 according to frequency: 5 MHz refers to PRB#20 to PRB#23 10 MHz refers to PRB#30 to PRB#35 15 MHz and 20 MHz refers to PRB#40 to PRB#47
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 5 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 5 downlink SINR each one is greater and thanthe 20 bin dB and post-compensation is This measurement is22 updated for less than or equal to dB.period PRB incremented every sample each UE every TTI5by using theto (5 range of subband according seconds) with the respective UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 5 downlink 5 MHz refers to PRB#16 to dBSINR each one is greater than 22 and post-compensation and the binfor is PRB#19 This than measurement is24 updated less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#24 to each UE every TTI5by using theto (5 range of subband according seconds) with the respective PRB#29 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5 downlink 5 MHz to MHz PRB#16 to dBSINR each one is greater than 24 and PRB#32 to PRB#39 post-compensation and the binfor is PRB#19 This measurement is26 updated less than or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#24 to each UE every TTI5by using theto (5 range of subband according seconds) with the respective PRB#29 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5 downlink 5 MHz to MHz PRB#16 to dBSINR each one is greater than 26 and PRB#32 to PRB#39 post-compensation and the binfor is PRB#19 This than measurement is28 updated less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#24 to each UE every TTI5by using theto (5 range of subband according seconds) with the respective PRB#29 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink 5 MHz to MHz PRB#16 to dBSINR each one is greater than 28 and PRB#32 to PRB#39 post-compensation and the binfor is PRB#19 This measurement is30 updated less than or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#24 to each UE every TTI5by using theto (5 range of subband according seconds) with the respective PRB#29 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink SINR 5 MHz to MHz PRB#16 to equal each one is greater than or PRB#32 to PRB#39 post-compensation and the bin is to PRB#19 ThisdB measurement is or updated for -10 and less than equal to -8 incremented every sample period 10 MHz to PRB#24 to each UErefers every TTI by using the (5 dB. PRB range of subband 6 seconds) the subband respective PRB#29 UE's mostwith recent CQI to according to frequency: number of calculated valuestowhere 15 MHzrefers and 20 MHz refers calculate Subband 6 downlink SINR 5 MHz to PRB#20 to each onetoisPRB#39 greater and thanthe -8 dB and PRB#32 post-compensation bin is PRB#23 This measurement is-6 updated for less than or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#30 to each UE every TTI6by using theto (5 range of subband according seconds) with the respective PRB#35 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink 5 MHz to MHz PRB#20 to dB SINR each one is greater than -6 and PRB#40 to PRB#47 post-compensation and the binfor is PRB#23 This than measurement is-4 updated less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#30 to each UE every TTI6by using theto (5 range of subband according seconds) with the respective PRB#35 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink 5 MHz to MHz PRB#20 to dB SINR each one is greater than -4 and PRB#40 to PRB#47 post-compensation and the binfor is PRB#23 This measurement is-2 updated less than or equal to dB. PRB incremented every sample period 10 MHz PRB#30 to theto (5 each UE everyto TTI using range of refers subband 6by according seconds) with the respective PRB#35 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink 5 MHz to MHz PRB#20 to dB SINR each one is greater than -2 and PRB#40 to PRB#47 post-compensation and the binfor is PRB#23 This than measurement is0updated less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#30 to each UE every TTI6by using theto (5 range of subband according seconds) with the respective PRB#35 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink SINR 5 MHz to MHz PRB#20 todB and each one is greater than 0 PRB#40 to PRB#47and the post-compensation bin is PRB#23 less than or equal to 2 dB. PRB incremented every sample period (5 10 MHz refers to PRB#30 to range of subband 6 according seconds) with the respective to PRB#35 frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 todB and each onetoisPRB#47 greater than 2 PRB#40 PRB#23 less than or equal to 4 dB. PRB 10 MHz to PRB#30 to to range of refers subband 6 according PRB#35 frequency: 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to PRB#40 to PRB#47 PRB#23
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 6 downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 4 dB and less than or equal to 6 dB. calculate Subband 6 downlink SINR postPRB range of subband 6 according to frequency: compensation and the bin is incremented every 5 MHz refers to PRB#20 to PRB#23 sample period (5 seconds) with the respective This measurement is updated for each UE every 10 MHz refers to PRB#30 to where PRB#35 number of calculated values each oneCQI is to TTI by using the UE's most recent subband 15 MHzthan and 20 MHz refers to PRB#40 toto PRB#47 greater 6 dB and less than or equal 8 dB. calculate Subband 6 downlink SINR postPRB range of subband 6 according to frequency: compensation and the bin is incremented every 5 MHz refers to PRB#20 to PRB#23 sample period (5 seconds) with the respective This measurement is updated for each UE every 10 MHz refers to PRB#30 to where PRB#35 number of calculated values each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent subband 15 and 20 PRB#40 toto PRB#47 greater than 8 dB and less than or equal 10 dB. calculate Subband 6 downlink SINR postPRB range of subband 6 according to frequency: compensation and the bin is incremented every 5 MHz refers to with PRB#23 sample periodto(5PRB#20 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#30 to PRB#35 number of calculated values where each oneCQI is to TTI by using the UE's most recent subband 15 MHzthan and 20 MHz refers tothan PRB#40 to PRB#47 greater 10 dB and less or equal to 12 dB. calculate Subband 6 downlink SINR postPRB range of subband 6 according to frequency: compensation and the bin is incremented every 5 MHz refers to with PRB#23 sample periodto(5PRB#20 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#30 to PRB#35 number of calculated values where each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent subband 15 and 20 PRB#40 to PRB#47 greater than 12 dB and less than or equal to 14 dB. calculate Subband 6 downlink SINR postPRB range of subband 6 according to frequency: compensation and the bin is incremented every 5 MHz refers to with PRB#23 sample periodto(5PRB#20 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#30 to PRB#35 number of calculated values where each oneCQI is to TTI by using the UE's most recent subband 15 MHzthan and 20 MHz refers tothan PRB#40 to PRB#47 greater 14 dB and less or equal to 16 dB. calculate Subband 6 downlink SINR postPRB range of subband 6 according to frequency: compensation and the bin is incremented every 5 MHz refers to with PRB#23 sample periodto(5PRB#20 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#30 to PRB#35 number of calculated values where each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent subband 15 and 20 PRB#40 to PRB#47 greater than 16 dB and less than or equal to 18 dB. calculate Subband 6 downlink SINR postPRB range of subband 6 according to frequency: compensation and the bin is incremented every 5 MHz refers to with PRB#23 sample periodto(5PRB#20 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#30 to PRB#35 number of calculated values where each oneCQI is to TTI by using the UE's most recent subband 15 MHzthan and 20 MHz refers tothan PRB#40 to PRB#47 greater 18 dB and less or equal to 20 dB. calculate Subband 6 downlink SINR postPRB range of subband 6 according to frequency: compensation and the bin is incremented every 5 MHz refers to with PRB#23 sample periodto(5PRB#20 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#30 to PRB#35 number of calculated values where each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent subband 15 and 20 PRB#40 to PRB#47 greater than 20 dB and less than or equal to 22 dB. calculate Subband 6 downlink SINR postPRB range of subband 6 according to frequency: compensation and the bin is incremented every 5 MHz refers to with PRB#23 sample periodto(5PRB#20 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#30 to PRB#35 number of calculated values where each oneCQI is to TTI by using theMHz UE'srefers most to recent subband 15 MHz and 20 PRB#40 to PRB#47 greater than 22 dB and less than or equal to 24 dB. calculate Subband 6 downlink SINR postPRB range of subband 6 according to frequency: compensation and the bin is incremented every 5 MHz refers to with PRB#23 sample periodto(5PRB#20 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#30 to PRB#35 number of calculated values where each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent subband 15 and 20 PRB#40 to PRB#47 greater than 24 dB and less than or equal to 26 dB. calculate Subband 6 downlink SINR postPRB range of subband 6 according to frequency: compensation and the bin is incremented every 5 MHz refers to with PRB#23 sample periodto(5PRB#20 seconds) the respective 10 MHz refers to PRB#30 to PRB#35 number of calculated values where each one is 15 MHzthan and 20 refers PRB#40 to PRB#47 greater 26 MHz dB and lesstothan or equal to 28 dB. PRB range of subband 6 according to frequency: 5 MHz refers to PRB#20 to PRB#23 10 MHz refers to PRB#30 to PRB#35 15 MHz and 20 MHz refers to PRB#40 to PRB#47
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 6 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 6 downlink SINR each one is greater and thanthe 4 dB and post-compensation bin is This measurement is6updated for less than or equal to dB. PRB incremented every sample period each UE every TTI6by using theto (5 range of subband according seconds) with the respective UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 6 downlink SINR 5 MHz refers to PRB#20 todB and each one is greater than 6 post-compensation and the bin is PRB#23 This than measurement is8updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#30 to each UE every TTI6by using theto (5 range of subband according seconds) with the respective PRB#35 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink SINR 5 MHz to MHz PRB#20 todB and each one is greater than 8 PRB#40 to PRB#47 post-compensation and the bin is PRB#23 This measurement is10 updated for less than or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#30 to each UE every TTI6by using theto (5 range of subband according seconds) with the respective PRB#35 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink 5 MHz to MHz PRB#20 to dBSINR each one is greater than 10 and PRB#40 to PRB#47 post-compensation and the binfor is PRB#23 This than measurement is12 updated less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#30 to each UE every TTI6by using theto (5 range of subband according seconds) with the respective PRB#35 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink 5 MHz to MHz PRB#20 to dBSINR each one is greater than 12 and PRB#40 to PRB#47 post-compensation and the binfor is PRB#23 This measurement is14 updated less than or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#30 to each UE every TTI6by using theto (5 range of subband according seconds) with the respective PRB#35 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink 5 MHz to MHz PRB#20 to dBSINR each one is greater than 14 and PRB#40 to PRB#47 post-compensation and the binfor is PRB#23 This than measurement is16 updated less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#30 to each UE every TTI6by using theto (5 range of subband according seconds) with the respective PRB#35 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink 5 MHz to MHz PRB#20 to dBSINR each one is greater than 16 and PRB#40 to PRB#47 post-compensation and the binfor is PRB#23 This measurement is18 updated less than or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#30 to each UE every TTI6by using theto (5 range of subband according seconds) with the respective PRB#35 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink 5 MHz to MHz PRB#20 to dBSINR each one is greater than 18 and PRB#40 to PRB#47 post-compensation and the binfor is PRB#23 This than measurement is20 updated less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#30 to each UE every TTI6by using theto (5 range of subband according seconds) with the respective PRB#35 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink 5 MHz to MHz PRB#20 to dBSINR each one is greater than 20 and PRB#40 to PRB#47 post-compensation and the binfor is PRB#23 This measurement is22 updated less than or equal to dB. PRB incremented every sample period 10 MHz PRB#30 to theto (5 each UE everyto TTI using range of refers subband 6by according seconds) with the respective PRB#35 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink 5 MHz to MHz PRB#20 to dBSINR each one is greater than 22 and PRB#40 to PRB#47 post-compensation and the binfor is PRB#23 This than measurement is24 updated less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#30 to each UE every TTI6by using theto (5 range of subband according seconds) with the respective PRB#35 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink 5 MHz to MHz PRB#20 to dBSINR each one is greater than 24 PRB#40 to PRB#47and the post-compensation bin and is PRB#23 less than or equal to 26 dB. PRB (5 incremented every sample period 10 MHz to PRB#30 to to range of refers subband 6 according seconds) with the respective PRB#35 frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to dB and each onetoisPRB#47 greater than 26 PRB#40 PRB#23 less than or equal to 28 dB. PRB 10 MHz to PRB#30 to to range of refers subband 6 according PRB#35 frequency: 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to PRB#40 to PRB#47 PRB#23
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 6 downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 28 dB and less than or equal to 30 dB. calculate Subband 7 downlink SINR postPRB range of subband 6 according to frequency: compensation and the bin is incremented every 5 MHz refers to with PRB#23 sample periodto(5PRB#20 seconds) the respective This measurement is updated for each UE every 10 MHz refers to PRB#30 to PRB#35 number of calculated values where each oneCQI is to TTI by using the UE's most recent subband 15 MHzthan and 20 MHz refers to PRB#40 tothan PRB#47 greater or equal to -10 dB and less or calculate Subband 7 downlink SINR postequal to -8 dB.and PRBthe range ofincremented subband 7 according compensation bin is every to frequency: sample period (5 seconds) with the respective This measurement is updated for each UE every 5 MHz refers to PRB#24 number of calculated values wheresubband each oneCQI is to TTIMHz by using the UE's mosttorecent 10 refers to PRB#36 PRB#41 greater than -8 dB and less than or equal to -6 dB. calculate Subband 7 downlink SINR post15 MHz and 20subband MHz refers to PRB#48 to PRB#55 PRB range of 7 according to frequency: compensation and the bin is incremented every 5 MHz refers sample periodto(5PRB#24 seconds) withfor the respective This measurement is updated each UE every 10 MHz refers to PRB#36 to where PRB#41 number of calculated values each oneCQI is to TTI by using the UE's most recent subband 15 MHzthan and 20 MHz refers to PRB#48 to PRB#55 greater -6 dB and less than or equal to -4 dB. calculate Subband 7 downlink SINR postPRB range of subband 7 according to frequency: compensation and the bin is incremented every 5 MHz refers sample periodto(5PRB#24 seconds) withfor the respective This measurement is updated each UE every 10 MHz refers to PRB#36 to where PRB#41 number of calculated values each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent subband 15 and 20 PRB#48 to PRB#55 greater than -4 dB and less than or equal to -2 dB. calculate Subband 7 downlink SINR postPRB range of subband 7 according to frequency: compensation and the bin is incremented every 5 MHz refers sample periodto(5PRB#24 seconds) withfor the respective This measurement is updated each UE every 10 MHz refers to PRB#36 to where PRB#41 number of calculated values each oneCQI is to TTI by using the UE's most recent subband 15 MHzthan and 20 MHz refers to PRB#48 to PRB#55 greater -2 dB and less than or equal to 0 dB. calculate Subband 7 downlink SINR postPRB range of subband 7 according to frequency: compensation and the bin is incremented every 5 MHz refers sample periodto(5PRB#24 seconds) withfor the respective This measurement is updated each UE every 10 MHz refers to PRB#36 to where PRB#41 number of calculated values each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent subband 15 and 20 PRB#48 to PRB#55 greater than 0 dB and less than or equal to 2 dB. calculate Subband 7 downlink SINR postPRB range of subband 7 according to frequency: compensation and the bin is incremented every 5 MHz refers to PRB#24 sample period (5 seconds) with the respective This measurement is updated for each UE every 10 MHz refers to PRB#36 to where PRB#41 number of calculated values each oneCQI is to TTI by using the UE's most recent subband 15 MHzthan and 20 MHz refers to PRB#48 toto PRB#55 greater 2 dB and less than or equal 4 dB. calculate Subband 7 downlink SINR postPRB range of subband 7 according to frequency: compensation and the bin is incremented every 5 MHz refers to PRB#24 sample period (5 seconds) with the respective This measurement is updated for each UE every 10 MHz refers to PRB#36 to where PRB#41 number of calculated values each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent subband 15 and 20 PRB#48 toto PRB#55 greater than 4 dB and less than or equal 6 dB. calculate Subband 7 downlink SINR postPRB range of subband 7 according to frequency: compensation and the bin is incremented every 5 MHz refers to PRB#24 sample period (5 seconds) with the respective This measurement is updated for each UE every 10 MHz refers to PRB#36 to where PRB#41 number of calculated values each oneCQI is to TTI by using theMHz UE'srefers most to recent subband 15 MHz and 20 PRB#48 toto PRB#55 greater than 6 dB and less than or equal 8 dB. calculate Subband 7 downlink SINR postPRB range of subband 7 according to frequency: compensation and the bin is incremented every 5 MHz refers to PRB#24 sample period (5 seconds) with the respective This measurement is updated for each UE every 10 MHz refers to PRB#36 to where PRB#41 number of calculated values each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent subband 15 and 20 PRB#48 toto PRB#55 greater than 8 dB and less than or equal 10 dB. calculate Subband 7 downlink SINR postPRB range of subband 7 according to frequency: compensation and the bin is incremented every 5 MHz refers sample periodto(5PRB#24 seconds) with the respective 10 MHz refers to PRB#36 to where PRB#41 number of calculated values each one is 15 MHz and 20 MHz refers to PRB#48 to PRB#55 greater than 10 dB and less than or equal to 12 dB. PRB range of subband 7 according to frequency: 5 MHz refers to PRB#24 10 MHz refers to PRB#36 to PRB#41 15 MHz and 20 MHz refers to PRB#48 to PRB#55
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 6 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 7 downlink SINR each one is greater and thanthe 28 bin dB and post-compensation is This measurement is30 updated for less than or equal to dB.period PRB incremented every sample each UE every TTI6by using theto (5 range of subband according seconds) with the respective UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 7 downlink SINR 5 MHz refers to PRB#20 to equal each one is greater than or post-compensation and the bin is to PRB#23 ThisdB measurement is or updated for -10 and less than equal to -8 incremented every sample period 10 MHz to PRB#30 to each UErefers every TTI by using the (5 dB. PRB range of subband 7 seconds) the subband respective PRB#35 UE's mostwith recent CQI to according to frequency: number of calculated valuestowhere 15 MHzrefers and 20 MHz refers calculate Subband 7 downlink SINR 5 MHz to PRB#24 each onetoisPRB#47 greater and thanthe -8 dB and PRB#40 post-compensation bin is 10 MHz refers to PRB#36 toPRB This measurement is-6 updated for less than or equal to dB. incremented every sample period PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values PRB#48 to PRB#55 calculate Subband 7 downlinkwhere SINR 5 MHzone refers to PRB#24 each is greater thanthe -6 dB and post-compensation and bin is 10 MHz refers to PRB#36 to This than measurement is-4 updated for less or equal to dB. PRB incremented every sample period PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7 downlink SINR 5 MHzone refers to PRB#24 each is greater thanthe -4 dB and post-compensation and bin is 10 MHz refers to PRB#36 toPRB This measurement is-2 updated for less than or equal to dB. incremented every sample period PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values PRB#48 to PRB#55 calculate Subband 7 downlinkwhere SINR 5 MHzone refers to PRB#24 each is greater thanthe -2 dB and post-compensation and bin is 10 MHz refers to PRB#36 to This than measurement is0updated for less or equal to dB. PRB incremented every sample period PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7 downlink SINR 5 MHzone refers to PRB#24 each is greater thanthe 0 dB and post-compensation and bin is 10 MHz refers to PRB#36 This measurement is2updated for less than or equal to dB. to PRB incremented every sample period PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values PRB#48 to PRB#55 calculate Subband 7 downlinkwhere SINR 5 MHzone refers to PRB#24 each is greater thanthe 2 dB and post-compensation and bin is 10 MHz refers to PRB#36 to This than measurement is4updated for less or equal to dB. PRB incremented every sample period PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7 downlink SINR 5 MHzone refers to PRB#24 each is greater thanthe 4 dB and post-compensation and bin is 10 MHz refers to PRB#36 This measurement is6updated for less than or equal to dB. to PRB incremented every sample period PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values PRB#48 to PRB#55 calculate Subband 7 downlinkwhere SINR 5 MHzone refers to PRB#24 each is greater thanthe 6 dB and post-compensation and bin is 10 MHz refers to PRB#36 to This than measurement is8updated for less or equal to dB. PRB incremented every sample period PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values PRB#48 to PRB#55 calculate Subband 7 downlinkwhere SINR 5 MHzone refers to PRB#24 each is greater thanthe 8 dB post-compensation and binand is 10 MHz refers to PRB#36 to less than or equal to 10 dB.period PRB (5 incremented every sample PRB#41 range of subband 7 according to seconds) with20the respective 15 MHz and MHz refers to frequency: number of calculated values where PRB#48 to PRB#55 5 MHzone refers to PRB#24 each is greater than 10 dB and 10 to PRB#36 toPRB lessMHz thanrefers or equal to 12 dB. PRB#41 range of subband 7 according to 15 MHz and 20 MHz refers to frequency: PRB#48 to PRB#55 5 MHz refers to PRB#24 10 MHz refers to PRB#36 to
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 7 downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 12 dB and less than or equal to 14 dB. calculate Subband 7 downlink SINR postPRB range of subband 7 according to frequency: compensation and the bin is incremented every 5 MHz refers sample periodto(5PRB#24 seconds) withfor the respective This measurement is updated each UE every 10 MHz refers to PRB#36 to where PRB#41 number of calculated values each oneCQI is to TTI by using the UE's most recent subband 15 MHzthan and 20 MHz refers tothan PRB#48 to PRB#55 greater 14 dB and less or equal to 16 dB. calculate Subband 7 downlink SINR postPRB range of subband 7 according to frequency: compensation and the bin is incremented every 5 MHz refers sample periodto(5PRB#24 seconds) withfor the respective This measurement is updated each UE every 10 MHz refers to PRB#36 to where PRB#41 number of calculated values each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent subband 15 and 20 PRB#48 to PRB#55 greater than 16 dB and less than or equal to 18 dB. calculate Subband 7 downlink SINR postPRB range of subband 7 according to frequency: compensation and the bin is incremented every 5 MHz refers sample periodto(5PRB#24 seconds) withfor the respective This measurement is updated each UE every 10 MHz refers to PRB#36 to where PRB#41 number of calculated values each oneCQI is to TTI by using the UE's most recent subband 15 MHzthan and 20 MHz refers tothan PRB#48 to PRB#55 greater 18 dB and less or equal to 20 dB. calculate Subband 7 downlink SINR postPRB range of subband 7 according to frequency: compensation and the bin is incremented every 5 MHz refers sample periodto(5PRB#24 seconds) withfor the respective This measurement is updated each UE every 10 MHz refers to PRB#36 to where PRB#41 number of calculated values each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent subband 15 and 20 PRB#48 to PRB#55 greater than 20 dB and less than or equal to 22 dB. calculate Subband 7 downlink SINR postPRB range of subband 7 according to frequency: compensation and the bin is incremented every 5 MHz refers sample periodto(5PRB#24 seconds) withfor the respective This measurement is updated each UE every 10 MHz refers to PRB#36 to where PRB#41 number of calculated values each oneCQI is to TTI by using the UE's most recent subband 15 MHzthan and 20 MHz refers tothan PRB#48 to PRB#55 greater 22 dB and less or equal to 24 dB. calculate Subband 7 downlink SINR postPRB range of subband 7 according to frequency: compensation and the bin is incremented every 5 MHz refers sample periodto(5PRB#24 seconds) withfor the respective This measurement is updated each UE every 10 MHz refers to PRB#36 to where PRB#41 number of calculated values each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent subband 15 and 20 PRB#48 to PRB#55 greater than 24 dB and less than or equal to 26 dB. calculate Subband 7 downlink SINR postPRB range of subband 7 according to frequency: compensation and the bin is incremented every 5 MHz refers sample periodto(5PRB#24 seconds) withfor the respective This measurement is updated each UE every 10 MHz refers to PRB#36 to where PRB#41 number of calculated values each oneCQI is to TTI by using the UE's most recent subband 15 MHzthan and 20 MHz refers tothan PRB#48 to PRB#55 greater 26 dB and less or equal to 28 dB. calculate Subband 7 downlink SINR postPRB range of subband 7 according to frequency: compensation and the bin is incremented every 5 MHz refers sample periodto(5PRB#24 seconds) withfor the respective This measurement is updated each UE every 10 MHz refers to PRB#36 to where PRB#41 number of calculated values each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent subband 15 and 20 PRB#48 to PRB#55 greater than 28 dB and less than or equal to 30 dB. calculate Subband 8 downlink SINR postPRB range of subband 7 according to frequency: compensation and the bin is incremented every 5 MHz refers sample periodto(5PRB#24 seconds) withfor the respective This measurement is updated each UE every 10 MHz refers to PRB#36 to where PRB#41 number of calculated values each oneCQI is to TTI by using theMHz UE'srefers most to recent subband 15 MHz and 20 PRB#48 to PRB#55 greater than or equal to -10 dB and less than or calculate Subband 8 downlink SINR postequal to -8 dB.and PRBthe range ofincremented subband 8 according compensation bin is every to frequency: sample period (5 seconds) with the respective This measurement is updated for each UE every 10 MHz refers to PRB#42 to where PRB#47 number of calculated values each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent subband 15 and 20 PRB#56 to PRB#63 greater than -8 dB and less than or equal to -6 dB. calculate Subband 8 downlink SINR postPRB range of subband 8 according to frequency: compensation and the bin is incremented every 10 MHz period refers to PRB#47 sample (5 PRB#42 seconds)towith the respective 15 MHz and 20 MHz refers to PRB#56 toone PRB#63 number of calculated values where each is
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 7 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 7 downlink SINR each one is greater and thanthe 12 bin dB and post-compensation is This measurement is14 updated for less than or equal to dB.period PRB incremented every sample each UE every TTI7by using theto (5 range of subband according seconds) with the respective UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 7 downlink SINR 5 MHz refers to PRB#24 each one is greater than 14 bin dB and post-compensation and the is 10 MHz refers to PRB#36 to This than measurement is16 updated for less or equal to dB.period PRB incremented every sample PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers CQI to to UE's most recent subband frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7 downlink SINR 5 MHzone refers to PRB#24 each is greater thanthe 16 bin dB and post-compensation and is 10 MHz refers to PRB#36 toPRB This measurement is18 updated for less than or equal to dB. incremented every sample period PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values PRB#48 to PRB#55 calculate Subband 7 downlinkwhere SINR 5 MHzone refers to PRB#24 each is greater thanthe 18 bin dB and post-compensation and is 10 MHz refers to PRB#36 to This than measurement is20 updated for less or equal to dB.period PRB incremented every sample PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7 downlink SINR 5 MHzone refers to PRB#24 each is greater thanthe 20 bin dB and post-compensation and is 10 MHz refers to PRB#36 toPRB This measurement is22 updated for less than or equal to dB. incremented every sample period PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values PRB#48 to PRB#55 calculate Subband 7 downlinkwhere SINR 5 MHzone refers to PRB#24 each is greater thanthe 22 bin dB and post-compensation and is 10 MHz refers to PRB#36 to This than measurement is24 updated for less or equal to dB.period PRB incremented every sample PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7 downlink SINR 5 MHzone refers to PRB#24 each is greater thanthe 24 bin dB and post-compensation and is 10 MHz refers to PRB#36 toPRB This measurement is26 updated for less than or equal to dB. incremented every sample period PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values PRB#48 to PRB#55 calculate Subband 7 downlinkwhere SINR 5 MHzone refers to PRB#24 each is greater thanthe 26 bin dB and post-compensation and is 10 MHz refers to PRB#36 to This than measurement is28 updated for less or equal to dB.period PRB incremented every sample PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 8 downlink SINR 5 MHzone refers to PRB#24 each is greater thanthe 28 bin dB and post-compensation and is 10 MHz refers to PRB#36 toPRB This measurement is30 updated for less than or equal to dB. incremented every sample period PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values PRB#48 to PRB#55 calculate Subband 8 downlinkwhere SINR 5 MHzone refers to PRB#24 each is greater thanthe or equal post-compensation and bin is to 10 MHz refers to PRB#36 to ThisdB measurement is or updated for -10 and less than equal to -8 incremented every sample PRB#41 eachPRB UE range every TTI by usingperiod the (5 dB. of subband 8 seconds) with the respective 15 MHz and 20 MHz refers CQI to to UE's most recent subband according to frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 8 downlink 10 MHz refers to PRB#42 todB SINR each one is greater than -8 post-compensation and the bin and is PRB#47 less than or equal to -6 dB. period PRB (5 incremented every sample 15 MHz 20 MHz refers to to of and subband 8 according greater than -6 dB and less than or equal to -4 dB. range seconds) with the respective PRB#56 to PRB#63 frequency: PRB range of subband 8 according to frequency: number of calculated values where 10 MHz to PRB#42 10 MHz refers to PRB#42 to PRB#47 each onerefers is greater than -6todB and PRB#47 15 MHz and 20 MHz refers to PRB#56 to PRB#63 less than or equal to -4 dB. PRB 15 MHz 20 MHz refers to to range of and subband 8 according PRB#56 to PRB#63 frequency: 10 MHz refers to PRB#42 to PRB#47
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 8 downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than -4 dB and less than or equal to -2 dB. calculate Subband 8 downlink SINR postPRB range of subband 8 according to frequency: compensation and the bin is incremented every 10 MHz period refers to towith PRB#47 sample (5 PRB#42 seconds) the respective This measurement is refers updated for each UEPRB#63 every 15 MHz and 20 MHz to PRB#56 to number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than -2 dB and less than or equal to 0 dB. calculate Subband 8 downlink SINR postPRB range of subband 8 according to frequency: compensation and the bin is incremented every 10 MHz period refers to towith PRB#47 sample (5 PRB#42 seconds) the respective This measurement is refers updated for each UEPRB#63 every 15 MHz and 20 MHz to PRB#56 to number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 0 dB and less than or equal to 2 dB. calculate Subband 8 downlink SINR postPRB range of subband 8 according to frequency: compensation and the bin is incremented every 10 MHz refers to PRB#42 to PRB#47 sample period (5 seconds) with the respective This measurement is refers updated for each to UEPRB#63 every 15 MHz and 20 MHz towhere PRB#56 number of calculated each one is to TTI by using the UE's values most recent subband CQI greater than 2 dB and less than or equal to 4 dB. calculate Subband 8 downlink SINR postPRB range of subband 8 according to frequency: compensation and the bin is incremented every 10 MHz refers to PRB#42 to PRB#47 sample period (5 seconds) with the respective This measurement is refers updated for each to UEPRB#63 every 15 MHz and 20 MHz towhere PRB#56 number of calculated each one is to TTI by using the UE's values most recent subband CQI greater than 4 dB and less than or equal to 6 dB. calculate Subband 8 downlink SINR postPRB range of subband 8 according to frequency: compensation and the bin is incremented every 10 MHz refers to PRB#42 to PRB#47 sample period (5 seconds) with the respective This measurement is refers updated for each to UEPRB#63 every 15 MHz and 20 MHz towhere PRB#56 number of calculated each one is to TTI by using the UE's values most recent subband CQI greater than 6 dB and less than or equal to 8 dB. calculate Subband 8 downlink SINR postPRB range of subband 8 according to frequency: compensation and the bin is incremented every 10 MHz refers to PRB#42 to PRB#47 sample period (5 seconds) with the respective This measurement is refers updated for each to UEPRB#63 every 15 MHz and 20 MHz towhere PRB#56 number of calculated each one is to TTI by using the UE's values most recent subband CQI greater than 8 dB and less than or equal to 10 dB. calculate Subband 8 downlink SINR postPRB range of subband 8 according to frequency: compensation and the bin is incremented every 10 MHz period refers to towith PRB#47 sample (5 PRB#42 seconds) the respective This measurement is refers updated for each UEPRB#63 every 15 MHz and 20 MHz to PRB#56 to number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 10 dB and less than or equal to 12 dB. calculate Subband 8 downlink SINR postPRB range of subband 8 according to frequency: compensation and the bin is incremented every 10 MHz period refers to towith PRB#47 sample (5 PRB#42 seconds) the respective This measurement is refers updated for each UEPRB#63 every 15 MHz and 20 MHz to PRB#56 to number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 12 dB and less than or equal to 14 dB. calculate Subband 8 downlink SINR postPRB range of subband 8 according to frequency: compensation and the bin is incremented every 10 MHz period refers to towith PRB#47 sample (5 PRB#42 seconds) the respective This measurement is refers updated for each UEPRB#63 every 15 MHz and 20 MHz to PRB#56 to number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 14 dB and less than or equal to 16 dB. calculate Subband 8 downlink SINR postPRB range of subband 8 according to frequency: compensation and the bin is incremented every 10 MHz period refers to towith PRB#47 sample (5 PRB#42 seconds) the respective This measurement is refers updated for each UEPRB#63 every 15 MHz and 20 MHz to PRB#56 to number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 16 dB and less than or equal to 18 dB. calculate Subband 8 downlink SINR postPRB range of subband 8 according to frequency: compensation and the bin is incremented every 10 MHz period refers to PRB#47 sample (5 PRB#42 seconds)towith the respective 15 MHz and 20 MHz refers to PRB#56 toone PRB#63 number of calculated values where each is
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 8 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 8 downlink SINR each one is greater and thanthe -4 dB and post-compensation bin is This measurement is-2 updated for less than or equal to dB. PRB incremented every sample period each UE every TTI8by using theto (5 range of subband according seconds) with the respective UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 8 downlink SINR 10 MHz refers to PRB#42 each one is greater than -2todB and post-compensation and the bin is PRB#47 This than measurement is0updated for less or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI8by using theto (5 range of subband according seconds) with the respective PRB#56 torecent PRB#63 UE's most subband CQI to frequency: number ofSubband calculated values where calculate 8 downlink SINR 10 MHz refers to PRB#42 each one is greater than 0 to dB and post-compensation and the bin is PRB#47 This measurement is2updated for less than or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI8by using theto (5 range of subband according seconds) with the respective PRB#56 to PRB#63 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 8 downlink SINR 10 MHz refers to PRB#42 each one is greater than 2 to dB and post-compensation and the bin is PRB#47 This than measurement is4updated for less or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI8by using theto (5 range of subband according seconds) with the respective PRB#56 to PRB#63 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 8 downlink SINR 10 MHz refers to PRB#42 each one is greater than 4 to dB and post-compensation and the bin is PRB#47 This measurement is6updated for less than or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI8by using theto (5 range of subband according seconds) with the respective PRB#56 to PRB#63 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 8 downlink SINR 10 MHz refers to PRB#42 each one is greater than 6 to dB and post-compensation and the bin is PRB#47 This than measurement is8updated for less or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI8by using theto (5 range of subband according seconds) with the respective PRB#56 to PRB#63 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 8 downlink SINR 10 MHz refers to PRB#42 each one is greater than 8 to dB and post-compensation and the bin is PRB#47 This measurement is10 updated for less than or equal to dB.period PRB incremented every sample 15 MHz and 20 MHz refers to each UE every TTI8by using theto (5 range of subband according seconds) with the respective PRB#56 to PRB#63 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 8 downlink 10 MHz refers to PRB#42 todBSINR each one is greater than 10 and post-compensation and the binfor is PRB#47 This than measurement is12 updated less or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI8by using theto (5 range of subband according seconds) with the respective PRB#56 to PRB#63 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 8 downlink 10 MHz refers to PRB#42 todBSINR each one is greater than 12 and post-compensation and the binfor is PRB#47 This measurement is14 updated less than or equal to dB. PRB incremented every sample period 15 MHz 20 TTI MHz refers each UE every usingtotheto (5 range of and subband 8by according seconds) with the respective PRB#56 to PRB#63 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 8 downlink 10 MHz refers to PRB#42 todBSINR each one is greater than 14 and post-compensation and the binfor is PRB#47 This than measurement is16 updated less or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI8by using theto (5 range of subband according seconds) with the respective PRB#56 to PRB#63 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 8 downlink 10 MHz refers to PRB#42 todBSINR each one is greater than 16 post-compensation and the bin and is PRB#47 less than or equal to 18 dB. PRB (5 incremented every sample period 15 MHz 20 MHz refers to to of and subband 8 according greater than 18 dB and less than or equal to 20 dB. range seconds) with the respective PRB#56 to PRB#63 frequency: PRB range of subband 8 according to frequency: number of calculated values where 10 MHz to PRB#42 todB and 10 MHz refers to PRB#42 to PRB#47 each onerefers is greater than 18 PRB#47 15 MHz and 20 MHz refers to PRB#56 to PRB#63 less than or equal to 20 dB. PRB 15 MHz 20 MHz refers to to range of and subband 8 according PRB#56 to PRB#63 frequency: 10 MHz refers to PRB#42 to PRB#47
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 8 downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 20 dB and less than or equal to 22 dB. calculate Subband 8 downlink SINR postPRB range of subband 8 according to frequency: compensation and the bin is incremented every 10 MHz period refers to towith PRB#47 sample (5 PRB#42 seconds) the respective This measurement is refers updated for each UEPRB#63 every 15 MHz and 20 MHz to PRB#56 to number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 22 dB and less than or equal to 24 dB. calculate Subband 8 downlink SINR postPRB range of subband 8 according to frequency: compensation and the bin is incremented every 10 MHz period refers to towith PRB#47 sample (5 PRB#42 seconds) the respective This measurement is refers updated for each UEPRB#63 every 15 MHz and 20 MHz to PRB#56 to number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 24 dB and less than or equal to 26 dB. calculate Subband 8 downlink SINR postPRB range of subband 8 according to frequency: compensation and the bin is incremented every 10 MHz period refers to towith PRB#47 sample (5 PRB#42 seconds) the respective This measurement is refers updated for each UEPRB#63 every 15 MHz and 20 MHz to PRB#56 to number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 26 dB and less than or equal to 28 dB. calculate Subband 8 downlink SINR postPRB range of subband 8 according to frequency: compensation and the bin is incremented every 10 MHz period refers to towith PRB#47 sample (5 PRB#42 seconds) the respective This measurement is refers updated for each UEPRB#63 every 15 MHz and 20 MHz to PRB#56 to number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 28 dB and less than or equal to 30 dB. calculate Subband 9 downlink SINR postPRB range of subband 8 according to frequency: compensation and the bin is incremented every 10 MHz period refers to towith PRB#47 sample (5 PRB#42 seconds) the respective This measurement is refers updated for each UEPRB#63 every 15 MHz and 20 MHz to PRB#56 to number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than or equal to -10 dB and less than or calculate Subband 9 downlink SINR postequal to -8 dB.and PRBthe range ofincremented subband 9 according compensation bin is every to frequency: sample period (5 seconds) with the respective This measurement is updated for each UE every 10 MHz refers to PRB#48 to where PRB#49 number of calculated values each oneCQI is to TTIMHz by using theMHz UE'srefers most to recent subband 15 and 20 PRB#64 to PRB#71 greater than -8 dB and less than or equal to -6 dB. calculate Subband 9 downlink SINR postPRB range of subband 9 according to frequency: compensation and the bin is incremented every 10 MHz period refers to towith PRB#49 sample (5 PRB#48 seconds) the respective This measurement is refers updated for each UEPRB#71 every 15 MHz and 20 MHz to PRB#64 to number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than -6 dB and less than or equal to -4 dB. calculate Subband 9 downlink SINR postPRB range of subband 9 according to frequency: compensation and the bin is incremented every 10 MHz period refers to towith PRB#49 sample (5 PRB#48 seconds) the respective This measurement is refers updated for each UEPRB#71 every 15 MHz and 20 MHz to PRB#64 to number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than -4 dB and less than or equal to -2 dB. calculate Subband 9 downlink SINR postPRB range of subband 9 according to frequency: compensation and the bin is incremented every 10 MHz period refers to towith PRB#49 sample (5 PRB#48 seconds) the respective This measurement is refers updated for each UEPRB#71 every 15 MHz and 20 MHz to PRB#64 to number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than -2 dB and less than or equal to 0 dB. calculate Subband 9 downlink SINR postPRB range of subband 9 according to frequency: compensation and the bin is incremented every 10 MHz period refers to towith PRB#49 sample (5 PRB#48 seconds) the respective This measurement is refers updated for each UEPRB#71 every 15 MHz and 20 MHz to PRB#64 to number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 0 dB and less than or equal to 2 dB. calculate Subband 9 downlink SINR postPRB range of subband 9 according to frequency: compensation and the bin is incremented every 10 MHz refers to PRB#48 to PRB#49 sample period (5 seconds) with the respective 15 MHz of and 20 MHz refers PRB#64 toone PRB#71 number calculated valuestowhere each is greater than 2 dB and less than or equal to 4 dB. PRB range of subband 9 according to frequency: 10 MHz refers to PRB#48 to PRB#49 15 MHz and 20 MHz refers to PRB#64 to PRB#71
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 8 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 8 downlink SINR each one is greater and thanthe 20 bin dB and post-compensation is This measurement is22 updated for less than or equal to dB.period PRB incremented every sample each UE every TTI8by using theto (5 range of subband according seconds) with the respective UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 8 downlink 10 MHz refers to PRB#42 todBSINR each one is greater than 22 and post-compensation and the binfor is PRB#47 This than measurement is24 updated less or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI8by using theto (5 range of subband according seconds) with the respective PRB#56 torecent PRB#63 UE's most subband CQI to frequency: number ofSubband calculated values where calculate 8 downlink 10 MHz refers to PRB#42 todBSINR each one is greater than 24 and post-compensation and the binfor is PRB#47 This measurement is26 updated less than or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI8by using theto (5 range of subband according seconds) with the respective PRB#56 to PRB#63 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 8 downlink 10 MHz refers to PRB#42 todBSINR each one is greater than 26 and post-compensation and the binfor is PRB#47 This than measurement is28 updated less or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI8by using theto (5 range of subband according seconds) with the respective PRB#56 to PRB#63 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink 10 MHz refers to PRB#42 todBSINR each one is greater than 28 and post-compensation and the binfor is PRB#47 This measurement is30 updated less than or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI8by using theto (5 range of subband according seconds) with the respective PRB#56 to PRB#63 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink SINR 10 MHz refers to PRB#42 each one is greater than ortoequal post-compensation and the bin is to PRB#47 ThisdB measurement is or updated for -10 and less than equal to -8 incremented every sample 15 MHz 20 MHz tothe (5 each UEand every TTI byrefers usingperiod dB. PRB range of subband 9 seconds) with the subband respective PRB#56 to PRB#63 UE's most recent CQI to according to frequency: number of calculated values where calculate Subband 9 downlink SINR 10 MHz refers to PRB#48 to each one is greater and thanthe -8 dB and post-compensation bin is PRB#49 This measurement is-6 updated for less than or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI9by using theto (5 range of subband according seconds) with the respective PRB#64 to PRB#71 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink SINR 10 MHz refers to PRB#48 each one is greater than -6todB and post-compensation and the bin is PRB#49 This than measurement is-4 updated for less or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI9by using theto (5 range of subband according seconds) with the respective PRB#64 to PRB#71 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink SINR 10 MHz refers to PRB#48 each one is greater than -4todB and post-compensation and the bin is PRB#49 This measurement is-2 updated for less than or equal to dB. PRB incremented every sample period 15 MHz 20 TTI MHz refers each UE every usingtotheto (5 range of and subband 9by according seconds) with the respective PRB#64 to PRB#71 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink SINR 10 MHz refers to PRB#48 each one is greater than -2todB and post-compensation and the bin is PRB#49 This than measurement is0updated for less or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI9by using theto (5 range of subband according seconds) with the respective PRB#64 to PRB#71 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink SINR 10 MHz refers to PRB#48 each one is greater than 0 to dB post-compensation and the binand is PRB#49 less than or equal to 2 dB. PRB incremented every sample period 15 MHz 20 MHz refers to to (5 range of and subband 9 according seconds) with the respective PRB#64 to PRB#71 frequency: number of calculated values where 10 MHz to PRB#48 each onerefers is greater than 2 to dB and PRB#49 less than or equal to 4 dB. PRB 15 MHz 20 MHz refers to to range of and subband 9 according PRB#64 to PRB#71 frequency: 10 MHz refers to PRB#48 to PRB#49
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 9 downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 4 dB and less than or equal to 6 dB. calculate Subband 9 downlink SINR postPRB range of subband 9 according to frequency: compensation and the bin is incremented every 10 MHz refers to PRB#48 to PRB#49 sample period (5 seconds) with the respective This measurement is refers updated for each to UEPRB#71 every 15 MHz and 20 MHz towhere PRB#64 number of calculated each one is to TTI by using the UE's values most recent subband CQI greater than 6 dB and less than or equal to 8 dB. calculate Subband 9 downlink SINR postPRB range of subband 9 according to frequency: compensation and the bin is incremented every 10 MHz refers to PRB#48 to PRB#49 sample period (5 seconds) with the respective This measurement is refers updated for each to UEPRB#71 every 15 MHz and 20 MHz towhere PRB#64 number of calculated each one is to TTI by using the UE's values most recent subband CQI greater than 8 dB and less than or equal to 10 dB. calculate Subband 9 downlink SINR postPRB range of subband 9 according to frequency: compensation and the bin is incremented every 10 MHz period refers to towith PRB#49 sample (5 PRB#48 seconds) the respective This measurement is refers updated for each UEPRB#71 every 15 MHz and 20 MHz to PRB#64 to number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 10 dB and less than or equal to 12 dB. calculate Subband 9 downlink SINR postPRB range of subband 9 according to frequency: compensation and the bin is incremented every 10 MHz period refers to towith PRB#49 sample (5 PRB#48 seconds) the respective This measurement is refers updated for each UEPRB#71 every 15 MHz and 20 MHz to PRB#64 to number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 12 dB and less than or equal to 14 dB. calculate Subband 9 downlink SINR postPRB range of subband 9 according to frequency: compensation and the bin is incremented every 10 MHz period refers to towith PRB#49 sample (5 PRB#48 seconds) the respective This measurement is refers updated for each UEPRB#71 every 15 MHz and 20 MHz to PRB#64 to number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 14 dB and less than or equal to 16 dB. calculate Subband 9 downlink SINR postPRB range of subband 9 according to frequency: compensation and the bin is incremented every 10 MHz period refers to towith PRB#49 sample (5 PRB#48 seconds) the respective This measurement is refers updated for each UEPRB#71 every 15 MHz and 20 MHz to PRB#64 to number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 16 dB and less than or equal to 18 dB. calculate Subband 9 downlink SINR postPRB range of subband 9 according to frequency: compensation and the bin is incremented every 10 MHz period refers to towith PRB#49 sample (5 PRB#48 seconds) the respective This measurement is refers updated for each UEPRB#71 every 15 MHz and 20 MHz to PRB#64 to number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 18 dB and less than or equal to 20 dB. calculate Subband 9 downlink SINR postPRB range of subband 9 according to frequency: compensation and the bin is incremented every 10 MHz period refers to towith PRB#49 sample (5 PRB#48 seconds) the respective This measurement is refers updated for each UEPRB#71 every 15 MHz and 20 MHz to PRB#64 to number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 20 dB and less than or equal to 22 dB. calculate Subband 9 downlink SINR postPRB range of subband 9 according to frequency: compensation and the bin is incremented every 10 MHz period refers to towith PRB#49 sample (5 PRB#48 seconds) the respective This measurement is refers updated for each UEPRB#71 every 15 MHz and 20 MHz to PRB#64 to number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 22 dB and less than or equal to 24 dB. calculate Subband 9 downlink SINR postPRB range of subband 9 according to frequency: compensation and the bin is incremented every 10 MHz period refers to towith PRB#49 sample (5 PRB#48 seconds) the respective This measurement is refers updated for each UEPRB#71 every 15 MHz and 20 MHz to PRB#64 to number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 24 dB and less than or equal to 26 dB. calculate Subband 9 downlink SINR postPRB range of subband 9 according to frequency: compensation and the bin is incremented every 10 MHz period refers to PRB#49 sample (5 PRB#48 seconds)towith the respective 15 MHz and 20 MHz refers to PRB#64 toone PRB#71 number of calculated values where each is
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 9 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 9 downlink SINR each one is greater and thanthe 4 dB and post-compensation bin is This measurement is6updated for less than or equal to dB. PRB incremented every sample period each UE every TTI9by using theto (5 range of subband according seconds) with the respective UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink SINR 10 MHz refers to PRB#48 each one is greater than 6 to dB and post-compensation and the bin is PRB#49 This than measurement is8updated for less or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI9by using theto (5 range of subband according seconds) with the respective PRB#64 torecent PRB#71 UE's most subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink SINR 10 MHz refers to PRB#48 each one is greater than 8 to dB and post-compensation and the bin is PRB#49 This measurement is10 updated for less than or equal to dB.period PRB incremented every sample 15 MHz and 20 MHz refers to each UE every TTI9by using theto (5 range of subband according seconds) with the respective PRB#64 to PRB#71 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink 10 MHz refers to PRB#48 todBSINR each one is greater than 10 and post-compensation and the binfor is PRB#49 This than measurement is12 updated less or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI9by using theto (5 range of subband according seconds) with the respective PRB#64 to PRB#71 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink 10 MHz refers to PRB#48 todBSINR each one is greater than 12 and post-compensation and the binfor is PRB#49 This measurement is14 updated less than or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI9by using theto (5 range of subband according seconds) with the respective PRB#64 to PRB#71 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink 10 MHz refers to PRB#48 todBSINR each one is greater than 14 and post-compensation and the binfor is PRB#49 This than measurement is16 updated less or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI9by using theto (5 range of subband according seconds) with the respective PRB#64 to PRB#71 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink 10 MHz refers to PRB#48 todBSINR each one is greater than 16 and post-compensation and the binfor is PRB#49 This measurement is18 updated less than or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI9by using theto (5 range of subband according seconds) with the respective PRB#64 to PRB#71 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink 10 MHz refers to PRB#48 todBSINR each one is greater than 18 and post-compensation and the binfor is PRB#49 This than measurement is20 updated less or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI9by using theto (5 range of subband according seconds) with the respective PRB#64 to PRB#71 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink 10 MHz refers to PRB#48 todBSINR each one is greater than 20 and post-compensation and the binfor is PRB#49 This measurement is22 updated less than or equal to dB. PRB incremented every sample period 15 MHz 20 TTI MHz refers each UE every usingtotheto (5 range of and subband 9by according seconds) with the respective PRB#64 to PRB#71 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink 10 MHz refers to PRB#48 todBSINR each one is greater than 22 and post-compensation and the binfor is PRB#49 This than measurement is24 updated less or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI9by using theto (5 range of subband according seconds) with the respective PRB#64 to PRB#71 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink 10 MHz refers to PRB#48 todBSINR each one is greater than 24 post-compensation and the bin and is PRB#49 less than or equal to 26 dB. PRB (5 incremented every sample period 15 MHz 20 MHz refers to to of and subband 9 according greater than 26 dB and less than or equal to 28 dB. range seconds) with the respective PRB#64 to PRB#71 frequency: PRB range of subband 9 according to frequency: number of calculated values where 10 MHz to PRB#48 todB and 10 MHz refers to PRB#48 to PRB#49 each onerefers is greater than 26 PRB#49 15 MHz and 20 MHz refers to PRB#64 to PRB#71 less than or equal to 28 dB. PRB 15 MHz 20 MHz refers to to range of and subband 9 according PRB#64 to PRB#71 frequency: 10 MHz refers to PRB#48 to PRB#49
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 9 downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 28 dB and less than or equal to 30 dB. calculate Subband 10 downlink SINR postPRB range of subband 9 according to frequency: compensation and the bin is incremented every 10 MHz period refers to towith PRB#49 sample (5 PRB#48 seconds) the respective This measurement is refers updated for each UEPRB#71 every 15 MHz and 20 MHz to PRB#64 to number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than or equal to -10 dB and less than or calculate Subband 10 downlink SINR postequal to -8 dB.and PRBthe range ofincremented subband 10 every compensation bin is according to frequency: sample period (5 seconds) withfor the respective This measurement is updated each UE every 15 MHz refers to PRB#72 to where PRB#74 number of calculated values each oneCQI is to TTIMHz by using the UE's mosttorecent subband 20 refers to PRB#72 PRB#79 greater than -8 dB and less than or equal to -6 dB. calculate Subband 10 downlink SINR postPRB range of subband 10 according to frequency: compensation and the bin is incremented every 15 MHz period refers to towith PRB#74 sample (5 PRB#72 seconds) the respective This measurement is updated for each UE every 20 MHz refers to PRB#72 to PRB#79 number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than -6 dB and less than or equal to -4 dB. calculate Subband 10 downlink SINR postPRB range of subband 10 according to frequency: compensation and the bin is incremented every 15 MHz period refers to towith PRB#74 sample (5 PRB#72 seconds) the respective This measurement is updated for each UE every 20 MHz refers to PRB#72 to PRB#79 number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than -4 dB and less than or equal to -2 dB. calculate Subband 10 downlink SINR postPRB range of subband 10 according to frequency: compensation and the bin is incremented every 15 MHz period refers to towith PRB#74 sample (5 PRB#72 seconds) the respective This measurement is updated for each UE every 20 MHz refers to PRB#72 to PRB#79 number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than -2 dB and less than or equal to 0 calculate Subband 10 downlink SINR post- dB. PRB range of subband 10 is according to frequency: compensation and the bin incremented every 15 MHz refers to PRB#72 to PRB#74 sample period (5 seconds) with the respective This measurement is updated for each UE every 20 MHz refers to PRB#72 to where PRB#79 number of calculated each oneCQI is to TTI by using the UE's values most recent subband greater than 0 dB and less than or equal to 2 dB. calculate Subband 10 downlink SINR postPRB range of subband 10 is according to frequency: compensation and the bin incremented every 15 MHz refers to PRB#72 to PRB#74 sample period (5 seconds) with the respective This measurement is updated for each UE every 20 MHz refers to PRB#72 to where PRB#79 number of calculated each oneCQI is to TTI by using the UE's values most recent subband greater than 2 dB and less than or equal to 4 dB. calculate Subband 10 downlink SINR postPRB range of subband 10 is according to frequency: compensation and the bin incremented every 15 MHz refers to PRB#72 to PRB#74 sample period (5 seconds) with the respective This measurement is updated for each UE every 20 MHz refers to PRB#72 to where PRB#79 number of calculated each oneCQI is to TTI by using the UE's values most recent subband greater than 4 dB and less than or equal to 6 dB. calculate Subband 10 downlink SINR postPRB range of subband 10 is according to frequency: compensation and the bin incremented every 15 MHz refers to PRB#72 to PRB#74 sample period (5 seconds) with the respective This measurement is updated for each UE every 20 MHz refers to PRB#72 to where PRB#79 number of calculated each oneCQI is to TTI by using the UE's values most recent subband greater than 6 dB and less than or equal to 8 dB. calculate Subband 10 downlink SINR postPRB range of subband 10 is according to frequency: compensation and the bin incremented every 15 MHz refers to PRB#72 to PRB#74 sample period (5 seconds) with the respective This measurement is updated for each UE every 20 MHz refers to PRB#72 to where PRB#79 number of calculated each oneCQI is to TTI by using the UE's values most recent subband greater than 8 dB and less than or equal to 10 dB. calculate Subband 10 downlink SINR postPRB range of subband 10 according to frequency: compensation and the bin is incremented every 15 MHz period refers to PRB#74 sample (5 PRB#72 seconds)towith the respective 20 MHz refers to PRB#72 to PRB#79 number of calculated values where each one is
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 9 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated where calculate Subband 10values downlink each one is greater than 28 dB and SINR post-compensation and the This measurement is30 updated for less than or equal to dB. PRB bin is UE incremented sample each every TTI9every by using theto range of subband according period (5 seconds) with the UE's most recent subband CQI to frequency: respective number of calculate Subband 10calculated downlink 10 MHzwhere refers to PRB#48 to values each one is and greater SINR post-compensation the PRB#49 This measurement isdB updated for than or equal to -10every and less bin is incremented sample 15 MHz and 20 MHz refers to each UEequal everytoTTI by using the than or -8 dB. PRB range period (5 to seconds) with theCQI to PRB#64 PRB#71 UE's most recent subband of subband 10 according to respective number of calculate Subband 10calculated downlink frequency: values where each one is and greater SINR post-compensation the 15 MHz refers to PRB#72 toequal This measurement isthan updated for to than -8 dB and less or bin is incremented every sample PRB#74 each UE every TTI by using the -6 dB. PRB range ofwith subband 10 period (5refers seconds) theto 20 MHz to PRB#72 UE's most recent subband CQI to according to frequency: respective number of PRB#79 calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement isthan updated for to than -6 dB and lessevery or equal bin is incremented sample 20 MHz refers to PRB#72 to each UE every TTIofbysubband using the -4 dB. PRB range 10 period (5 seconds) with theCQI to PRB#79 UE's most recent subband according to frequency: respective number of calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement is updated for to than -4 dB and lessevery than sample or equal bin is incremented 20 MHz refers to PRB#72 to each UE every TTI by using the -2 dB. PRB range ofwith subband period (5 seconds) theCQI10to PRB#79 UE's most recent subband according to frequency: respective number of calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement isthan updated for to than -2 dB and lessevery or equal bin is incremented sample 20 MHz refers to PRB#72 to each UE every TTI by using the 0 dB. PRB range of subband 10 period (5 seconds) with theCQI to PRB#79 UE's most recent subband according to frequency: respective number of calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement is updated for to than 0incremented dB and less every than or equal bin is sample 20 MHz refers to PRB#72 to each UE every TTI by using the 2 dB. PRB range ofwith subband 10 period (5 seconds) theCQI PRB#79 UE's most recent subband to according to frequency: respective number of calculate Subband 10calculated downlink 15 MHz refers to PRB#72 to values where each one is and greater SINR post-compensation the PRB#74 This measurement is updated for to than 2 dB and less than or equal bin is incremented every sample 20 MHz refers to PRB#72 to each UE every TTI by using the 4 dB. PRB range of subband 10 period (5 seconds) with theCQI to PRB#79 UE's most recent subband according to frequency: respective number of calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement is updated for to than 4incremented dB and less every than or equal bin is sample 20 MHz refers to PRB#72 to the each UE every TTI by using 6 dB. PRB range of subband 10 period (5 seconds) with theCQI to PRB#79 UE's most recent subband according to frequency: respective number of calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement is updated for to than 6incremented dB and less every than or equal bin is sample 20 MHz refers to PRB#72 to each UE every TTI by using the 8 dB. PRB range of subband 10 period (5 seconds) with theCQI to PRB#79 UE's most recent subband according to frequency: respective number of calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 than 8incremented dB and less every than or equal to bin is sample 20 MHz refers to PRB#72 to 10 dB. (5 PRB range of subband greater than 10 dB and less than or equal to 12 dB. 10 period seconds) with the PRB#79 frequency: PRB range of subband 10 according to frequency: according respective to number of calculated 15 MHz refers to PRB#72 to 15 MHz refers to PRB#72 to PRB#74 values where each one is greater PRB#74 20 MHz refers to PRB#72 to PRB#79 than 10 dB and less than or equal 20 MHz PRB#72 to to 12 dB.refers PRB to range of subband 10 PRB#79 according to frequency: 15 MHz refers to PRB#72 to PRB#74
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 10 downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 12 dB and less than or equal to 14 db. calculate Subband 10 downlink SINR postPRB range of subband 10 according to frequency: compensation and the bin is incremented every 15 MHz period refers to towith PRB#74 sample (5 PRB#72 seconds) the respective This measurement is updated for each UE every 20 MHz refers to PRB#72 to PRB#79 number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 14 dB and less than or equal to 16 dB. calculate Subband 10 downlink SINR postPRB range of subband 10 according to frequency: compensation and the bin is incremented every 15 MHz period refers to towith PRB#74 sample (5 PRB#72 seconds) the respective This measurement is updated for each UE every 20 MHz refers to PRB#72 to PRB#79 number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 16 dB and less than or equal to 18 dB. calculate Subband 10 downlink SINR postPRB range of subband 10 according to frequency: compensation and the bin is incremented every 15 MHz period refers to towith PRB#74 sample (5 PRB#72 seconds) the respective This measurement is updated for each UE every 20 MHz refers to PRB#72 to PRB#79 number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 18 dB and less than or equal to 20 dB. calculate Subband 10 downlink SINR postPRB range of subband 10 according to frequency: compensation and the bin is incremented every 15 MHz period refers to towith PRB#74 sample (5 PRB#72 seconds) the respective This measurement is updated for each UE every 20 MHz refers to PRB#72 to PRB#79 number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 20 dB and less than or equal to 22 dB. calculate Subband 10 downlink SINR postPRB range of subband 10 according to frequency: compensation and the bin is incremented every 15 MHz period refers to towith PRB#74 sample (5 PRB#72 seconds) the respective This measurement is updated for each UE every 20 MHz refers to PRB#72 to PRB#79 number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 22 dB and less than or equal to 24 dB. calculate Subband 10 downlink SINR postPRB range of subband 10 according to frequency: compensation and the bin is incremented every 15 MHz period refers to towith PRB#74 sample (5 PRB#72 seconds) the respective This measurement is updated for each UE every 20 MHz refers to PRB#72 to PRB#79 number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 24 dB and less than or equal to 26 dB. calculate Subband 10 downlink SINR postPRB range of subband 10 according to frequency: compensation and the bin is incremented every 15 MHz period refers to towith PRB#74 sample (5 PRB#72 seconds) the respective This measurement is updated for each UE every 20 MHz refers to PRB#72 to PRB#79 number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 26 dB and less than or equal to 28 dB. calculate Subband 10 downlink SINR postPRB range of subband 10 according to frequency: compensation and the bin is incremented every 15 MHz period refers to towith PRB#74 sample (5 PRB#72 seconds) the respective This measurement is updated for each UE every 20 MHz refers to PRB#72 to PRB#79 number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 28 dB and less than or equal to 30 dB. calculate Subband 11 downlink SINR postPRB range of subband 10 according to frequency: compensation and the bin is incremented every 15 MHz period refers to towith PRB#74 sample (5 PRB#72 seconds) the respective This measurement is updated for each UE every 20 MHz refers to PRB#72 to PRB#79 number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than or equal to -10 dB and less than or calculate Subband 11 downlink SINR postequal to -8 dB.and Subband 20 MHz refers to compensation the bin11isfor incremented every PRB#80 to PRB#87. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than -8 dB and less than or equal to -6 dB. calculate Subband 11 downlink SINR postSubband 11 for 20 MHz refers to PRB#80 to compensation and the bin is incremented every PRB#87. sample period (5 seconds) with the respective
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 10 downlink SINR post-compensation and the This measurement is updated for bin is incremented every sample each UE every TTI by using the period (5 seconds) with theCQI to UE's most recent subband respective number of calculate Subband 10calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 12 dB and less or equal bin is incremented every sample each UE every TTI by using the to 14 db. range of subband period (5 PRB seconds) with theCQI to10 UE's most recent subband according to frequency: respective number of calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement isthan updated for than 14 dB and lessevery or equal bin is incremented sample 20 MHz refers to PRB#72 to each UE every TTI byofusing the 10 to 16 dB. PRB range subband period (5 seconds) with theCQI to PRB#79 UE's most recent subband according to frequency: respective number of calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement is updated for than 16 dB and lessevery thansample or equal bin is incremented 20 MHz refers to PRB#72 to each UE every TTI by using the to 18 dB. PRB range of subband period (5 seconds) with theCQI to10 PRB#79 UE's most recent subband according to frequency: respective number of calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement isthan updated for than 18 dB and lessevery or equal bin is incremented sample 20 MHz refers to PRB#72 to each UE every TTI byofusing the 10 to 20 dB. PRB range subband period (5 seconds) with theCQI to PRB#79 UE's most recent subband according to frequency: respective number of calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement is updated for than 20 dB and lessevery thansample or equal bin is incremented 20 MHz refers to PRB#72 to each UE every TTI by using the to 22 dB. PRB range of subband period (5 seconds) with theCQI to10 PRB#79 UE's most recent subband according to frequency: respective number of calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement isthan updated for than 22 dB and lessevery or equal bin is incremented sample 20 MHz refers to PRB#72 to each UE every TTI byofusing the 10 to 24 dB. PRB range subband period (5 seconds) with theCQI to PRB#79 UE's most recent subband according to frequency: respective number of calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement is updated for than 24 dB and lessevery thansample or equal bin is incremented 20 MHz refers to PRB#72 to each UE every TTI by using the to 26 dB. PRB range of subband period (5 seconds) with theCQI to10 PRB#79 UE's most recent subband according to frequency: respective number of calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement isthan updated for than 26 dB and lessevery or equal bin is incremented sample 20 MHz refers to PRB#72 to each UE every TTI byofusing the 10 to 28 dB. PRB range subband period (5 seconds) with theCQI to PRB#79 UE's most recent subband according to frequency: respective number of calculate Subband 11 calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement isthan updated for than 28 dB and lessevery or equal bin is incremented sample 20 MHz refers to PRB#72 to the 10 each UE every TTI byofusing to 30 dB. PRB range subband period (5 seconds) with theCQI to PRB#79 UE's most recent subband according to frequency: respective number of calculate Subband 11 calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement isdB updated for than or equal to -10every and less bin is incremented sample 20 MHz refers to PRB#72 to each UEequal everytoTTI by using the 11 than or -8 dB. Subband period (5 seconds)subband with theCQI to PRB#79 UE's for 20most MHzrecent refers toofPRB#80 to respective number calculate Subband 11 calculated downlink PRB#87. values where each one is and greater SINR post-compensation the than -8 dB and less than or equal to number of calculated values where each one is bin is incremented every sample dB. Subband 11 for MHz greater than -6 dB and less than or equal to -4 dB. -6 period (5 seconds) with20 the refers to PRB#80 to PRB#87. Subband 11 for 20 MHz refers to PRB#80 to respective number of calculated PRB#87. values where each one is greater than -6 dB and less than or equal to -4 dB. Subband 11 for 20 MHz refers to PRB#80 to PRB#87.
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 11 downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than -4 dB and less than or equal to -2 dB. calculate Subband 11 downlink SINR postSubband 11 for 20 MHz refers to PRB#80 to compensation and the bin is incremented every PRB#87. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than -2 dB and less than or equal to 0 dB. calculate Subband 11 downlink SINR postSubband 11 for 20 MHz refers to PRB#80 to compensation and the bin is incremented every PRB#87. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 0 dB and less than or equal to 2 dB. calculate Subband 11 downlink SINR postSubband 11 forand 20 MHz refers to PRB#80 every to compensation the bin is incremented PRB#87. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 2 dB and less than or equal to 4 dB. calculate Subband 11 downlink SINR postSubband 11 forand 20 MHz refers to PRB#80 every to compensation the bin is incremented PRB#87. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 4 dB and less than or equal to 6 dB. calculate Subband 11 downlink SINR postSubband 11 forand 20 MHz refers to PRB#80 every to compensation the bin is incremented PRB#87. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 6 dB and less than or equal to 8 dB. calculate Subband 11 downlink SINR postSubband 11 forand 20 MHz refers to PRB#80 every to compensation the bin is incremented PRB#87. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 8 dB and less than or equal to 10 dB. calculate Subband 11 downlink SINR postSubband 11 for 20 MHz refers to PRB#80 to compensation and the bin is incremented every PRB#87. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 10 dB and less than or equal to 12 dB. calculate Subband 11 downlink SINR postSubband 11 for 20 MHz refers to PRB#80 to compensation and the bin is incremented every PRB#87. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 12 dB and less than or equal to 14 db. calculate Subband 11 downlink SINR postSubband 11 for 20 MHz refers to PRB#80 to compensation and the bin is incremented every PRB#87. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 14 dB and less than or equal to 16 dB. calculate Subband 11 downlink SINR postSubband 11 for 20 MHz refers to PRB#80 to compensation and the bin is incremented every PRB#87. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 16 dB and less than or equal to 18 dB. calculate Subband 11 downlink SINR postSubband 11 for 20 MHz refers to PRB#80 to compensation and the bin is incremented every PRB#87. sample period (5 seconds) with the respective
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 11 downlink SINR post-compensation and the This measurement is updated for bin is incremented every sample each UE every TTI by using the period (5 seconds) with theCQI to UE's most recent subband respective number of calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for to than -4 dB and less or equal bin is incremented every sample each UE every TTI by using the -2 dB. Subband 11 for MHz period (5 seconds) with20 the UE's most recent subband CQI to refers to PRB#80 to PRB#87. respective number of calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for to than -2 dB and less or equal bin is incremented every sample each UE every TTI by 20 using the 0 dB. Subband 11 for MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#80 toofPRB#87. respective number calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the This measurement is updated for to than 0 dB and less than or equal bin is incremented every sample each UE every TTI by using the 2 dB. Subband 11 for 20the MHz period (5 seconds) with UE's most recent subband CQI to refers to PRB#80 to PRB#87. respective number of calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the This measurement is updated for to than 2 dB and less than or equal bin is incremented every sample each UE every TTI by 20 using the 4 dB. Subband 11 for MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#80 toofPRB#87. respective number calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the This measurement is updated for to than 4 dB and less than or equal bin is incremented every sample each UE every TTI by using the 6 dB. Subband 11 for 20the MHz period (5 seconds) with UE's most recent subband CQI to refers to PRB#80 to PRB#87. respective number of calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the This measurement is updated for to than 6 dB and less than or equal bin is incremented every sample each UE every TTI by 20 using the 8 dB. Subband 11 for MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#80 toofPRB#87. respective number calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the This measurement is updated for to than 8 dB and less than or equal bin is incremented every sample each UE every TTI by using the 10 dB. (5 Subband 11with for 20 period seconds) theMHz UE's most recent subband CQI to refers to PRB#80 to PRB#87. respective number of calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 10 dB and less or equal bin is incremented every sample each UE every TTI 11 by for using the to 12 dB. Subband 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#80 toofPRB#87. respective number calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 12 dB and less or equal bin is incremented every sample each UE every TTI 11 by for using the to 14 db. Subband 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#80 toofPRB#87. respective number calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 14 dB and less or equal bin is incremented every sample each UE every TTI 11 by for using the to 16 dB. Subband 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#80 toofPRB#87. respective number calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the than 16 dB and less than or equal number of calculated values where each one is bin is incremented every sample 18 dB. Subband with 11 forthe 20 MHz greater than 18 dB and less than or equal to 20 dB. to period (5 seconds) refers to PRB#80 to PRB#87. Subband 11 for 20 MHz refers to PRB#80 to respective number of calculated PRB#87.
values where each one is greater than 18 dB and less than or equal to 20 dB. Subband 11 for 20 MHz refers to PRB#80 to PRB#87.
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 11 downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 20 dB and less than or equal to 22 dB. calculate Subband 11 downlink SINR postSubband 11 for 20 MHz refers to PRB#80 to compensation and the bin is incremented every PRB#87. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 22 dB and less than or equal to 24 dB. calculate Subband 11 downlink SINR postSubband 11 for 20 MHz refers to PRB#80 to compensation and the bin is incremented every PRB#87. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 24 dB and less than or equal to 26 dB. calculate Subband 11 downlink SINR postSubband 11 for 20 MHz refers to PRB#80 to compensation and the bin is incremented every PRB#87. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 26 dB and less than or equal to 28 dB. calculate Subband 11 downlink SINR postSubband 11 for 20 MHz refers to PRB#80 to compensation and the bin is incremented every PRB#87. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 28 dB and less than or equal to 30 dB. calculate Subband 12 downlink SINR postSubband 11 for 20 MHz refers to PRB#80 to compensation and the bin is incremented every PRB#87. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than or equal to -10 dB and less than or calculate Subband 12 downlink SINR postequal to -8 dB.and Subband 20 MHz refers to compensation the bin12isfor incremented every PRB#88 to PRB#95. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than -8 dB and less than or equal to -6 dB. calculate Subband 12 downlink SINR postSubband 12 for 20 MHz refers to PRB#88 to compensation and the bin is incremented every PRB#95. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than -6 dB and less than or equal to -4 dB. calculate Subband 12 downlink SINR postSubband 12 for 20 MHz refers to PRB#88 to compensation and the bin is incremented every PRB#95. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than -4 dB and less than or equal to -2 dB. calculate Subband 12 downlink SINR postSubband 12 for 20 MHz refers to PRB#88 to compensation and the bin is incremented every PRB#95. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than -2 dB and less than or equal to 0 calculate Subband 12 downlink SINR post- dB. Subband 12 forand 20 the MHzbin refers to PRB#88every to compensation is incremented PRB#95. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 0 dB and less than or equal to 2 dB. calculate Subband 12 downlink SINR postSubband 12 forand 20 the MHzbin refers to PRB#88every to compensation is incremented PRB#95. sample period (5 seconds) with the respective number of calculated values where each one is greater than 2 dB and less than or equal to 4 dB. Subband 12 for 20 MHz refers to PRB#88 to PRB#95.
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 11 downlink SINR post-compensation and the This measurement is updated for bin is incremented every sample each UE every TTI by using the period (5 seconds) with theCQI to UE's most recent subband respective number of calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 20 dB and less or equal bin is incremented every sample each UE every TTI by using the to 22 dB. Subband with 11 forthe 20 MHz period (5 seconds) UE's most recent subband CQI to refers to PRB#80 to PRB#87. respective number of calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 22 dB and less or equal bin is incremented every sample each UE every TTI 11 by for using the to 24 dB. Subband 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#80 toofPRB#87. respective number calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 24 dB and less or equal bin is incremented every sample each UE every TTI by using the to 26 dB. Subband with 11 forthe 20 MHz period (5 seconds) UE's most recent subband CQI to refers to PRB#80 to PRB#87. respective number of calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 26 dB and less or equal bin is incremented every sample each UE every TTI 11 by for using the to 28 dB. Subband 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#80 toofPRB#87. respective number calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 28 dB and less or equal bin is incremented every sample each UE every TTI by using the to 30 dB. Subband with 11 forthe 20 MHz period (5 seconds) UE's most recent subband CQI to refers to PRB#80 to PRB#87. respective number of calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement isdB updated for than or equal to -10 and less bin is incremented every sample each or UEequal everytoTTI by using the 12 than -8 dB. Subband period (5 seconds)subband with theCQI to UE's for 20most MHzrecent refers toofPRB#88 to respective number calculate Subband 12calculated downlink PRB#95. values where each one is and greater SINR post-compensation the This measurement isthan updated for to than -8 dB and less or equal bin is incremented every sample each UE every TTI by using the -6 dB. Subband 12 with for 20 MHz period (5 seconds) the UE's most recent subband CQI to refers to PRB#88 to PRB#95. respective number of calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for to than -6 dB and less or equal bin is incremented every sample each UE every TTI by using the -4 dB. Subband 12 for 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#88 toofPRB#95. respective number calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for to than -4 dB and less or equal bin is incremented every sample each UE every TTI by using the -2 dB. Subband 12 for 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#88 toofPRB#95. respective number calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for to than -2 dB and less or equal bin is incremented every sample each UE every TTI by 20 using the 0 dB. Subband 12 for MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#88 toofPRB#95. respective number calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the than 0 dB and less than or equal to bin is incremented every sample 2 dB. Subband 12 for 20the MHz period (5 seconds) with refers to PRB#88 to PRB#95. respective number of calculated values where each one is greater than 2 dB and less than or equal to 4 dB. Subband 12 for 20 MHz refers to PRB#88 to PRB#95.
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 12 downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 4 dB and less than or equal to 6 dB. calculate Subband 12 downlink SINR postSubband 12 forand 20 the MHzbin refers to PRB#88every to compensation is incremented PRB#95. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 6 dB and less than or equal to 8 dB. calculate Subband 12 downlink SINR postSubband 12 forand 20 the MHzbin refers to PRB#88every to compensation is incremented PRB#95. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 8 dB and less than or equal to 10 dB. calculate Subband 12 downlink SINR postSubband 12 for 20 MHz refers to PRB#88 to compensation and the bin is incremented every PRB#95. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 10 dB and less than or equal to 12 dB. calculate Subband 12 downlink SINR postSubband 12 for 20 MHz refers to PRB#88 to compensation and the bin is incremented every PRB#95. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 12 dB and less than or equal to 14 db. calculate Subband 12 downlink SINR postSubband 12 for 20 MHz refers to PRB#88 to compensation and the bin is incremented every PRB#95. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 14 dB and less than or equal to 16 dB. calculate Subband 12 downlink SINR postSubband 12 for 20 MHz refers to PRB#88 to compensation and the bin is incremented every PRB#95. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 16 dB and less than or equal to 18 dB. calculate Subband 12 downlink SINR postSubband 12 for 20 MHz refers to PRB#88 to compensation and the bin is incremented every PRB#95. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 18 dB and less than or equal to 20 dB. calculate Subband 12 downlink SINR postSubband 12 for 20 MHz refers to PRB#88 to compensation and the bin is incremented every PRB#95. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 20 dB and less than or equal to 22 dB. calculate Subband 12 downlink SINR postSubband 12 for 20 MHz refers to PRB#88 to compensation and the bin is incremented every PRB#95. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 22 dB and less than or equal to 24 dB. calculate Subband 12 downlink SINR postSubband 12 for 20 MHz refers to PRB#88 to compensation and the bin is incremented every PRB#95. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 24 dB and less than or equal to 26 dB. calculate Subband 12 downlink SINR postSubband 12 for 20 MHz refers to PRB#88 to compensation and the bin is incremented every PRB#95. sample period (5 seconds) with the respective
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 12 downlink SINR post-compensation and the This measurement is updated for bin is incremented every sample each UE every TTI by using the period (5 seconds) with theCQI to UE's most recent subband respective number of calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement is updated for to than 4 dB and less than or equal bin is incremented every sample each UE every TTI by using the 6 dB. Subband 12 for 20the MHz period (5 seconds) with UE's most recent subband CQI to refers to PRB#88 to PRB#95. respective number of calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement is updated for to than 6 dB and less than or equal bin is incremented every sample each UE every TTI by 20 using the 8 dB. Subband 12 for MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#88 toofPRB#95. respective number calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement is updated for to than 8 dB and less than or equal bin is incremented every sample each UE every TTI by using the 10 dB. (5 Subband 12with for 20 period seconds) theMHz UE's most recent subband CQI to refers to PRB#88 to PRB#95. respective number of calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 10 dB and less or equal bin is incremented every sample each UE every TTI 12 by using the to 12 dB. Subband for 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#88 toofPRB#95. respective number calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 12 dB and less or equal bin is incremented every sample each UE every TTI by using the to 14 db. 12 20 MHz period (5 Subband seconds) withforthe UE's most recent subband CQI to refers to PRB#88 to PRB#95. respective number of calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 14 dB and less or equal bin is incremented every sample each UE every TTI 12 by using the to 16 dB. Subband for 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#88 toofPRB#95. respective number calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 16 dB and less or equal bin is incremented every sample each UE every TTI by using the to 18 dB. Subband with 12 for 20 MHz period (5 seconds) the UE's most recent subband CQI to refers to PRB#88 to PRB#95. respective number of calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 18 dB and less or equal bin is incremented every sample each UE every TTI 12 by using the to 20 dB. Subband for 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#88 toofPRB#95. respective number calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 20 dB and less or equal bin is incremented every sample each UE every TTI 12 by using the to 22 dB. Subband for 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#88 toofPRB#95. respective number calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 22 dB and less or equal bin is incremented every sample each UE every TTI 12 by using the to 24 dB. Subband for 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#88 toofPRB#95. respective number calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the than 24 dB and less than or equal number of calculated values where each one is bin is incremented every sample 26 dB. Subband with 12 for 20 MHz greater than 26 dB and less than or equal to 28 dB. to period (5 seconds) the refers to PRB#88 to PRB#95. Subband 12 for 20 MHz refers to PRB#88 to respective number of calculated PRB#95.
values where each one is greater than 26 dB and less than or equal to 28 dB. Subband 12 for 20 MHz refers to PRB#88 to PRB#95.
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 12 downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 28 dB and less than or equal to 30 dB. calculate Subband 13 downlink SINR postSubband 12 for 20 MHz refers to PRB#88 to compensation and the bin is incremented every PRB#95. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than or equal to -10 dB and less than or calculate Subband 13 downlink SINR postequal to -8 dB.and Subband 20 MHz refers to compensation the bin13isfor incremented every PRB#96 to PRB#99. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than -8 dB and less than or equal to -6 dB. calculate Subband 13 downlink SINR postSubband 13 for 20 MHz refers to PRB#96 to compensation and the bin is incremented every PRB#99. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than -6 dB and less than or equal to -4 dB. calculate Subband 13 downlink SINR postSubband 13 for 20 MHz refers to PRB#96 to compensation and the bin is incremented every PRB#99. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than -4 dB and less than or equal to -2 dB. calculate Subband 13 downlink SINR postSubband 13 for 20 MHz refers to PRB#96 to compensation and the bin is incremented every PRB#99. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than -2 dB and less than or equal to 0 calculate Subband 13 downlink SINR post- dB. Subband 13 forand 20 the MHzbin refers to PRB#96every to compensation is incremented PRB#99. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 0 dB and less than or equal to 2 dB. calculate Subband 13 downlink SINR postSubband 13 forand 20 the MHzbin refers to PRB#96every to compensation is incremented PRB#99. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 2 dB and less than or equal to 4 dB. calculate Subband 13 downlink SINR postSubband 13 forand 20 the MHzbin refers to PRB#96every to compensation is incremented PRB#99. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 4 dB and less than or equal to 6 dB. calculate Subband 13 downlink SINR postSubband 13 forand 20 the MHzbin refers to PRB#96every to compensation is incremented PRB#99. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 6 dB and less than or equal to 8 dB. calculate Subband 13 downlink SINR postSubband 13 forand 20 the MHzbin refers to PRB#96every to compensation is incremented PRB#99. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 8 dB and less than or equal to 10 dB. calculate Subband 13 downlink SINR postSubband 13 for 20 MHz refers to PRB#96 to compensation and the bin is incremented every PRB#99. sample period (5 seconds) with the respective
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 12 downlink SINR post-compensation and the This measurement is updated for bin is incremented every sample each UE every TTI by using the period (5 seconds) with theCQI to UE's most recent subband respective number of calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 28 dB and less or equal bin is incremented every sample each UE every TTI by using the to 30 dB. Subband with 12 for 20 MHz period (5 seconds) the UE's most recent subband CQI to refers to PRB#88 to PRB#95. respective number of calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement isdB updated for than or equal to -10 and less bin is incremented every sample each or UEequal everytoTTI by using the 13 than -8 dB. Subband period (5 seconds)subband with theCQI to UE's for 20most MHzrecent refers toofPRB#96 to respective number calculate Subband 13calculated downlink PRB#99. values where each one is and greater SINR post-compensation the This measurement isthan updated for to than -8 dB and less or equal bin is incremented every sample each UE every TTI by using the -6 dB. Subband 13 with for 20 MHz period (5 seconds) the UE's most recent subband CQI to refers to PRB#96 to PRB#99. respective number of calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for to than -6 dB and less or equal bin is incremented every sample each UE every TTI by using the -4 dB. Subband 13 for 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#96 toofPRB#99. respective number calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for to than -4 dB and less or equal bin is incremented every sample each UE every TTI by using the -2 dB. Subband 13 with for 20 MHz period (5 seconds) the UE's most recent subband CQI to refers to PRB#96 to PRB#99. respective number of calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for to than -2 dB and less or equal bin is incremented every sample each UE every TTI by 20 using the 0 dB. Subband 13 for MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#96 toofPRB#99. respective number calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement is updated for to than 0 dB and less than or equal bin is incremented every sample each UE every TTI by using the 2 dB. Subband 13 for 20the MHz period (5 seconds) with UE's most recent subband CQI to refers to PRB#96 to PRB#99. respective number of calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement is updated for to than 2 dB and less than or equal bin is incremented every sample each UE every TTI by 20 using the 4 dB. Subband 13 for MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#96 toofPRB#99. respective number calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement is updated for to than 4 dB and less than or equal bin is incremented every sample each UE every TTI by 20 using the 6 dB. Subband 13 for MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#96 toofPRB#99. respective number calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement is updated for to than 6 dB and less than or equal bin is incremented every sample each UE every TTI by 20 using the 8 dB. Subband 13 for MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#96 toofPRB#99. respective number calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the than 8 dB and less than or equal to number of calculated values where each one is bin is incremented every sample dB. (5 Subband 13with for 20 greater than 10 dB and less than or equal to 12 dB. 10 period seconds) theMHz refers to PRB#96 to PRB#99. Subband 13 for 20 MHz refers to PRB#96 to respective number of calculated PRB#99.
values where each one is greater than 10 dB and less than or equal to 12 dB. Subband 13 for 20 MHz refers to PRB#96 to PRB#99.
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 13 downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 12 dB and less than or equal to 14 db. calculate Subband 13 downlink SINR postSubband 13 for 20 MHz refers to PRB#96 to compensation and the bin is incremented every PRB#99. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 14 dB and less than or equal to 16 dB. calculate Subband 13 downlink SINR postSubband 13 for 20 MHz refers to PRB#96 to compensation and the bin is incremented every PRB#99. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 16 dB and less than or equal to 18 dB. calculate Subband 13 downlink SINR postSubband 13 for 20 MHz refers to PRB#96 to compensation and the bin is incremented every PRB#99. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 18 dB and less than or equal to 20 dB. calculate Subband 13 downlink SINR postSubband 13 for 20 MHz refers to PRB#96 to compensation and the bin is incremented every PRB#99. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 20 dB and less than or equal to 22 dB. calculate Subband 13 downlink SINR postSubband 13 for 20 MHz refers to PRB#96 to compensation and the bin is incremented every PRB#99. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 22 dB and less than or equal to 24 dB. calculate Subband 13 downlink SINR postSubband 13 for 20 MHz refers to PRB#96 to compensation and the bin is incremented every PRB#99. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 24 dB and less than or equal to 26 dB. calculate Subband 13 downlink SINR postSubband 13 for 20 MHz refers to PRB#96 to compensation and the bin is incremented every PRB#99. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is to TTI by using the UE's most recent subband greater than 26 dB and less than or equal to 28 dB. calculate Subband 13 downlink SINR postSubband 13 for 20 MHz refers to PRB#96 to compensation and the bin is incremented every PRB#99. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQIs is TTI by using the UE's most recent subband greater than 28 dB and less than or equal to 30 (i.e. 2 CQIs or codewords) to calculate SubbanddB. 1 Subband 13 forpost-compensation 20 MHz refers to PRB#96 downlink SINR and thetobin is PRB#99. incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than orto equal to -10Subband dB and 1 (i.e. 2one CQIs codewords) calculate less than or equal to -8 dB. PRB range of downlink SINR post-compensation and thesubband bin is 1 according toevery frequency: incremented sample period (5 seconds) with This measurement is updated for each UE every 3 MHz and 5 MHz refers to PRB#0 tovalues PRB#3 the respective number of calculated where TTIMHz by using the most recent subband CQIs 10 refers to UE's PRB#0 to PRB#5 each is or greater than -8 dBcalculate and less than or 1 (i.e.MHz 2one CQIs codewords) to 15 and 20 MHz refers to PRB#0 to1Subband PRB#7 equal to -6 dB. PRB range of subband according downlink SINR post-compensation and the bin is to frequency: incremented every sample period (5 seconds) with 3 MHz and 5 MHz refers PRB#0 tovalues PRB#3 the respective number of to calculated where 10 MHz refers to PRB#0 to PRB#5 each one is greater than -6 dB and less than or 15 MHz 20PRB MHzrange refersof tosubband PRB#0 to1 PRB#7 equal to and -4 dB. according to frequency: 3 MHz and 5 MHz refers to PRB#0 to PRB#3 10 MHz refers to PRB#0 to PRB#5 15 MHz and 20 MHz refers to PRB#0 to PRB#7
This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 13 downlink SINR post-compensation and the This measurement is updated for bin is incremented every sample each UE every TTI by using the period (5 seconds) with theCQI to UE's most recent subband respective number of calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 12 dB and less or equal bin is incremented every sample each UE every TTI by using the to 14 db. 13 20 MHz period (5 Subband seconds) withforthe UE's most recent subband CQI to refers to PRB#96 to PRB#99. respective number of calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 14 dB and less or equal bin is incremented every sample each UE every TTI 13 by using the to 16 dB. Subband for 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#96 toofPRB#99. respective number calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 16 dB and less or equal bin is incremented every sample each UE every TTI by using the to 18 dB. Subband with 13 for 20 MHz period (5 seconds) the UE's most recent subband CQI to refers to PRB#96 to PRB#99. respective number of calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 18 dB and less or equal bin is incremented every sample each UE every TTI 13 by using the to 20 dB. Subband for 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#96 toofPRB#99. respective number calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 20 dB and less or equal bin is incremented every sample each UE every TTI by using the to 22 dB. Subband with 13 for 20 MHz period (5 seconds) the UE's most recent subband CQI to refers to PRB#96 to PRB#99. respective number of calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 22 dB and less or equal bin is incremented every sample each UE every TTI 13 by using the to 24 dB. Subband for 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#96 toofPRB#99. respective number calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 24 dB and less or equal bin is incremented every sample each UE every TTI by using the to 26 dB. Subband with 13 for 20 MHz period (5 seconds) the UE's most recent subband CQI to refers to PRB#96 to PRB#99. respective number of calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 26 dB and less or equal bin is incremented every sample each UE every TTI 13 by using the to 28 dB. Subband for 20 MHz period (5 seconds) with theCQIs UE's most recent subband refers to PRB#96 toofPRB#99. respective number calculated (i.e. 2 CQIs or codewords) to values where each one is greater calculate Subband 1 downlink SINR This measurement updated for than 28 dB and lessis than or bin equal post-compensation and the is each TTI 13 by using the to 30 UE dB. every Subband for 20 MHz (5 incremented every sample period UE's most recent subband CQIs refers to PRB#96 to PRB#99. seconds) with respective (i.e. 2 CQIs or the codewords) to number ofSubband calculated values where calculate 1is downlink SINR This measurement updated for each one is greater than or equal post-compensation and the bin is to eachdBUE every TTI byorusing the -10 and less than equal to incremented everysubband sample CQIs period-8(5 UE'sPRB mostrange recent dB. of subband 1 seconds) with the respective (i.e. 2 CQIs or codewords) to according to frequency: number ofSubband calculated values where calculate 1 downlink SINR 3 MHzone and 5greater MHz refers to PRB#0 each is than -8 dB and post-compensation and the bin is to PRB#3 less than or equal to -6 dB. PRB incremented every sample period (5 10 MHz refers to PRB#0 to PRB#5 range of subband 1 according to seconds) with20the respective 15 MHz and MHz refers to frequency: number to of PRB#7 calculated values where PRB#0 3 MHzone andis 5greater MHz refers to PRB#0 each than -6 dB and to PRB#3 less than or equal to -4 dB. PRB 10 MHz to PRB#0 to PRB#5 range of refers subband 1 according to 15 MHz and 20 MHz refers to frequency: PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 1 downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than -4to dBcalculate and lessSubband than or 1 (i.e. 2one CQIs codewords) equal to -2 dB. PRB range of subband 1 according downlink SINR post-compensation and the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 3 MHz and 5 MHz refers to PRB#0 tovalues PRB#3 the respective number of calculated where TTI by using the most recent subband CQIs 10 MHz refers to UE's PRB#0 to PRB#5 each is or greater than -2 dBcalculate and lessSubband than or 1 (i.e. 2one CQIs codewords) to 15 MHz and 20 MHz refers to PRB#0 to PRB#7 equal to 0 dB. PRB range of subband 1 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#0 tovalues PRB#3 the respective number of to calculated where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#0 to PRB#5 each one is greater than 0 dB and less than or 1 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#0 to PRB#7 equal to 2 dB. PRB range of subband 1 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#0 tovalues PRB#3 the respective number of to calculated where TTI by using the UE's most recent subband CQIs 10 MHz refers to PRB#0 todB PRB#5 each one is greater than 2 and less than or 1 (i.e. 2 CQIs or codewords) to calculate Subband 15 MHz and 20 MHz refers to PRB#0 to PRB#7 equal to 4 dB. PRB range of subband 1 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#0 tovalues PRB#3 the respective number of to calculated where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#0 to PRB#5 each one is greater than 4 dB and less than or 1 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#0 to PRB#7 equal to 6 dB. PRB range of subband 1 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#0 tovalues PRB#3 the respective number of to calculated where TTI by using the UE's most recent subband CQIs 10 MHz refers to PRB#0 todB PRB#5 each one is greater than 6 and less than or 1 (i.e. 2 CQIs or codewords) to calculate Subband 15 MHz and 20 MHz refers to PRB#0 to PRB#7 equal to 8 dB. PRB range of subband 1 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#0 tovalues PRB#3 the respective number of to calculated where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#0 to PRB#5 each one is greater than 8 dB and less than or 1 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#0 to PRB#7 equal to 10 dB. PRB range of subband 1 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#0 tovalues PRB#3 the respective number of to calculated where TTI by using the UE's most recent subband CQIs 10 MHz refers to PRB#0 to PRB#5 each one is greater than 10 dB and less than or 1 (i.e. 2 CQIs or codewords) to calculate Subband 15 MHz and 20 PRB MHz range refers of to subband PRB#0 to1PRB#7 equal to 12 dB. according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#0 tovalues PRB#3 the respective number of to calculated where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#0 to PRB#5 each one is greater than 12 dB and less than or 1 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#0 to PRB#7 equal to 14 db. PRB range of subband 1 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#0 tovalues PRB#3 the respective number of to calculated where TTI by using the UE's most recent subband CQIs 10 MHz refers to PRB#0 to PRB#5 each one is greater than 14 dB and less than or 1 (i.e. 2 CQIs or codewords) to calculate Subband 15 MHz and 20 PRB MHz range refers of to subband PRB#0 to1PRB#7 equal to 16 dB. according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#0 tovalues PRB#3 the respective number of to calculated where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#0 to PRB#5 each one is greater than 16 dB and less than or 1 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#0 to PRB#7 equal to 18 dB. PRB range of subband 1 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented 3 MHz and 5 MHz refers PRB#0 tovalues PRB#3 the respective number of to calculated where 10 MHz refers to PRB#0 to PRB#5 each one is greater than 18 dB and less than or 15 MHz 20 PRB MHz range refers of to subband PRB#0 to1PRB#7 equal to and 20 dB. according to frequency: 3 MHz and 5 MHz refers to PRB#0 to PRB#3 10 MHz refers to PRB#0 to PRB#5 15 MHz and 20 MHz refers to PRB#0 to PRB#7
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 1is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 1is downlink SINR This measurement updated for each one is greater than -4 dB and post-compensation and the bin each UE every TTItoby-2using theis less than or equal dB. PRB incremented everysubband sample CQIs period (5 UE's most recent range of subband 1 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 1is downlink SINR 3 MHz and 5greater MHz refers to PRB#0 This measurement updated for each one is than -2 dB and post-compensation and the bin to PRB#3 each UE every TTItoby0 using theis less than or equal dB. PRB incremented every sample period (5 10 MHz to PRB#0 to CQIs PRB#5 UE's most recent subband range of refers subband 1 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1 downlink SINR 3 MHz andis5greater MHz refers todB PRB#0 This measurement isthan updated for each one 0 and post-compensation and the bin to PRB#3 each UE every TTItoby2 using theis less than or equal dB. PRB incremented every sample period (5 10 MHz refers to PRB#0 to PRB#5 UE's most recent subband CQIs range of subband 1 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1is downlink SINR 3 MHz and 5greater MHz refers todB PRB#0 This measurement updated for each one is than 2 and post-compensation and the bin to PRB#3 eachthan UE every TTItoby4 using theis less or equal dB. PRB incremented every sample period (5 10 MHz refers to PRB#0 to PRB#5 UE's most recent subband CQIs range of subband 1 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1 downlink SINR 3 MHz andis5greater MHz refers todB PRB#0 This measurement isthan updated for each one 4 and post-compensation and the bin to PRB#3 each UE every TTItoby6 using theis less than or equal dB. PRB incremented every sample period (5 10 MHz refers to PRB#0 to PRB#5 UE's most recent subband CQIs range of subband 1 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1is downlink SINR 3 MHz and 5greater MHz refers todB PRB#0 This measurement updated for each one is than 6 and post-compensation and the bin to PRB#3 eachthan UE every TTItoby8 using theis less or equal dB. PRB incremented every sample period (5 10 MHz refers to PRB#0 to PRB#5 UE's most recent subband CQIs range of subband 1 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1 downlink SINR 3 MHz andis5greater MHz refers todB PRB#0 This measurement isthan updated for each one 8 and post-compensation and the bin to PRB#3 each UE every TTItoby10using theis less than or equal dB.period PRB incremented every sample (5 10 MHz refers to PRB#0 to PRB#5 UE's most recent subband CQIs range of subband 1 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1is downlink SINR 3 MHz and 5greater MHz refers to PRB#0 This measurement updated each one is than 10 dBfor and post-compensation and the bin to PRB#3 eachthan UE every TTItoby12using theis less or equal dB. PRB incremented every sample period (5 10 MHz to PRB#0 to CQIs PRB#5 UE's most recent subband range of refers subband 1 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1 downlink SINR 3 MHz andis5greater MHz refers to PRB#0 This measurement isthan updated each one 12 dBfor and post-compensation and the bin to PRB#3 each UE every TTItoby14using theis less than or equal db. PRB incremented every sample period (5 10 MHz to PRB#0 to CQIs PRB#5 UE's most recent subband range of refers subband 1 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1is downlink SINR 3 MHz and 5greater MHz refers to PRB#0 This measurement updated each one is than 14 dBfor and post-compensation and the bin to PRB#3 eachthan UE every TTItoby16using theis less or equal dB. PRB incremented every sample period (5 10 MHz to PRB#0 to CQIs PRB#5 UE's most recent subband range of refers subband 1 according to seconds) with the respective 15 andor 20codewords) MHz refersto to (i.e.MHz 2 CQIs frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1 downlink SINR 3 MHzone andis5greater MHz refers to PRB#0 each thanthe 16 dB and post-compensation and bin is to PRB#3 less than or equal to 18 dB.period PRB (5 incremented every sample 10 MHz refers to PRB#0 to PRB#5 range of subband 1 according to seconds) with20the respective 15 MHz and MHz refers to frequency: number of PRB#7 calculated values where PRB#0 to 3 MHzone andis5greater MHz refers to PRB#0 each than 18 dB and to PRB#3 less than or equal to 20 dB. PRB 10 MHz to PRB#0 to PRB#5 range of refers subband 1 according to 15 MHz and 20 MHz refers to frequency: PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 1 downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 20todB and lessSubband than or 1 (i.e. 2one CQIs codewords) calculate equal to 22 dB. PRB range of subband 1 according downlink SINR post-compensation and the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 3 MHz and 5 MHz refers to PRB#0 tovalues PRB#3 the respective number of calculated where TTI by using the most recent subband CQIs 10 MHz refers to UE's PRB#0 to PRB#5 each is or greater than 22 dB and less than or 1 (i.e. 2one CQIs codewords) to calculate 15 MHz and 20 MHz refers to PRB#0 toSubband PRB#7 equal to 24 dB. PRB range of subband according downlink SINR post-compensation and 1the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 3 MHz and 5 MHz refers to PRB#0 tovalues PRB#3 the respective number of calculated where TTIMHz by using the most recent subband CQIs 10 refers to UE's PRB#0 to PRB#5 each is or greater than 24 dB and less than or 1 (i.e.MHz 2one CQIs codewords) to calculate 15 and 20 MHz refers to PRB#0 toSubband PRB#7 equal to 26 dB. PRB range of subband according downlink SINR post-compensation and 1the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 3 MHz and 5 MHz refers to PRB#0 tovalues PRB#3 the respective number of calculated where TTI by using the most recent subband CQIs 10 MHz refers to UE's PRB#0 to PRB#5 each is or greater than 26 dB and less than or 1 (i.e. 2one CQIs codewords) to calculate 15 MHz and 20 MHz refers to PRB#0 toSubband PRB#7 equal to 28 dB. PRB range of subband according downlink SINR post-compensation and 1the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 3 MHz and 5 MHz refers to PRB#0 tovalues PRB#3 the respective number of calculated where TTIMHz by using the most recent subband CQIs 10 refers to UE's PRB#0 to PRB#5 each is or greater than 28 dB and less than or 2 (i.e.MHz 2one CQIs codewords) to calculate 15 and 20 MHz refers to PRB#0 toSubband PRB#7 equal to 30 dB. PRB range of subband according downlink SINR post-compensation and 1the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 3 MHz and 5 MHz refers to PRB#0 tovalues PRB#3 the respective number of calculated where TTI by using the most recent subband CQIs 10 MHz refers to UE's PRB#0 to PRB#5 each is or greater than or equal to -10Subband dB and 2 (i.e. 2one CQIs codewords) to calculate 15 MHz and 20 MHz refers to PRB#0 toofPRB#7 less than or equal to -8 dB. PRB range downlink SINR post-compensation and thesubband bin is 2 according toevery frequency: incremented sample period (5 seconds) with This measurement is updated for each UE every 3 MHz and 5 MHz refers to PRB#4 tovalues PRB#7 the respective number of calculated where TTIMHz by using the most recent subband CQIs 10 refers to UE's PRB#6 to PRB#11 each is or greater than -8 dBcalculate and less than or 2 (i.e.MHz 2one CQIs codewords) to 15 and 20 MHz refers to PRB#8 to2Subband PRB#15 equal to -6 dB. PRB range of subband according downlink SINR post-compensation and the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 3 MHz and 5 MHz refers to PRB#4 tovalues PRB#7 the respective number of calculated where TTI by using the most recent subband CQIs 10 MHz refers to UE's PRB#6 to PRB#11 each one is or greater than -6 dBcalculate and less than or 2 (i.e. 2 CQIs codewords) to 15 MHz and 20PRB MHzrange refersof tosubband PRB#8 to2Subband PRB#15 equal to -4 dB. according downlink SINR post-compensation and the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 3 MHz and 5 MHz refers to PRB#4 tovalues PRB#7 the respective number of calculated where TTIMHz by using the most recent subband CQIs 10 refers to UE's PRB#6 to PRB#11 each is or greater than -4 dBcalculate and less than or 2 (i.e.MHz 2one CQIs codewords) to 15 and 20 MHz refers to PRB#8 to2Subband PRB#15 equal to -2 dB. PRB range of subband according downlink SINR post-compensation and the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 3 MHz and 5 MHz refers to PRB#4 tovalues PRB#7 the respective number of calculated where TTI by using the most recent subband CQIs 10 MHz refers to UE's PRB#6 to PRB#11 each one is or greater than -2 dBcalculate and lessSubband than or 2 (i.e. 2 CQIs codewords) to 15 MHz and 20PRB MHzrange refersoftosubband PRB#8 to PRB#15 equal to 0 dB. 2 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#4 tovalues PRB#7 the respective number of to calculated where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#6 to PRB#11 each one is greater than 0 dB and less than or 2 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#8 to PRB#15 equal to 2 dB. PRB range of subband 2 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented 3 MHz and 5 MHz refers PRB#4 tovalues PRB#7 the respective number of to calculated where 10 MHz refers to PRB#6 to PRB#11 each one is greater than 2 dB and less than or 15 MHz 20PRB MHzrange refersoftosubband PRB#8 to PRB#15 equal to and 4 dB. 2 according to frequency: 3 MHz and 5 MHz refers to PRB#4 to PRB#7 10 MHz refers to PRB#6 to PRB#11 15 MHz and 20 MHz refers to PRB#8 to PRB#15
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 1is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 1is downlink SINR This measurement updated each one is greater than 20 bin dBfor and post-compensation and the each UE every TTItoby22using theis less than or equal dB. PRB incremented everysubband sample CQIs period (5 UE's most recent range of subband 1 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 1is downlink SINR 3 MHz and 5greater MHz refers to PRB#0 This measurement updated each one is than 22 dBfor and post-compensation and the bin to PRB#3 each UE every TTItoby24using theis less than or equal dB. PRB incremented every sample period (5 10 MHz to PRB#0 to CQIs PRB#5 UE's most recent subband range of refers subband 1 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1 downlink SINR 3 MHz andis5greater MHz refers to PRB#0 This measurement isthan updated each one 24 dBfor and post-compensation and the bin to PRB#3 each UE every TTItoby26using theis less than or equal dB. PRB incremented every sample period (5 10 MHz to PRB#0 to CQIs PRB#5 UE's most recent subband range of refers subband 1 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1is downlink SINR 3 MHz and 5greater MHz refers to PRB#0 This measurement updated each one is than 26 dBfor and post-compensation and the bin to PRB#3 eachthan UE every TTItoby28using theis less or equal dB. PRB incremented every sample period (5 10 MHz to PRB#0 to CQIs PRB#5 UE's most recent subband range of refers subband 1 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 2 downlink SINR 3 MHz andis5greater MHz refers to PRB#0 This measurement isthan updated each one 28 dBfor and post-compensation and the bin to PRB#3 each UE every TTItoby30using theis less than or equal dB. PRB incremented every sample period (5 10 MHz to PRB#0 to CQIs PRB#5 UE's most recent subband range of refers subband 1 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 2is downlink SINR 3 MHz and 5greater MHz refers to PRB#0 This measurement updated for each one is than or equal post-compensation and the bin is to to PRB#3 eachdBUE every TTI byorusing the -10 and less than equal to -8 incremented every sample period 10 MHz refers toofPRB#0 to CQIs PRB#5(5 UE's most recent subband dB. PRB range subband 2 seconds) with the respective 15 MHz and 20 MHz refersto to (i.e. 2 CQIs or codewords) according to frequency: number of calculated values where PRB#0 to PRB#7 calculate Subband 2 downlink SINR 3 MHz andis5greater MHz refers to PRB#4 This measurement isthan updated for each one -8 dB and post-compensation and the bin to PRB#7 each UE every TTItoby-6using theis less than or equal dB. PRB incremented every sample period (5 10 MHz to PRB#6 to CQIs PRB#11 UE's most recent subband range of refers subband 2 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2is downlink SINR 3 MHz and 5greater MHz refers to PRB#4 This measurement updated for each one is than -6 dB and post-compensation and the bin to PRB#7 eachthan UE every TTItoby-4using theis less or equal dB. PRB incremented every sample period (5 10 MHz to PRB#6 to CQIs PRB#11 UE's most recent subband range of refers subband 2 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2 downlink SINR 3 MHz andis5greater MHz refers to PRB#4 This measurement isthan updated for each one -4 dB and post-compensation and the bin to PRB#7 each UE every TTItoby-2using theis less than or equal dB. PRB incremented every sample period (5 10 MHz to PRB#6 to CQIs PRB#11 UE's most recent subband range of refers subband 2 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2is downlink SINR 3 MHz and 5greater MHz refers to PRB#4 This measurement updated for each one is than -2 dB and post-compensation and the bin to PRB#7 eachthan UE every TTItoby0 using theis less or equal dB. PRB incremented every sample period (5 10 MHz to PRB#6 to CQIs PRB#11 UE's most recent subband range of refers subband 2 according to seconds) with the respective 15 andor 20codewords) MHz refersto to (i.e.MHz 2 CQIs frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2 downlink SINR 3 MHzone andis5greater MHz refers todB PRB#4 each thanthe 0 and post-compensation and bin is to PRB#7 less than or equal to 2 dB. PRB incremented every sample period (5 10 MHz refers to PRB#6 to PRB#11 range of subband 2 according to seconds) with20the respective 15 MHz and MHz refers to frequency: number of PRB#15 calculated values where PRB#8 to 3 MHzone and MHz refers todB PRB#4 each is5greater than 2 and to PRB#7 less than or equal to 4 dB. PRB 10 MHz to PRB#6 to PRB#11 range of refers subband 2 according to 15 MHz and 20 MHz refers to frequency: PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 2 downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 4 dB and less Subband than or 2 (i.e. 2one CQIs codewords) to calculate equal to 6 dB. PRB range of subband 2 according downlink SINR post-compensation and the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 3 MHz and 5 MHz refers to PRB#4 tovalues PRB#7 the respective number of calculated where TTI by using the most recent subband CQIs 10 MHz refers to UE's PRB#6 todB PRB#11 each is or greater than 6 and less Subband than or 2 (i.e. 2one CQIs codewords) to calculate 15 MHz and 20 MHz refers to PRB#8 to PRB#15 equal to 8 dB. PRB range of subband 2 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#4 tovalues PRB#7 the respective number of to calculated where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#6 to PRB#11 each one is greater than 8 dB and less than or 2 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#8 to PRB#15 equal to 10 dB. PRB range of subband 2 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#4 tovalues PRB#7 the respective number of to calculated where TTI by using the UE's most recent subband CQIs 10 MHz refers to PRB#6 to PRB#11 each one is greater than 10 dB and less than or 2 (i.e. 2 CQIs or codewords) to calculate Subband 15 MHz and 20 MHz refers to PRB#8 to PRB#15 equal to 12 dB. PRB range of subband 2 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#4 tovalues PRB#7 the respective number of to calculated where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#6 to PRB#11 each one is greater than 12 dB and less than or 2 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#8 to PRB#15 equal to 14 db. PRB range of subband 2 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#4 tovalues PRB#7 the respective number of to calculated where TTI by using the UE's most recent subband CQIs 10 MHz refers to PRB#6 to PRB#11 each one is greater than 14 dB and less than or 2 (i.e. 2 CQIs or codewords) to calculate Subband 15 MHz and 20 MHz refers to PRB#8 to PRB#15 equal to 16 dB. PRB range of subband 2 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#4 tovalues PRB#7 the respective number of to calculated where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#6 to PRB#11 each one is greater than 16 dB and less than or 2 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#8 to PRB#15 equal to 18 dB. PRB range of subband 2 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#4 tovalues PRB#7 the respective number of to calculated where TTI by using the UE's most recent subband CQIs 10 MHz refers to PRB#6 to PRB#11 each one is greater than 18 dB and less than or 2 (i.e. 2 CQIs or codewords) to calculate Subband 15 MHz and 20 PRB MHz range refers of to subband PRB#8 to2PRB#15 equal to 20 dB. according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#4 tovalues PRB#7 the respective number of to calculated where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#6 to PRB#11 each one is greater than 20 dB and less than or 2 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#8 to PRB#15 equal to 22 dB. PRB range of subband 2 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#4 tovalues PRB#7 the respective number of to calculated where TTI by using the UE's most recent subband CQIs 10 MHz refers to PRB#6 to PRB#11 each one is greater than 22 dB and less than or 2 (i.e. 2 CQIs or codewords) to calculate Subband 15 MHz and 20 PRB MHz range refers of to subband PRB#8 to2PRB#15 equal to 24 dB. according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#4 tovalues PRB#7 the respective number of to calculated where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#6 to PRB#11 each one is greater than 24 dB and less than or 2 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#8 to PRB#15 equal to 26 dB. PRB range of subband 2 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented 3 MHz and 5 MHz refers PRB#4 tovalues PRB#7 the respective number of to calculated where 10 MHz refers to PRB#6 to PRB#11 each one is greater than 26 dB and less than or 15 MHz 20 PRB MHz range refers of to subband PRB#8 to2PRB#15 equal to and 28 dB. according to frequency: 3 MHz and 5 MHz refers to PRB#4 to PRB#7 10 MHz refers to PRB#6 to PRB#11 15 MHz and 20 MHz refers to PRB#8 to PRB#15
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 2is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 2is downlink SINR This measurement updated for each one is greater than 4 dB and post-compensation and the bin each UE every TTItoby6 using theis less than or equal dB. PRB incremented every sample period (5 UE's most recent subband CQIs range of subband 2 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 2is downlink SINR 3 MHz and 5greater MHz refers todB PRB#4 This measurement updated for each one is than 6 and post-compensation and the bin to PRB#7 each UE every TTItoby8 using theis less than or equal dB. PRB incremented every sample period (5 10 MHz to PRB#6 to CQIs PRB#11 UE's most recent subband range of refers subband 2 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2 downlink SINR 3 MHz andis5greater MHz refers todB PRB#4 This measurement isthan updated for each one 8 and post-compensation and the bin to PRB#7 each UE every TTItoby10using theis less than or equal dB.period PRB incremented every sample (5 10 MHz refers to PRB#6 to PRB#11 UE's most recent subband CQIs range of subband 2 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2is downlink SINR 3 MHz and 5greater MHz refers to PRB#4 This measurement updated each one is than 10 dBfor and post-compensation and the bin to PRB#7 eachthan UE every TTItoby12using theis less or equal dB. PRB incremented every sample period (5 10 MHz to PRB#6 to CQIs PRB#11 UE's most recent subband range of refers subband 2 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2 downlink SINR 3 MHz andis5greater MHz refers to PRB#4 This measurement isthan updated each one 12 dBfor and post-compensation and the bin to PRB#7 each UE every TTItoby14using theis less than or equal db. PRB incremented every sample period (5 10 MHz to PRB#6 to CQIs PRB#11 UE's most recent subband range of refers subband 2 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2is downlink SINR 3 MHz and 5greater MHz refers to PRB#4 This measurement updated each one is than 14 dBfor and post-compensation and the bin to PRB#7 eachthan UE every TTItoby16using theis less or equal dB. PRB incremented every sample period (5 10 MHz to PRB#6 to CQIs PRB#11 UE's most recent subband range of refers subband 2 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2 downlink SINR 3 MHz andis5greater MHz refers to PRB#4 This measurement isthan updated each one 16 dBfor and post-compensation and the bin to PRB#7 each UE every TTItoby18using theis less than or equal dB. PRB incremented every sample period (5 10 MHz to PRB#6 to CQIs PRB#11 UE's most recent subband range of refers subband 2 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2is downlink SINR 3 MHz and 5greater MHz refers to PRB#4 This measurement updated each one is than 18 dBfor and post-compensation and the bin to PRB#7 eachthan UE every TTItoby20using theis less or equal dB. PRB incremented every sample period (5 10 MHz to PRB#6 to CQIs PRB#11 UE's most recent subband range of refers subband 2 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2 downlink SINR 3 MHz andis5greater MHz refers to PRB#4 This measurement isthan updated each one 20 dBfor and post-compensation and the bin to PRB#7 each UE every TTItoby22using theis less than or equal dB. PRB incremented every sample period (5 10 MHz to PRB#6 to CQIs PRB#11 UE's most recent subband range of refers subband 2 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2is downlink SINR 3 MHz and 5greater MHz refers to PRB#4 This measurement updated each one is than 22 dBfor and post-compensation and the bin to PRB#7 eachthan UE every TTItoby24using theis less or equal dB. PRB incremented every sample period (5 10 MHz to PRB#6 to CQIs PRB#11 UE's most recent subband range of refers subband 2 according to seconds) with the respective 15 andor 20codewords) MHz refersto to (i.e.MHz 2 CQIs frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2 downlink SINR 3 MHzone andis5greater MHz refers to PRB#4 each thanthe 24 dB and post-compensation and bin is to PRB#7 less than or equal to 26 dB.period PRB (5 incremented every sample 10 MHz refers to PRB#6 to PRB#11 range of subband 2 according to seconds) with20the respective 15 MHz and MHz refers to frequency: number of PRB#15 calculated values where PRB#8 to 3 MHzone andis5greater MHz refers to PRB#4 each than 26 dB and to PRB#7 less than or equal to 28 dB. PRB 10 MHz to PRB#6 to PRB#11 range of refers subband 2 according to 15 MHz and 20 MHz refers to frequency: PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 2 downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 28todB and lessSubband than or 3 (i.e. 2one CQIs codewords) calculate equal to 30 dB. PRB range of subband 2 according downlink SINR post-compensation and the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 3 MHz and 5 MHz refers to PRB#4 tovalues PRB#7 the respective number of calculated where TTI by using the most recent subband CQIs 10 MHz refers to UE's PRB#6 to PRB#11 each is or greater than or equal to -10Subband dB and 3 (i.e. 2one CQIs codewords) to calculate 15 MHz and 20 MHz refers to PRB#8 toofPRB#15 less than or equal to -8 dB. PRB range downlink SINR post-compensation and thesubband bin is 3 according toevery frequency: incremented sample period (5 seconds) with This measurement is updated for each UE every 3 MHz and 5 MHz refers to PRB#8 tovalues PRB#11 the respective number of calculated where TTIMHz by using the most recent subband CQIs 10 refers to UE's PRB#12 PRB#17 each is or greater than -8to dB and lessSubband than or 3 (i.e.MHz 2one CQIs codewords) to calculate 15 and 20 MHz refers to PRB#16 toaccording PRB#23 equal to -6 dB. PRB range of subband 3 downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#8 tovalues PRB#11 the respective number of to calculated where TTI by using the UE's most recent subband CQIs 10 MHz refers to PRB#12 todB PRB#17 each one is greater than -6 and less than or 3 (i.e. 2 CQIs or codewords) to calculate Subband 15 MHz and 20 MHz refers to PRB#16 to PRB#23 equal to -4 dB. PRB range of subband 3 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#8 tovalues PRB#11 the respective number of to calculated where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#12 to PRB#17 each one is greater than -4 dB and less than or 3 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#16 to PRB#23 equal to -2 dB. PRB range of subband 3 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#8 tovalues PRB#11 the respective number of to calculated where TTI by using the UE's most recent subband CQIs 10 MHz refers to PRB#12 todB PRB#17 each one is greater than -2 and less than or 3 (i.e. 2 CQIs or codewords) to calculate Subband 15 MHz and 20 MHz refers to PRB#16 to PRB#23 equal to 0 dB. PRB range of subband 3 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#8 tovalues PRB#11 the respective number of to calculated where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#12 to PRB#17 each one is greater than 0 dB and less than or 3 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#16 to PRB#23 equal to 2 dB. PRB range of subband 3 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#8 tovalues PRB#11 the respective number of to calculated where TTI by using the UE's most recent subband CQIs 10 MHz refers to PRB#12 to PRB#17 each one is greater than 2 dB and less than or 3 (i.e. 2 CQIs or codewords) to calculate Subband 15 MHz and 20PRB MHzrange refersoftosubband PRB#163toaccording PRB#23 equal to 4 dB. downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#8 tovalues PRB#11 the respective number of to calculated where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#12 to PRB#17 each one is greater than 4 dB and less than or 3 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#16 to PRB#23 equal to 6 dB. PRB range of subband 3 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#8 tovalues PRB#11 the respective number of to calculated where TTI by using the UE's most recent subband CQIs 10 MHz refers to PRB#12 to PRB#17 each one is greater than 6 dB and less than or 3 (i.e. 2 CQIs or codewords) to calculate Subband 15 MHz and 20PRB MHzrange refersoftosubband PRB#163toaccording PRB#23 equal to 8 dB. downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#8 tovalues PRB#11 the respective number of to calculated where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#12 to PRB#17 each one is greater than 8 dB and less than or 3 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#16 to PRB#23 equal to 10 dB. PRB range of subband 3 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented 3 MHz and 5 MHz refers PRB#8 tovalues PRB#11 the respective number of to calculated where 10 MHz refers to PRB#12 to PRB#17 each one is greater than 10 dB and less than or 15 MHz 20 PRB MHz range refers of to subband PRB#16 to PRB#23 equal to and 12 dB. 3 according to frequency: 3 MHz and 5 MHz refers to PRB#8 to PRB#11 10 MHz refers to PRB#12 to PRB#17 15 MHz and 20 MHz refers to PRB#16 to PRB#23
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 2is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 3is downlink SINR This measurement updated each one is greater than 28 bin dBfor and post-compensation and the each UE every TTItoby30using theis less than or equal dB. PRB incremented everysubband sample CQIs period (5 UE's most recent range of subband 2 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 3is downlink SINR 3 MHz and 5greater MHz refers to PRB#4 This measurement updated for each one is than or equal post-compensation and the bin is to to PRB#7 each UE every TTI byorusing the -10 dB and less than equal to -8(5 incremented every sample period 10 MHz refers toofPRB#6 to CQIs PRB#11 UE's most recent subband dB. PRB range subband 3 seconds) with the respective 15 MHz and 20 MHz refersto to (i.e. 2 CQIs or codewords) according to frequency: number of calculated values where PRB#8 to PRB#15 calculate Subband 3 downlink SINR 3 MHz andis5greater MHz refers to PRB#8 This measurement isthan updated for each one -8 dB and post-compensation and the bin to PRB#11 each UE every TTItoby-6using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#12 UE's most recent subband CQIs range of refers subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3is downlink SINR 3 MHz 5greater MHz refers to PRB#8 This measurement updated for each one is than -6 dB and PRB#16 to PRB#23and the post-compensation bin to PRB#11 eachthan UE every TTItoby-4using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#12 UE's most recent subband CQIs range of refers subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3is downlink SINR 3 MHz 5greater MHz refers to PRB#8 This measurement updated for each one is than -4 dB and PRB#16 to PRB#23 post-compensation and the bin to PRB#11 each UE every TTItoby-2using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#12 UE's most recent subband CQIs range of refers subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3is downlink SINR 3 MHz 5greater MHz refers to PRB#8 This measurement updated for each one is than -2 dB and PRB#16 to PRB#23 post-compensation and the bin to PRB#11 eachthan UE every TTItoby0 using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#12 UE's most recent subband CQIs range of refers subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3is downlink SINR 3 MHz 5greater MHz refers todB PRB#8 This measurement updated for each one is than 0 and PRB#16 to PRB#23 post-compensation and the bin to PRB#11 each UE every TTItoby2 using theis less than or equal dB. PRB incremented every sample period (5 10 MHz refers to PRB#12 to UE's most recent subband CQIs range of subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3is downlink SINR 3 MHz 5greater MHz refers todB PRB#8 This measurement updated for each one is than 2 and PRB#16 to PRB#23 post-compensation and the bin to PRB#11 eachthan UE every TTItoby4 using theis less or equal dB. PRB incremented every sample period (5 10 MHz refers to PRB#12 to UE's most recent subband CQIs range of subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHz and 20 MHz refers calculate Subband 3is downlink SINR 3 MHz and 5greater MHz refers todB PRB#8 This measurement updated for each one is than 4 and PRB#16 to PRB#23 post-compensation and the bin to PRB#11 each UE every TTItoby6 using theis less than or equal dB. PRB incremented every sample period (5 10 MHz refers to PRB#12 to UE's most recent subband CQIs range of subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3is downlink SINR 3 MHz 5greater MHz refers todB PRB#8 This measurement updated for each one is than 6 and PRB#16 to PRB#23 post-compensation and the bin to PRB#11 eachthan UE every TTItoby8 using theis less or equal dB. PRB incremented every sample period (5 10 MHz refers to PRB#12 to UE's most recent subband CQIs range of subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3 downlink SINR 3 MHz 5greater MHz refers todB PRB#8 each one is than 8 and PRB#16 to PRB#23 post-compensation and the bin is to PRB#11 less than or equal to 10 dB.period PRB (5 incremented every sample 10 MHz refers to PRB#12 to range of subband 3 according to seconds) with the respective PRB#17 frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers 3 MHz MHz refers to PRB#8 each onetois5 greater than 10 dB and PRB#16 PRB#23 to PRB#11 less than or equal to 12 dB. PRB 10 MHz to PRB#12 to to range of refers subband 3 according PRB#17 frequency: 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 PRB#16 to PRB#23
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 3 downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 12todB and lessSubband than or 3 (i.e. 2one CQIs codewords) calculate equal to 14 db. PRB range of subband 3 according downlink SINR post-compensation and the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 3 MHz and 5 MHz refers to PRB#8 tovalues PRB#11 the respective number of calculated where TTI by using the mosttorecent subband CQIs 10 MHz refers to UE's PRB#12 PRB#17 each is or greater than 14 dB and lessSubband than or 3 (i.e. 2one CQIs codewords) to calculate 15 MHz and 20 MHz refers to PRB#16 to PRB#23 equal to 16 dB. PRB range of subband 3 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#8 tovalues PRB#11 the respective number of to calculated where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#12 to PRB#17 each one is greater than 16 dB and less than or 3 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#16 to PRB#23 equal to 18 dB. PRB range of subband 3 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#8 tovalues PRB#11 the respective number of to calculated where TTI by using the UE's most recent subband CQIs 10 MHz refers to PRB#12 todB PRB#17 each one is greater than 18 and less than or 3 (i.e. 2 CQIs or codewords) to calculate Subband 15 MHz and 20 MHz refers to PRB#16 to PRB#23 equal to 20 dB. PRB range of subband 3 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#8 tovalues PRB#11 the respective number of to calculated where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#12 to PRB#17 each one is greater than 20 dB and less than or 3 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#16 to PRB#23 equal to 22 dB. PRB range of subband 3 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#8 tovalues PRB#11 the respective number of to calculated where TTI by using the UE's most recent subband CQIs 10 MHz refers to PRB#12 todB PRB#17 each one is greater than 22 and less than or 3 (i.e. 2 CQIs or codewords) to calculate Subband 15 MHz and 20 MHz refers to PRB#16 to PRB#23 equal to 24 dB. PRB range of subband 3 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#8 tovalues PRB#11 the respective number of to calculated where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#12 to PRB#17 each one is greater than 24 dB and less than or 3 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#16 to PRB#23 equal to 26 dB. PRB range of subband 3 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#8 tovalues PRB#11 the respective number of to calculated where TTI by using the UE's most recent subband CQIs 10 MHz refers to PRB#12 todB PRB#17 each one is greater than 26 and less than or 3 (i.e. 2 CQIs or codewords) to calculate Subband 15 MHz and 20 PRB MHz range refers of to subband PRB#16 to PRB#23 equal to 28 dB. 3 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#8 tovalues PRB#11 the respective number of to calculated where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#12 to PRB#17 each one is greater than 28 dB and less than or 4 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#16 to PRB#23 equal to 30 dB. PRB range of subband 3 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 3 MHz and 5 MHz refers PRB#8 tovalues PRB#11 the respective number of to calculated where TTI by using the UE's most recent subband CQIs 10 MHz refers to PRB#12 to PRB#17 each one is greater than or equal to -10 dB and 4 (i.e. 2 CQIs or codewords) to calculate Subband 15 MHz 20 MHz refers PRB#16 to PRB#23 less thanand or equal to -8 dB. to PRB range downlink SINR post-compensation and of thesubband bin is 4 according to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 3 MHz refers tonumber PRB#12 to PRB#14 the respective of calculated values where TTI by using the UE's most recent subband CQIs 5 MHz refers to PRB#12 to PRB#15 each is or greater than -8 dBcalculate and lessSubband than or 4 (i.e.MHz 2one CQIs codewords) to 10 refers to PRB#18 to PRB#23 equal to -6 dB. PRB range of subband 4 according downlink SINR and to the bin is 15 MHz and 20 post-compensation MHz refers to PRB#24 PRB#31 to frequency: incremented every sample period (5 seconds) with 3 MHz refers tonumber PRB#12 PRB#14 values where the respective of to calculated 5 MHz refers to PRB#12 to each one is greater than -6 PRB#15 dB and less than or 10 MHz PRB#18 equal to refers -4 dB. to PRB rangeto ofPRB#23 subband 4 according 15 MHz and 20 MHz refers to PRB#24 to PRB#31 to frequency: 3 MHz refers to PRB#12 to PRB#14 5 MHz refers to PRB#12 to PRB#15 10 MHz refers to PRB#18 to PRB#23 15 MHz and 20 MHz refers to PRB#24 to PRB#31
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 3is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 3is downlink SINR This measurement updated each one is greater than 12 bin dBfor and post-compensation and the each UE every TTItoby14using theis less than or equal db. PRB incremented everysubband sample CQIs period (5 UE's most recent range of subband 3 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 3is downlink SINR 3 MHz and 5greater MHz refers to PRB#8 This measurement updated each one is than 14 dBfor and post-compensation and the bin to PRB#11 each UE every TTItoby16using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#12 UE's most recent subband CQIs range of refers subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3is downlink SINR 3 MHz 5greater MHz refers to PRB#8 This measurement updated each one is than 16 dBfor and PRB#16 to PRB#23 post-compensation and the bin to PRB#11 each UE every TTItoby18using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#12 UE's most recent subband CQIs range of refers subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3is downlink SINR 3 MHz 5greater MHz refers to PRB#8 This measurement updated each one is than 18 dBfor and PRB#16 to PRB#23and the post-compensation bin to PRB#11 eachthan UE every TTItoby20using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#12 UE's most recent subband CQIs range of refers subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3is downlink SINR 3 MHz 5greater MHz refers to PRB#8 This measurement updated each one is than 20 dBfor and PRB#16 to PRB#23 post-compensation and the bin to PRB#11 each UE every TTItoby22using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#12 UE's most recent subband CQIs range of refers subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3is downlink SINR 3 MHz 5greater MHz refers to PRB#8 This measurement updated each one is than 22 dBfor and PRB#16 to PRB#23 post-compensation and the bin to PRB#11 eachthan UE every TTItoby24using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#12 UE's most recent subband CQIs range of refers subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3is downlink SINR 3 MHz 5greater MHz refers to PRB#8 This measurement updated each one is than 24 dBfor and PRB#16 to PRB#23 post-compensation and the bin to PRB#11 each UE every TTItoby26using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#12 UE's most recent subband CQIs range of refers subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3is downlink SINR 3 MHz 5greater MHz refers to PRB#8 This measurement updated each one is than 26 dBfor and PRB#16 to PRB#23 post-compensation and the bin to PRB#11 eachthan UE every TTItoby28using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#12 UE's most recent subband CQIs range of refers subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 4is downlink SINR 3 MHz 5greater MHz refers to PRB#8 This measurement updated each one is than 28 dBfor and PRB#16 to PRB#23 post-compensation and the bin to PRB#11 each UE every TTItoby30using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#12 UE's most recent subband CQIs range of refers subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 4is downlink SINR 3 MHz 5greater MHz refers to PRB#8 This measurement updated for each one is than or equal PRB#16 to PRB#23 post-compensation and the bin is to to PRB#11 eachdBUE every TTI byorusing the -10 and less than equal to incremented every sampleto period-8(5 10 MHz refers toofPRB#12 UE's most recent subband CQIs dB. PRB range subband 4 seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to according to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 4 downlink 3 MHz to MHz PRB#12 to dB SINR each one is greater than -8 PRB#16 to PRB#23 post-compensation and the bin and is PRB#14 less than or equal to -6 dB. PRB incremented every sample period (5 5 MHz refers to PRB#12 to range of subband 4 according to seconds) with the respective PRB#15 frequency: number of calculated values where 10 MHzrefers refers PRB#18 3 MHz totoPRB#12 totodB and each one is greater than -6 PRB#23 PRB#14 less thanand or equal to -4 dB. to PRB 15 MHz 20 refers 5 MHz refers to MHz PRB#12 to range of subband 4 according to PRB#24 to PRB#31 PRB#15 frequency: 10 MHzrefers referstotoPRB#12 PRB#18toto 3 MHz PRB#23
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 4 downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than -4to dBcalculate and lessSubband than or 4 (i.e. 2one CQIs codewords) equal to -2 dB. PRB range of subband 4 according downlink SINR post-compensation and the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 3 MHz refers tonumber PRB#12 to PRB#14 the respective of calculated values where TTI by using the UE's most recent subband CQIs 5 MHz refers to PRB#12 to PRB#15 each is or greater than -2 dBcalculate and less than or 4 (i.e. 2one CQIs codewords) to 10 MHz refers to PRB#18 to PRB#23 4Subband equal to 0 dB. PRB range of subband according downlink SINR and to the bin is 15 MHz and 20 post-compensation MHz refers to PRB#24 PRB#31 to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 3 MHz refers tonumber PRB#12 to PRB#14 the respective of calculated values where TTI by using the UE's most recent subband CQIs 5 MHz refers to PRB#12 todB PRB#15 each is or greater than 0 and less Subband than or 4 (i.e.MHz 2one CQIs codewords) toPRB#23 calculate 10 refers to PRB#18 to equal to 2 dB. PRB range of subband 4 according downlink SINR and to the bin is 15 MHz and 20 post-compensation MHz refers to PRB#24 PRB#31 to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 3 MHz refers tonumber PRB#12 to PRB#14 the respective of calculated values where TTI by using the UE's most recent subband CQIs 5 MHz refers to PRB#12 todB PRB#15 each is or greater than 2 and less Subband than or 4 (i.e. 2one CQIs codewords) toPRB#23 calculate 10 MHz refers to PRB#18 to equal to 4 dB. PRB range of subband 4 according downlink SINR and to the bin is 15 MHz and 20 post-compensation MHz refers to PRB#24 PRB#31 to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 3 MHz refers tonumber PRB#12 to PRB#14 the respective of calculated values where TTI by using the UE's most recent subband CQIs 5 MHz refers to PRB#12 todB PRB#15 each is or greater than 4 and less Subband than or 4 (i.e.MHz 2one CQIs codewords) toPRB#23 calculate 10 refers to PRB#18 to equal to 6 dB. PRB range of subband 4 according downlink SINR and to the bin is 15 MHz and 20 post-compensation MHz refers to PRB#24 PRB#31 to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 3 MHz refers tonumber PRB#12 to PRB#14 the respective of calculated values where TTI by using the UE's most recent subband CQIs 5 MHz refers to PRB#12 todB PRB#15 each is or greater than 6 and less Subband than or 4 (i.e. 2one CQIs codewords) toPRB#23 calculate 10 MHz refers to PRB#18 to equal to 8 dB. PRB range of subband 4 according downlink SINR and to the bin is 15 MHz and 20 post-compensation MHz refers to PRB#24 PRB#31 to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 3 MHz refers tonumber PRB#12 to PRB#14 the respective of calculated values where TTI by using the UE's most recent subband CQIs 5 MHz refers to PRB#12 todB PRB#15 each is or greater than 8 and less Subband than or 4 (i.e.MHz 2one CQIs codewords) toPRB#23 calculate 10 refers to PRB#18 to equal to 10 dB. PRB range of subband 4the according downlink SINR and to bin is 15 MHz and 20 post-compensation MHz refers to PRB#24 PRB#31 to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 3 MHz refers tonumber PRB#12 to PRB#14 the respective of calculated values where TTI by using the UE's most recent subband CQIs 5 MHz refers to PRB#12 to PRB#15 each one is or greater than 10 dB and lessSubband than or 4 (i.e. 2 CQIs codewords) to calculate 10 MHz refers toPRB PRB#18 toofPRB#23 equal to 12 dB. range subband 4 according downlink SINR and to the bin is 15 MHz and 20 post-compensation MHz refers to PRB#24 PRB#31 to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 3 MHz refers tonumber PRB#12 to PRB#14 the respective of calculated values where TTI by using the UE's most recent subband CQIs 5 MHz refers to PRB#12 to PRB#15 each is or greater than 12 and lessSubband than or 4 (i.e.MHz 2one CQIs codewords) todB calculate 10 refers to PRB#18 to PRB#23 equal to 14 db. PRB range of subband 4 according downlink SINR and to the bin is 15 MHz and 20 post-compensation MHz refers to PRB#24 PRB#31 to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 3 MHz refers tonumber PRB#12 to PRB#14 the respective of calculated values where TTI by using the UE's most recent subband CQIs 5 MHz refers to PRB#12 to PRB#15 each one is or greater than 14 dB and lessSubband than or 4 (i.e. 2 CQIs codewords) to calculate 10 MHz refers toPRB PRB#18 toofPRB#23 equal to 16 dB. range subband 4 according downlink SINR and to the bin is 15 MHz and 20 post-compensation MHz refers to PRB#24 PRB#31 to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 3 MHz refers tonumber PRB#12 to PRB#14 the respective of calculated values where TTI by using the UE's most recent subband CQIs 5 MHz refers to PRB#12 to PRB#15 each is or greater than 16 and lessSubband than or 4 (i.e.MHz 2one CQIs codewords) todB calculate 10 refers to PRB#18 to PRB#23 equal to 18 dB. PRB range of subband 4 according downlink SINR and to the bin is 15 MHz and 20 post-compensation MHz refers to PRB#24 PRB#31 to frequency: incremented every sample period (5 seconds) with 3 MHz refers tonumber PRB#12 PRB#14 values where the respective of to calculated 5 MHz refers to PRB#12 to each one is greater than 18 PRB#15 dB and less than or 10 MHz PRB#18 equal to refers 20 dB.toPRB rangetoofPRB#23 subband 4 according 15 MHz and 20 MHz refers to PRB#24 to PRB#31 to frequency: 3 MHz refers to PRB#12 to PRB#14 5 MHz refers to PRB#12 to PRB#15 10 MHz refers to PRB#18 to PRB#23 15 MHz and 20 MHz refers to PRB#24 to PRB#31
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 4is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 4is downlink SINR This measurement updated for each one is greater than -4 dB and post-compensation and the bin each UE every TTItoby-2using theis less than or equal dB. PRB incremented everysubband sample CQIs period (5 UE's most recent range of subband 4 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 4is downlink SINR 3 MHz refers to PRB#12 to dBfor This measurement updated each one is greater than -2 and post-compensation and the bin PRB#14 each UE every TTItoby0 using theis less than or equal dB. PRB incremented every sample period (5 5 MHz refers to PRB#12 to CQIs UE's most recent subband range of subband 4 according to seconds) with the respective PRB#15 (i.e. 2 CQIs or codewords) to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4is downlink SINR 3 MHz totoPRB#12 toto This measurement updated for each one is greater than 0 dB and PRB#23 post-compensation and the bin is PRB#14 each UEand every TTI by2refers using less than or equal to dB. PRB 15 MHz 20 MHz tothe (5 incremented every sample period 5 MHz refers to PRB#12 to UE's most recent subband CQIs range of subband 4 according to PRB#24 to PRB#31 seconds) with respective PRB#15 (i.e. 2 CQIs or the codewords) to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4is downlink SINR 3 MHz totoPRB#12 toto This measurement updated for each one is greater than 2 dB and PRB#23 post-compensation and the bin is PRB#14 each UEand every TTI by4refers using less than or equal to dB. PRB 15 MHz 20 MHz tothe (5 incremented every sample period 5 MHz refers to PRB#12 to UE's most recent subband CQIs range of subband 4 according to PRB#24 to PRB#31 seconds) with respective PRB#15 (i.e. 2 CQIs or the codewords) to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4is downlink SINR 3 MHz totoPRB#12 toto This measurement updated for each one is greater than 4 dB and PRB#23 post-compensation and the bin is PRB#14 each UEand every TTI by6refers using less than or equal to dB. PRB 15 MHz 20 MHz tothe (5 incremented every sample period 5 MHz refers to PRB#12 to UE's most recent subband CQIs range of subband 4 according to PRB#24 to PRB#31 seconds) with respective PRB#15 (i.e. 2 CQIs or the codewords) to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4is downlink SINR 3 MHz totoPRB#12 toto This measurement updated for each one is greater than 6 dB and PRB#23 post-compensation and the bin is PRB#14 each UEand every TTI by8refers using less than or equal to dB. PRB 15 MHz 20 MHz tothe (5 incremented every sample period 5 MHz refers to PRB#12 to UE's most recent subband CQIs range of subband 4 according to PRB#24 to PRB#31 seconds) with respective PRB#15 (i.e. 2 CQIs or the codewords) to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4is downlink SINR 3 MHz totoPRB#12 toto This measurement updated for each one is greater than 8 dB and PRB#23 post-compensation and the bin PRB#14 each UEand every TTI by10 using theis less than or equal to dB.period PRB 15 MHz 20 MHz refers to incremented every sample (5 5 MHz refers to PRB#12 to UE's most recent subband CQIs range of subband 4 according to PRB#24 to PRB#31 seconds) with the respective PRB#15 (i.e. 2 CQIs or codewords) to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4is downlink SINR 3 MHz totoPRB#12 totodBfor This measurement updated each one is greater than 10 and PRB#23 post-compensation and the bin is PRB#14 each UE every TTI by using the less than or equal to 12 dB. PRB 15 MHzrefers and 20 MHz refers to incremented every sample period (5 5 MHz to PRB#12 to UE's most recent subband CQIs range of subband 4 according to PRB#24 to PRB#31 seconds) with the respective PRB#15 (i.e. 2 CQIs or codewords) to frequency: number of calculated values where 10 MHz refers PRB#18 calculate Subband 4is downlink SINR 3 MHz refers totoPRB#12 totodBfor This measurement updated each one is greater than 12 and PRB#23 post-compensation and the bin PRB#14 each UEand every TTI by14 using theis less than or equal to db. PRB 15 MHz 20 MHz refers to incremented every sample period (5 5 MHz refers to PRB#12 to CQIs UE's most recent subband range of subband 4 according to PRB#24 to PRB#31 seconds) with the respective PRB#15 (i.e. 2 CQIs or codewords) to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4is downlink SINR 3 MHz totoPRB#12 totodBfor This measurement updated each one is greater than 14 and PRB#23 post-compensation and the bin is PRB#14 each UE every TTI by using the less than or equal to 16 dB. PRB 15 MHzrefers and 20 MHz refers to incremented every sample period (5 5 MHz to PRB#12 to UE's most recent subband CQIs range of subband 4 according to PRB#24 to PRB#31 seconds) with the respective PRB#15 (i.e. 2 CQIs or codewords) to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4 downlink 3 MHz totoPRB#12 totodBSINR each one is greater than 16 PRB#23 post-compensation and the bin and is PRB#14 less than or equal to 18 dB.period PRB (5 15 MHz and 20 MHz refers to incremented every sample 5 MHz refers to PRB#12 to range of subband 4 according to PRB#24 to PRB#31 seconds) with the respective PRB#15 frequency: number of calculated values where 10 MHzrefers refers PRB#18 3 MHz totoPRB#12 totodB and each one is greater than 18 PRB#23 PRB#14 less thanand or equal to 20 dB.to PRB 15 MHz 20 refers 5 MHz refers to MHz PRB#12 to range of subband 4 according to PRB#24 to PRB#31 PRB#15 frequency: 10 MHzrefers referstotoPRB#12 PRB#18toto 3 MHz PRB#23
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 4 downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 20todB and lessSubband than or 4 (i.e. 2one CQIs codewords) calculate equal to 22 dB. PRB range of subband 4 according downlink SINR post-compensation and the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 3 MHz refers tonumber PRB#12 to PRB#14 the respective of calculated values where TTI by using the UE's most recent subband CQIs 5 MHz refers to PRB#12 to PRB#15 each is or greater than 22 and lessSubband than or 4 (i.e. 2one CQIs codewords) todB calculate 10 MHz refers to PRB#18 to PRB#23 equal to 24 dB. PRB range of subband 4 according downlink SINR and to the bin is 15 MHz and 20 post-compensation MHz refers to PRB#24 PRB#31 to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 3 MHz refers tonumber PRB#12 to PRB#14 the respective of calculated values where TTI by using the UE's most recent subband CQIs 5 MHz refers to PRB#12 to PRB#15 each is or greater than 24 and lessSubband than or 4 (i.e.MHz 2one CQIs codewords) todB calculate 10 refers to PRB#18 to PRB#23 equal to 26 dB. PRB range of subband 4 according downlink SINR and to the bin is 15 MHz and 20 post-compensation MHz refers to PRB#24 PRB#31 to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 3 MHz refers tonumber PRB#12 to PRB#14 the respective of calculated values where TTI by using the UE's most recent subband CQIs 5 MHz refers to PRB#12 to PRB#15 each is or greater than 26 and lessSubband than or 4 (i.e. 2one CQIs codewords) todB calculate 10 MHz refers to PRB#18 to PRB#23 equal to 28 dB. PRB range of subband 4 according downlink SINR and to the bin is 15 MHz and 20 post-compensation MHz refers to PRB#24 PRB#31 to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 3 MHz refers tonumber PRB#12 to PRB#14 the respective of calculated values where TTI by using the UE's most recent subband CQIs 5 MHz refers to PRB#12 to PRB#15 each is or greater than 28 and lessSubband than or 5 (i.e.MHz 2one CQIs codewords) todB calculate 10 refers to PRB#18 to PRB#23 equal to 30 dB. PRB range of subband 4 according downlink SINR and to the bin is 15 MHz and 20 post-compensation MHz refers to PRB#24 PRB#31 to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 3 MHz refers tonumber PRB#12 to PRB#14 the respective of calculated values where TTI by using the UE's most recent subband CQIs 5 MHz refers to PRB#12 to PRB#15 each is or greater than or equal to -10Subband dB and 5 (i.e. 2one CQIs codewords) to calculate 10 MHz refers to PRB#18 to PRB#23 less than or equal to -8 dB. PRB range of subband downlink SINR post-compensation and to thePRB#31 bin is 15 MHz and 20frequency: MHz refers to PRB#24 5 according to incremented every sample period (5 seconds) with This measurement is updated for each UE every 5 MHz refers tonumber PRB#16 to PRB#19 the respective of calculated values where TTIMHz by using the most recent subband CQIs 10 refers to UE's PRB#24 PRB#29 each is or greater than -8to dB and lessSubband than or 5 (i.e.MHz 2one CQIs codewords) to calculate 15 and 20 MHz refers to PRB#32 toaccording PRB#39 equal to -6 dB. PRB range of subband 5 downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 5 MHz refers tonumber PRB#16 PRB#19 the respective of to calculated values where TTI by using the UE's most recent subband CQIs 10 MHz refers to PRB#24 todB PRB#29 each one is greater than -6 and less than or 5 (i.e. 2 CQIs or codewords) to calculate Subband 15 MHz 20PRB MHzrange refersof tosubband PRB#32 5toaccording PRB#39 equal to and -4 dB. downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 5 MHz refers tonumber PRB#16 PRB#19 the respective of to calculated values where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#24 to PRB#29 each one is greater than -4 dB and less than or 5 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#32 to PRB#39 equal to -2 dB. PRB range of subband according downlink SINR post-compensation and5the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 5 MHz refers tonumber PRB#16 to PRB#19 the respective of calculated values where TTI by using the most recent subband CQIs 10 MHz refers to UE's PRB#24 PRB#29 each one is or greater than -2to dB and lessSubband than or 5 (i.e. 2 CQIs codewords) to calculate 15 MHz and 20PRB MHzrange refersoftosubband PRB#325toaccording PRB#39 equal to 0 dB. downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 5 MHz refers tonumber PRB#16 PRB#19 the respective of to calculated values where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#24 to PRB#29 each one is greater than 0 dB and less than or 5 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#32 to PRB#39 equal to 2SINR dB. PRB range of subband according downlink post-compensation and5 the bin is to frequency: incremented every sample period (5 seconds) with 5 MHz refers tonumber PRB#16 PRB#19 values where the respective of to calculated 10 MHz refers to PRB#24 to each one is greater than 2 dBPRB#29 and less than or 15 MHz 20PRB MHzrange refersoftosubband PRB#325toaccording PRB#39 equal to and 4 dB. to frequency: 5 MHz refers to PRB#16 to PRB#19 10 MHz refers to PRB#24 to PRB#29 15 MHz and 20 MHz refers to PRB#32 to PRB#39
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 4is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 4is downlink SINR This measurement updated each one is greater than 20 bin dBfor and post-compensation and the each UE every TTItoby22using theis less than or equal dB. PRB incremented everysubband sample CQIs period (5 UE's most recent range of subband 4 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 4is downlink SINR 3 MHz refers to PRB#12 to dBfor This measurement updated each one is greater than 22 and post-compensation and the bin PRB#14 each UE every TTItoby24using theis less than or equal dB. PRB incremented every sample period (5 5 MHz refers to PRB#12 to CQIs UE's most recent subband range of subband 4 according to seconds) with the respective PRB#15 (i.e. 2 CQIs or codewords) to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4is downlink SINR 3 MHz totoPRB#12 totodBfor This measurement updated each one is greater than 24 and PRB#23 post-compensation and the bin PRB#14 each UEand every TTI by26 using theis less than or equal to dB. PRB 15 MHz 20 MHz refers to incremented every sample period (5 5 MHz refers to PRB#12 to CQIs UE's most recent subband range of subband 4 according to PRB#24 to PRB#31 seconds) with the respective PRB#15 (i.e. 2 CQIs or codewords) to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4is downlink SINR 3 MHz totoPRB#12 totodBfor This measurement updated each one is greater than 26 and PRB#23 post-compensation and the bin is PRB#14 each UE every TTI by using the less than or equal to 28 dB. PRB 15 MHzrefers and 20 MHz refers to incremented every sample period (5 5 MHz to PRB#12 to UE's most recent subband CQIs range of subband 4 according to PRB#24 to PRB#31 seconds) with the respective PRB#15 (i.e. 2 CQIs or codewords) to frequency: number of calculated values where 10 MHz refers PRB#18 calculate Subband 5is downlink SINR 3 MHz refers totoPRB#12 totodBfor This measurement updated each one is greater than 28 and PRB#23 post-compensation and the bin PRB#14 each UEand every TTI by30 using theis less than or equal to dB. PRB 15 MHz 20 MHz refers to incremented every sample period (5 5 MHz refers to PRB#12 to CQIs UE's most recent subband range of subband 4 according to PRB#24 to PRB#31 seconds) with the respective PRB#15 (i.e. 2 CQIs or codewords) to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 5is downlink SINR 3 MHz totoPRB#12 totoequal This measurement updated for each one is greater than or PRB#23 post-compensation and the bin is to PRB#14 each UE every TTI by using the -10 dB and less than or equal to 15 MHzrefers and 20 MHz refers to -8(5 incremented every sample period 5 MHz to of PRB#12 to CQIs UE's most recent subband dB. PRB range subband 5 PRB#24 to PRB#31 seconds) with the respective PRB#15 (i.e. 2 CQIs or codewords) to according to frequency: number of calculated values where 10 MHz refers to PRB#18 to calculate Subband 5 downlink SINR 5 MHz refers to PRB#16 to dBfor This measurement isthan updated each one is greater -8 and PRB#23 post-compensation and the bin PRB#19 each UEand every TTI by-6 using theis less than or equal to dB. PRB 15 MHz 20 MHz refers to incremented every sampleto period (5 10 MHz to PRB#24 UE's most recent subband CQIs range of refers subband 5 according to PRB#24 to PRB#31 seconds) with the respective PRB#29 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5is downlink SINR 5 MHz to MHz PRB#16 to dBfor This measurement updated each one is greater than -6 and PRB#32 to PRB#39 post-compensation and the bin PRB#19 each UE every TTItoby-4using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#24 UE's most recent subband CQIs range of refers subband 5 according to seconds) with the respective PRB#29 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5is downlink SINR 5 MHz to MHz PRB#16 to dBfor This measurement updated each one is greater than -4 and PRB#32 to PRB#39 post-compensation and the bin PRB#19 each UE every TTItoby-2using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#24 UE's most recent subband CQIs range of refers subband 5 according to seconds) with the respective PRB#29 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5is downlink SINR 5 MHz to MHz PRB#16 to dBfor This measurement updated each one is greater than -2 and PRB#32 to PRB#39 post-compensation and the bin PRB#19 eachthan UE every TTItoby0 using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#24 UE's most recent subband CQIs range of refers subband 5 according to seconds) with the respective PRB#29 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5 downlink SINR 5 MHz to MHz PRB#16 todB and each one is greater than 0 PRB#32 to PRB#39 post-compensation and the bin is PRB#19 less than or equal to 2 dB. PRB incremented every sample period (5 10 MHz refers to PRB#24 to range of subband 5 according to seconds) with the respective PRB#29 frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 todB and each onetoisPRB#39 greater than 2 PRB#32 PRB#19 less than or equal to 4 dB. PRB 10 MHz to PRB#24 to to range of refers subband 5 according PRB#29 frequency: 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to PRB#32 to PRB#39
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 5 downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 4 dB and less Subband than or 5 (i.e. 2one CQIs codewords) to calculate equal to 6 dB. PRB range of subband 5 according downlink SINR post-compensation and the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 5 MHz refers tonumber PRB#16 to PRB#19 the respective of calculated values where TTI by using the most recent subband CQIs 10 MHz refers to UE's PRB#24 PRB#29 each is or greater than 6 to dB and less Subband than or 5 (i.e. 2one CQIs codewords) to calculate 15 MHz and 20 MHz refers to PRB#32 toaccording PRB#39 equal to 8 dB. PRB range of subband 5 downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 5 MHz refers tonumber PRB#16 PRB#19 the respective of to calculated values where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#24 to PRB#29 each one is greater than 8 dB and less than or 5 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#32 to PRB#39 equal to 10 dB. post-compensation PRB range of subband according downlink SINR and 5the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 5 MHz refers tonumber PRB#16 to PRB#19 the respective of calculated values where TTI by using the mosttorecent subband CQIs 10 MHz refers to UE's PRB#24 PRB#29 each is or greater than 10 dB and lessSubband than or 5 (i.e. 2one CQIs codewords) to calculate 15 MHz and 20 MHz refers to PRB#32 to PRB#39 equal to 12 dB. PRB range of subband 5 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 5 MHz refers tonumber PRB#16 PRB#19 the respective of to calculated values where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#24 to PRB#29 each one is greater than 12 dB and less than or 5 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#32 to PRB#39 equal to 14 dB. post-compensation PRB range of subband according downlink SINR and 5the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 5 MHz refers tonumber PRB#16 to PRB#19 the respective of calculated values where TTI by using the mosttorecent subband CQIs 10 MHz refers to UE's PRB#24 PRB#29 each is or greater than 14 dB and lessSubband than or 5 (i.e. 2one CQIs codewords) to calculate 15 MHz and 20 MHz refers to PRB#32 to PRB#39 equal to 16 dB. PRB range of subband 5 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 5 MHz refers tonumber PRB#16 PRB#19 the respective of to calculated values where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#24 to PRB#29 each one is greater than 16 dB and less than or 5 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#32 to PRB#39 equal to 18 dB. post-compensation PRB range of subband according downlink SINR and 5the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 5 MHz refers tonumber PRB#16 to PRB#19 the respective of calculated values where TTI by using the mosttorecent subband CQIs 10 MHz refers to UE's PRB#24 PRB#29 each one is or greater than 18 dB and lessSubband than or 5 (i.e. 2 CQIs codewords) to calculate 15 MHz and 20 PRB MHz range refers of to subband PRB#32 to PRB#39 equal to 20 dB. 5 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 5 MHz refers tonumber PRB#16 PRB#19 the respective of to calculated values where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#24 to PRB#29 each one is greater than 20 dB and less than or 5 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#32 to PRB#39 equal to 22 dB. post-compensation PRB range of subband according downlink SINR and 5the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 5 MHz refers tonumber PRB#16 to PRB#19 the respective of calculated values where TTI by using the mosttorecent subband CQIs 10 MHz refers to UE's PRB#24 PRB#29 each one is or greater than 22 dB and lessSubband than or 5 (i.e. 2 CQIs codewords) to calculate 15 MHz and 20 PRB MHz range refers of to subband PRB#32 to PRB#39 equal to 24 dB. 5 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 5 MHz refers tonumber PRB#16 PRB#19 the respective of to calculated values where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#24 to PRB#29 each one is greater than 24 dB and less than or 5 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#32 to PRB#39 equal to 26 dB. post-compensation PRB range of subband according downlink SINR and 5the bin is to frequency: incremented every sample period (5 seconds) with 5 MHz refers tonumber PRB#16 PRB#19 values where the respective of to calculated 10 MHz refers to PRB#24 to PRB#29 each one is greater than 26 dB and less than or 15 MHz and 20 MHz refers to PRB#32 to PRB#39 equal to 28 dB. PRB range of subband 5 according to frequency: 5 MHz refers to PRB#16 to PRB#19 10 MHz refers to PRB#24 to PRB#29 15 MHz and 20 MHz refers to PRB#32 to PRB#39
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 5is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 5is downlink SINR This measurement updated for each one is greater than 4 dB and post-compensation and the bin each UE every TTItoby6 using theis less than or equal dB. PRB incremented every sample period (5 UE's most recent subband CQIs range of subband 5 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 5is downlink SINR 5 MHz refers to PRB#16 todB and This measurement updated for each one is greater than 6 post-compensation and the bin PRB#19 each UE every TTItoby8 using theis less than or equal dB. PRB incremented every sample period (5 10 MHz to PRB#24 to UE's most recent subband CQIs range of refers subband 5 according to seconds) with the respective PRB#29 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHz and 20 refers calculate Subband 5is downlink SINR 5 MHz refers to MHz PRB#16 todB and This measurement updated for each one is greater than 8 PRB#32 to PRB#39 post-compensation and the bin PRB#19 each UE every TTItoby10using theis less than or equal dB.period PRB incremented every sample (5 10 MHz refers to PRB#24 to UE's most recent subband CQIs range of subband 5 according to seconds) with the respective PRB#29 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5is downlink SINR 5 MHz to MHz PRB#16 to dBfor This measurement updated each one is greater than 10 and PRB#32 to PRB#39and the post-compensation bin PRB#19 eachthan UE every TTItoby12using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#24 UE's most recent subband CQIs range of refers subband 5 according to seconds) with the respective PRB#29 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5is downlink SINR 5 MHz to MHz PRB#16 to dBfor This measurement updated each one is greater than 12 and PRB#32 to PRB#39 post-compensation and the bin PRB#19 each UE every TTItoby14using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#24 UE's most recent subband CQIs range of refers subband 5 according to seconds) with the respective PRB#29 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5is downlink SINR 5 MHz to MHz PRB#16 to dBfor This measurement updated each one is greater than 14 and PRB#32 to PRB#39 post-compensation and the bin PRB#19 eachthan UE every TTItoby16using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#24 UE's most recent subband CQIs range of refers subband 5 according to seconds) with the respective PRB#29 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5is downlink SINR 5 MHz to MHz PRB#16 to dBfor This measurement updated each one is greater than 16 and PRB#32 to PRB#39 post-compensation and the bin PRB#19 each UE every TTItoby18using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#24 UE's most recent subband CQIs range of refers subband 5 according to seconds) with the respective PRB#29 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5is downlink SINR 5 MHz to MHz PRB#16 to dBfor This measurement updated each one is greater than 18 and PRB#32 to PRB#39 post-compensation and the bin PRB#19 eachthan UE every TTItoby20using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#24 UE's most recent subband CQIs range of refers subband 5 according to seconds) with the respective PRB#29 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5is downlink SINR 5 MHz to MHz PRB#16 to dBfor This measurement updated each one is greater than 20 and PRB#32 to PRB#39 post-compensation and the bin PRB#19 each UE every TTItoby22using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#24 UE's most recent subband CQIs range of refers subband 5 according to seconds) with the respective PRB#29 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5is downlink SINR 5 MHz to MHz PRB#16 to dBfor This measurement updated each one is greater than 22 and PRB#32 to PRB#39 post-compensation and the bin PRB#19 eachthan UE every TTItoby24using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#24 UE's most recent subband CQIs range of refers subband 5 according to seconds) with the respective PRB#29 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5 downlink 5 MHz to MHz PRB#16 to dBSINR each one is greater than 24 PRB#32 to PRB#39 post-compensation and the bin and is PRB#19 less than or equal to 26 dB. PRB (5 incremented every sampleto period 10 MHz refers to PRB#24 range of subband 5 according to seconds) with the respective PRB#29 frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to dB and each onetoisPRB#39 greater than 26 PRB#32 PRB#19 less than or equal to 28 dB. PRB 10 MHz to PRB#24 to to range of refers subband 5 according PRB#29 frequency: 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to PRB#32 to PRB#39
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 5 downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 28todB and lessSubband than or 6 (i.e. 2one CQIs codewords) calculate equal to 30 dB. PRB range of subband 5 according downlink SINR post-compensation and the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 5 MHz refers tonumber PRB#16 to PRB#19 the respective of calculated values where TTI by using the most recent subband CQIs 10 MHz refers to UE's PRB#24 PRB#29 each is or greater than orto equal to -10Subband dB and 6 (i.e. 2one CQIs codewords) to calculate 15 MHz and 20 MHz refers to PRB#32 to PRB#39 less than or equal to -8 dB. PRB range of downlink SINR post-compensation and thesubband bin is 6 according toevery frequency: incremented sample period (5 seconds) with This measurement is updated for each UE every 5 MHz refers tonumber PRB#20 to PRB#23 the respective of calculated values where TTIMHz by using the most recent subband CQIs 10 refers to UE's PRB#30 PRB#35 each is or greater than -8to dB and lessSubband than or 6 (i.e.MHz 2one CQIs codewords) to calculate 15 and 20 MHz refers to PRB#40 toaccording PRB#47 equal to -6 dB. PRB range of subband 6 downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 5 MHz refers tonumber PRB#20 PRB#23 the respective of to calculated values where TTI by using the UE's most recent subband CQIs 10 MHz refers to PRB#30 todB PRB#35 each one is greater than -6 and less than or 6 (i.e. 2 CQIs or codewords) to calculate Subband 15 MHz and 20 MHz refers to PRB#40 to PRB#47 equal to -4 dB. PRB range of subband according downlink SINR post-compensation and6the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 5 MHz refers tonumber PRB#20 to PRB#23 the respective of calculated values where TTIMHz by using the most recent subband CQIs 10 refers to UE's PRB#30 PRB#35 each is or greater than -4to dB and lessSubband than or 6 (i.e.MHz 2one CQIs codewords) to calculate 15 and 20 MHz refers to PRB#40 toaccording PRB#47 equal to -2 dB. PRB range of subband 6 downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 5 MHz refers tonumber PRB#20 PRB#23 the respective of to calculated values where TTI by using the UE's most recent subband CQIs 10 MHz refers to PRB#30 todB PRB#35 each one is greater than -2 and less than or 6 (i.e. 2 CQIs or codewords) to calculate Subband 15 MHz and 20 MHz refers to PRB#40 to PRB#47 equal to 0SINR dB. PRB range of subband according downlink post-compensation and6 the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 5 MHz refers tonumber PRB#20 to PRB#23 the respective of calculated values where TTIMHz by using the most recent subband CQIs 10 refers to UE's PRB#30 PRB#35 each is or greater than 0 to dB and less Subband than or 6 (i.e.MHz 2one CQIs codewords) to calculate 15 and 20 MHz refers to PRB#40 toaccording PRB#47 equal to 2 dB. PRB range of subband 6 downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 5 MHz refers tonumber PRB#20 PRB#23 the respective of to calculated values where TTI by using the UE's most recent subband CQIs 10 MHz refers to PRB#30 to PRB#35 each one is greater than 2 dB and less than or 6 (i.e. 2 CQIs or codewords) to calculate Subband 15 MHz 20PRB MHzrange refersoftosubband PRB#406toaccording PRB#47 equal to and 4SINR dB. downlink post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 5 MHz refers tonumber PRB#20 PRB#23 the respective of to calculated values where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#30 to PRB#35 each one is greater than 4 dB and less than or 6 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#40 to PRB#47 equal to 6SINR dB. PRB range of subband according downlink post-compensation and6 the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 5 MHz refers tonumber PRB#20 to PRB#23 the respective of calculated values where TTI by using the most recent subband CQIs 10 MHz refers to UE's PRB#30 PRB#35 each one is or greater than 6 to dB and less Subband than or 6 (i.e. 2 CQIs codewords) to calculate 15 MHz and 20PRB MHzrange refersoftosubband PRB#406toaccording PRB#47 equal to 8 dB. downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 5 MHz refers tonumber PRB#20 PRB#23 the respective of to calculated values where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#30 to PRB#35 each one is greater than 8 dB and less than or 6 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#40 to PRB#47 equal to 10 dB. post-compensation PRB range of subband according downlink SINR and 6the bin is to frequency: incremented every sample period (5 seconds) with 5 MHz refers tonumber PRB#20 PRB#23 values where the respective of to calculated 10 MHz refers to PRB#30 to PRB#35 each one is greater than 10 dB and less than or 15 MHz and 20 MHz refers to PRB#40 to PRB#47 equal to 12 dB. PRB range of subband 6 according to frequency: 5 MHz refers to PRB#20 to PRB#23 10 MHz refers to PRB#30 to PRB#35 15 MHz and 20 MHz refers to PRB#40 to PRB#47
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 5is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 6is downlink SINR This measurement updated each one is greater than 28 bin dBfor and post-compensation and the each UE every TTItoby30using theis less than or equal dB. PRB incremented everysubband sample CQIs period (5 UE's most recent range of subband 5 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 6is downlink SINR 5 MHz refers to PRB#16 to equal This measurement updated for each one is greater than or post-compensation and the bin is to PRB#19 each UE every TTI byorusing the -10 dB and less than equal to incremented every sampleto period-8(5 10 MHz refers toofPRB#24 UE's most recent subband CQIs dB. PRB range subband 6 seconds) with the respective PRB#29 (i.e. 2 CQIs or codewords) to according to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6is downlink SINR 5 MHz to MHz PRB#20 to dBfor This measurement updated each one is greater than -8 and PRB#32 to PRB#39 post-compensation and the bin PRB#23 each UE every TTItoby-6using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#30 UE's most recent subband CQIs range of refers subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6is downlink SINR 5 MHz to MHz PRB#20 to dBfor This measurement updated each one is greater than -6 and PRB#40 to PRB#47and the post-compensation bin PRB#23 eachthan UE every TTItoby-4using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#30 UE's most recent subband CQIs range of refers subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6is downlink SINR 5 MHz to MHz PRB#20 to dBfor This measurement updated each one is greater than -4 and PRB#40 to PRB#47 post-compensation and the bin PRB#23 each UE every TTItoby-2using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#30 UE's most recent subband CQIs range of refers subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6is downlink SINR 5 MHz to MHz PRB#20 to dBfor This measurement updated each one is greater than -2 and PRB#40 to PRB#47 post-compensation and the bin PRB#23 eachthan UE every TTItoby0 using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#30 UE's most recent subband CQIs range of refers subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6is downlink SINR 5 MHz to MHz PRB#20 todB and This measurement updated for each one is greater than 0 PRB#40 to PRB#47 post-compensation and the bin PRB#23 each UE every TTItoby2 using theis less than or equal dB. PRB incremented every sample period (5 10 MHz refers to PRB#30 to UE's most recent subband CQIs range of subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6is downlink SINR 5 MHz to MHz PRB#20 todB and This measurement updated for each one is greater than 2 PRB#40 to PRB#47 post-compensation and the bin PRB#23 eachthan UE every TTItoby4 using theis less or equal dB. PRB incremented every sample period (5 10 MHz refers to PRB#30 to UE's most recent subband CQIs range of subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHz and 20 refers calculate Subband 6is downlink SINR 5 MHz refers to MHz PRB#20 todB and This measurement updated for each one is greater than 4 PRB#40 to PRB#47 post-compensation and the bin PRB#23 each UE every TTItoby6 using theis less than or equal dB. PRB incremented every sample period (5 10 MHz refers to PRB#30 to UE's most recent subband CQIs range of subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6is downlink SINR 5 MHz to MHz PRB#20 todB and This measurement updated for each one is greater than 6 PRB#40 to PRB#47 post-compensation and the bin PRB#23 eachthan UE every TTItoby8 using theis less or equal dB. PRB incremented every sample period (5 10 MHz refers to PRB#30 to UE's most recent subband CQIs range of subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink SINR 5 MHz to MHz PRB#20 todB and each one is greater than 8 PRB#40 to PRB#47 post-compensation and the bin is PRB#23 less than or equal to 10 dB.period PRB (5 incremented every sample 10 MHz refers to PRB#30 to range of subband 6 according to seconds) with the respective PRB#35 frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to dB and each onetoisPRB#47 greater than 10 PRB#40 PRB#23 less than or equal to 12 dB. PRB 10 MHz to PRB#30 to to range of refers subband 6 according PRB#35 frequency: 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to PRB#40 to PRB#47
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 6 downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 12todB and lessSubband than or 6 (i.e. 2one CQIs codewords) calculate equal to 14 db. PRB range of subband 6 according downlink SINR post-compensation and the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 5 MHz refers tonumber PRB#20 to PRB#23 the respective of calculated values where TTI by using the mosttorecent subband CQIs 10 MHz refers to UE's PRB#30 PRB#35 each is or greater than 14 dB and lessSubband than or 6 (i.e. 2one CQIs codewords) to calculate 15 MHz and 20 MHz refers to PRB#40 to PRB#47 equal to 16 dB. PRB range of subband 6 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 5 MHz refers tonumber PRB#20 PRB#23 the respective of to calculated values where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#30 to PRB#35 each one is greater than 16 dB and less than or 6 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#40 to PRB#47 equal to 18 dB. post-compensation PRB range of subband according downlink SINR and 6the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 5 MHz refers tonumber PRB#20 to PRB#23 the respective of calculated values where TTI by using the mosttorecent subband CQIs 10 MHz refers to UE's PRB#30 PRB#35 each is or greater than 18 dB and lessSubband than or 6 (i.e. 2one CQIs codewords) to calculate 15 MHz and 20 MHz refers to PRB#40 to PRB#47 equal to 20 dB. PRB range of subband 6 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 5 MHz refers tonumber PRB#20 PRB#23 the respective of to calculated values where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#30 to PRB#35 each one is greater than 20 dB and less than or 6 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#40 to PRB#47 equal to 22 dB. post-compensation PRB range of subband according downlink SINR and 6the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 5 MHz refers tonumber PRB#20 to PRB#23 the respective of calculated values where TTI by using the mosttorecent subband CQIs 10 MHz refers to UE's PRB#30 PRB#35 each is or greater than 22 dB and lessSubband than or 6 (i.e. 2one CQIs codewords) to calculate 15 MHz and 20 MHz refers to PRB#40 to PRB#47 equal to 24 dB. PRB range of subband 6 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 5 MHz refers tonumber PRB#20 PRB#23 the respective of to calculated values where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#30 to PRB#35 each one is greater than 24 dB and less than or 6 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#40 to PRB#47 equal to 26 dB. post-compensation PRB range of subband according downlink SINR and 6the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 5 MHz refers tonumber PRB#20 to PRB#23 the respective of calculated values where TTI by using the mosttorecent subband CQIs 10 MHz refers to UE's PRB#30 PRB#35 each one is or greater than 26 dB and lessSubband than or 6 (i.e. 2 CQIs codewords) to calculate 15 MHz and 20 PRB MHz range refers of to subband PRB#40 to PRB#47 equal to 28 dB. 6 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 5 MHz refers tonumber PRB#20 PRB#23 the respective of to calculated values where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#30 to PRB#35 each one is greater than 28 dB and less than or 7 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#40 to PRB#47 equal to 30 dB. post-compensation PRB range of subband according downlink SINR and 6the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 5 MHz refers tonumber PRB#20 to PRB#23 the respective of calculated values where TTI by using the most recent subband CQIs 10 MHz refers to UE's PRB#30 PRB#35 each one is or greater than orto equal to -10Subband dB and 7 (i.e. 2 CQIs codewords) to calculate 15 MHz and 20 MHz refers to PRB#40 to PRB#47 less than or equal to -8 dB. PRB range of downlink SINR post-compensation and thesubband bin is 7 according toevery frequency: incremented sample period (5 seconds) with This measurement is updated for each UE every 5 MHz refers tonumber PRB#24 the respective of calculated values where TTIMHz by using the most recent subband CQIs 10 refers to UE's PRB#36 PRB#41 each is or greater than -8to dB and lessSubband than or 7 (i.e.MHz 2one CQIs codewords) to calculate 15 and 20 MHz refers to PRB#48 toaccording PRB#55 equal to -6 dB. PRB range of subband 7 downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented 5 MHz refers tonumber PRB#24 the respective of calculated values where 10 MHz refers to PRB#36 PRB#41 each one is greater than -6todB and less than or 15 MHz and 20 MHz refers to PRB#48 7toaccording PRB#55 equal to -4 dB. PRB range of subband to frequency: 5 MHz refers to PRB#24 10 MHz refers to PRB#36 to PRB#41 15 MHz and 20 MHz refers to PRB#48 to PRB#55
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 6is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 6is downlink SINR This measurement updated each one is greater than 12 bin dBfor and post-compensation and the each UE every TTItoby14using theis less than or equal db. PRB incremented everysubband sample CQIs period (5 UE's most recent range of subband 6 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 6is downlink SINR 5 MHz refers to PRB#20 to dBfor This measurement updated each one is greater than 14 and post-compensation and the bin PRB#23 each UE every TTItoby16using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#30 UE's most recent subband CQIs range of refers subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6is downlink SINR 5 MHz to MHz PRB#20 to dBfor This measurement updated each one is greater than 16 and PRB#40 to PRB#47 post-compensation and the bin PRB#23 each UE every TTItoby18using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#30 UE's most recent subband CQIs range of refers subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6is downlink SINR 5 MHz to MHz PRB#20 to dBfor This measurement updated each one is greater than 18 and PRB#40 to PRB#47and the post-compensation bin PRB#23 eachthan UE every TTItoby20using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#30 UE's most recent subband CQIs range of refers subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6is downlink SINR 5 MHz to MHz PRB#20 to dBfor This measurement updated each one is greater than 20 and PRB#40 to PRB#47 post-compensation and the bin PRB#23 each UE every TTItoby22using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#30 UE's most recent subband CQIs range of refers subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6is downlink SINR 5 MHz to MHz PRB#20 to dBfor This measurement updated each one is greater than 22 and PRB#40 to PRB#47 post-compensation and the bin PRB#23 eachthan UE every TTItoby24using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#30 UE's most recent subband CQIs range of refers subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6is downlink SINR 5 MHz to MHz PRB#20 to dBfor This measurement updated each one is greater than 24 and PRB#40 to PRB#47 post-compensation and the bin PRB#23 each UE every TTItoby26using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#30 UE's most recent subband CQIs range of refers subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6is downlink SINR 5 MHz to MHz PRB#20 to dBfor This measurement updated each one is greater than 26 and PRB#40 to PRB#47 post-compensation and the bin PRB#23 eachthan UE every TTItoby28using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#30 UE's most recent subband CQIs range of refers subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 7is downlink SINR 5 MHz to MHz PRB#20 to dBfor This measurement updated each one is greater than 28 and PRB#40 to PRB#47 post-compensation and the bin PRB#23 each UE every TTItoby30using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#30 UE's most recent subband CQIs range of refers subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 7is downlink SINR 5 MHz to MHz PRB#20 to equal This measurement updated for each one is greater than or PRB#40 to PRB#47 post-compensation and the bin is to PRB#23 eachdBUE every TTI byorusing the -10 and less than equal to incremented every sampleto period-8(5 10 MHz refers toofPRB#30 UE's most recent subband CQIs dB. PRB range subband 7 seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to according to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 7 downlink SINR 5 MHz to MHz PRB#24 each one is greater than -8 dB and PRB#40 to PRB#47 post-compensation and the bin 10 MHz refers to PRB#36 toPRBis less than or equal to -6 dB. incremented every sample period (5 PRB#41 range of subband 7 according to seconds) with20the respective 15 MHz and MHz refers to frequency: number of calculated values where PRB#48 to PRB#55 5 MHzone refers to PRB#24 each is greater than -6 dB and 10 to PRB#36 lessMHz thanrefers or equal to -4 dB.toPRB PRB#41 range of subband 7 according to 15 MHz and 20 MHz refers to frequency: PRB#48 to PRB#55 5 MHz refers to PRB#24
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 7 downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than -4to dBcalculate and lessSubband than or 7 (i.e. 2one CQIs codewords) equal to -2 dB. PRB range of subband 7 according downlink SINR post-compensation and the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 5 MHz refers tonumber PRB#24 the respective of calculated values where TTI by using the most recent subband CQIs 10 MHz refers to UE's PRB#36 PRB#41 each is or greater than -2to dB and lessSubband than or 7 (i.e. 2one CQIs codewords) to calculate 15 MHz and 20 MHz refers to PRB#48 toaccording PRB#55 equal to 0 dB. PRB range of subband 7 downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 5 MHz refers tonumber PRB#24 the respective of calculated values where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#36 to PRB#41 each one is greater than 0 dB and less than or 7 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#48 to PRB#55 equal to 2SINR dB. PRB range of subband according downlink post-compensation and7 the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 5 MHz refers tonumber PRB#24 the respective of calculated values where TTI by using the most recent subband CQIs 10 MHz refers to UE's PRB#36 PRB#41 each is or greater than 2 to dB and less Subband than or 7 (i.e. 2one CQIs codewords) to calculate 15 MHz and 20 MHz refers to PRB#48 toaccording PRB#55 equal to 4 dB. PRB range of subband 7 downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 5 MHz refers tonumber PRB#24 the respective of calculated values where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#36 to PRB#41 each one is greater than 4 dB and less than or 7 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#48 to PRB#55 equal to 6SINR dB. PRB range of subband according downlink post-compensation and7 the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 5 MHz refers tonumber PRB#24 the respective of calculated values where TTI by using the most recent subband CQIs 10 MHz refers to UE's PRB#36 PRB#41 each is or greater than 6 to dB and less Subband than or 7 (i.e. 2one CQIs codewords) to calculate 15 MHz and 20 MHz refers to PRB#48 toaccording PRB#55 equal to 8 dB. PRB range of subband 7 downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 5 MHz refers tonumber PRB#24 the respective of calculated values where TTIMHz by using the UE's most recent subband CQIs 10 refers to PRB#36 to PRB#41 each one is greater than 8 dB and less than or 7 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#48 to PRB#55 equal to 10 dB. post-compensation PRB range of subband according downlink SINR and 7the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 5 MHz refers tonumber PRB#24 the respective of calculated values where TTI by using the mosttorecent subband CQIs 10 MHz refers to UE's PRB#36 PRB#41 each one is or greater than 10 dB and lessSubband than or 7 (i.e. 2 CQIs codewords) to calculate 15 MHz and 20 PRB MHz range refers of to subband PRB#48 to PRB#55 equal to 12 dB. 7 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 5 MHz refers tonumber PRB#24 the respective of calculated values where TTIMHz by using the UE's most subband CQIs 10 refers to PRB#36 torecent PRB#41 each one is greater than 12 dB and less than or 7 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#48 to PRB#55 equal to 14 db. post-compensation PRB range of subband according downlink SINR and 7the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 5 MHz refers tonumber PRB#24 the respective of calculated values where TTI by using the mosttorecent subband CQIs 10 MHz refers to UE's PRB#36 PRB#41 each one is or greater than 14 dB and lessSubband than or 7 (i.e. 2 CQIs codewords) to calculate 15 MHz and 20 PRB MHz range refers of to subband PRB#48 to PRB#55 equal to 16 dB. 7 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 5 MHz refers tonumber PRB#24 the respective of calculated values where TTIMHz by using the UE's most subband CQIs 10 refers to PRB#36 torecent PRB#41 each one is greater than 16 dB and less than or 7 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#48 to PRB#55 equal to 18 dB. post-compensation PRB range of subband according downlink SINR and 7the bin is to frequency: incremented every sample period (5 seconds) with 5 MHz refers tonumber PRB#24 the respective of calculated values where 10 MHz refers to PRB#36 todB PRB#41 each one is greater than 18 and less than or 15 MHz and 20 MHz refers to PRB#48 to PRB#55 equal to 20 dB. PRB range of subband 7 according to frequency: 5 MHz refers to PRB#24 10 MHz refers to PRB#36 to PRB#41 15 MHz and 20 MHz refers to PRB#48 to PRB#55
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 7is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 7is downlink SINR This measurement updated for each one is greater than -4 dB and post-compensation and the bin each UE every TTItoby-2using theis less than or equal dB. PRB incremented everysubband sample CQIs period (5 UE's most recent range of subband 7 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 7is downlink SINR 5 MHz refers to PRB#24 This measurement updated for each one is greater than -2 dB and post-compensation and the bin 10 MHz refers to PRB#36 to each UE every TTItoby0 using theis less than or equal dB. PRB incremented everysubband sample CQIs period (5 PRB#41 UE's most recent range of subband 7 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7is downlink SINR 5 MHz refers to PRB#24 This measurement updated for each one is greater than 0 dB and post-compensation and the bin 10 MHz refers to PRB#36 to each UE every TTItoby2 using theis less than or equal dB. PRB incremented every sample period (5 PRB#41 UE's most recent subband CQIs range of subband 7 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7is downlink SINR 5 MHz refers to PRB#24 This measurement updated for each one is greater than 2 dB and post-compensation and the bin 10 MHz refers to PRB#36 to eachthan UE every TTItoby4 using theis less or equal dB. PRB incremented every sample period (5 PRB#41 UE's most recent subband CQIs range of subband 7 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7 downlink SINR 5 MHz refers to PRB#24 This measurement isthan updated for each one is greater 4 dB and post-compensation and the bin 10 MHz refers to PRB#36 to each UE every TTItoby6 using theis less than or equal dB. PRB incremented every sample period (5 PRB#41 UE's most recent subband CQIs range of subband 7 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7is downlink SINR 5 MHz refers to PRB#24 This measurement updated for each one is greater than 6 dB and post-compensation and the bin 10 MHz refers to PRB#36 to eachthan UE every TTItoby8 using theis less or equal dB. PRB incremented every sample period (5 PRB#41 UE's most recent subband CQIs range of subband 7 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7 downlink SINR 5 MHz refers to PRB#24 This measurement isthan updated for each one is greater 8 dB and post-compensation and the bin 10 MHz refers to PRB#36 to each UE every TTItoby10using theis less than or equal dB.period PRB incremented every sample (5 PRB#41 UE's most recent subband CQIs range of subband 7 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7is downlink SINR 5 MHz refers to PRB#24 This measurement updated each one is greater than 10 bin dBfor and post-compensation and the 10 MHz refers to PRB#36 to eachthan UE every TTItoby12using theis less or equal dB. PRB incremented everysubband sample CQIs period (5 PRB#41 UE's most recent range of subband 7 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7is downlink SINR 5 MHz refers to PRB#24 This measurement updated each one is greater than 12 bin dBfor and post-compensation and the 10 MHz to PRB#36 toPRB each UErefers every TTI by14using theis less than or equal to db. incremented everysubband sample CQIs period (5 PRB#41 UE's most recent range of subband 7 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7is downlink SINR 5 MHz refers to PRB#24 This measurement updated each one is greater than 14 bin dBfor and post-compensation and the 10 MHz refers to PRB#36 to eachthan UE every TTItoby16using theis less or equal dB. PRB incremented everysubband sample CQIs period (5 PRB#41 UE's most recent range of subband 7 according to seconds) with the respective 15 andor 20codewords) MHz refersto to (i.e.MHz 2 CQIs frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7 downlink SINR 5 MHzone refers to PRB#24 each is greater than 16 bin dB and post-compensation and the is 10 MHz to PRB#36 toPRB less thanrefers or equal 18 dB. incremented everyto sample period (5 PRB#41 range of subband 7 according to seconds) with20the respective 15 MHz and MHz refers to frequency: number of calculated values where PRB#48 to PRB#55 5 MHzone refers to PRB#24 each is greater than 18 dB and 10 to PRB#36 toPRB lessMHz thanrefers or equal to 20 dB. PRB#41 range of subband 7 according to 15 MHz and 20 MHz refers to frequency: PRB#48 to PRB#55 5 MHz refers to PRB#24
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 7 downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 20todB and lessSubband than or 7 (i.e. 2one CQIs codewords) calculate equal to 22 dB. PRB range of subband 7 according downlink SINR post-compensation and the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 5 MHz refers tonumber PRB#24 the respective of calculated values where TTI by using the mosttorecent subband CQIs 10 MHz refers to UE's PRB#36 PRB#41 each is or greater than 22 dB and lessSubband than or 7 (i.e. 2one CQIs codewords) to calculate 15 MHz and 20 MHz refers to PRB#48 to PRB#55 equal to 24 dB. PRB range of subband 7 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 5 MHz refers tonumber PRB#24 the respective of calculated values where TTIMHz by using the UE's most subband CQIs 10 refers to PRB#36 torecent PRB#41 each one is greater than 24 dB and less than or 7 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#48 to PRB#55 equal to 26 dB. post-compensation PRB range of subband according downlink SINR and 7the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 5 MHz refers tonumber PRB#24 the respective of calculated values where TTI by using the mosttorecent subband CQIs 10 MHz refers to UE's PRB#36 PRB#41 each is or greater than 26 dB and lessSubband than or 7 (i.e. 2one CQIs codewords) to calculate 15 MHz and 20 MHz refers to PRB#48 to PRB#55 equal to 28 dB. PRB range of subband 7 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 5 MHz refers tonumber PRB#24 the respective of calculated values where TTIMHz by using the UE's most subband CQIs 10 refers to PRB#36 torecent PRB#41 each one is greater than 28 dB and less than or 8 (i.e.MHz 2 CQIs or codewords) to calculate Subband 15 and 20 MHz refers to PRB#48 to PRB#55 equal to 30 dB. post-compensation PRB range of subband according downlink SINR and 7the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 5 MHz refers tonumber PRB#24 the respective of calculated values where TTI by using the most recent subband CQIs 10 MHz refers to UE's PRB#36 PRB#41 each is or greater than orto equal to -10Subband dB and 8 (i.e. 2one CQIs codewords) to calculate 15 MHz and 20 MHz refers to PRB#48 to PRB#55 less than or equal to -8 dB. PRB range of downlink SINR post-compensation and thesubband bin is 8 according toevery frequency: incremented sample period (5 seconds) with This measurement is updated for each UE every 10 MHz refers number to PRB#42 to PRB#47 the respective of calculated values where TTIMHz by using theMHz UE'srefers most to recent subband CQIs 15 and 20 PRB#56 tothan PRB#63 each is or greater than -8to dBcalculate and lessSubband or 8 (i.e. 2one CQIs codewords) equal to -6 dB. PRB range of subband 8 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#42 to PRB#47 the respective of calculated values where TTI by using the UE's most recent subband CQIs 15 MHz and 20 MHzthan refers to PRB#56 tothan PRB#63 each one is greater -6 dB and less or 8 (i.e. 2 CQIs or codewords) to calculate Subband equal to -4 dB. PRB range of subband 8 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#42 to PRB#47 the respective of calculated values where TTIMHz by using theMHz UE'srefers most recent subband CQIs 15 and 20 to PRB#56 tothan PRB#63 each one is greater than -4 dB and less or 8 (i.e. 2 CQIs or codewords) to calculate Subband equal to -2 dB. PRB range of subband 8 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#42 to PRB#47 the respective of calculated values where TTI by using theMHz UE'srefers most recent subband CQIs 15 MHz and 20 to PRB#56 tothan PRB#63 each one is greater than -2 dB and less or 8 (i.e. 2 CQIs or codewords) to calculate Subband equal to 0 dB. PRB range of subband 8 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#42 to PRB#47 the respective of calculated values where TTIMHz by using theMHz UE'srefers most recent subband CQIs 15 and 20 to PRB#56 to PRB#63 each one is greater than 0 dB and less than or 8 (i.e. 2 CQIs or codewords) to calculate Subband equal to 2 dB. PRB range of subband 8 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented 10 refers number to PRB#42 to PRB#47values where theMHz respective of calculated 15 MHz and 20 MHz refers to PRB#56 PRB#63 each one is greater than 2 dB and less to than or equal to 4 dB. PRB range of subband 8 according to frequency: 10 MHz refers to PRB#42 to PRB#47 15 MHz and 20 MHz refers to PRB#56 to PRB#63
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 7is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 7is downlink SINR This measurement updated each one is greater than 20 bin dBfor and post-compensation and the each UE every TTItoby22using theis less than or equal dB. PRB incremented everysubband sample CQIs period (5 UE's most recent range of subband 7 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 7is downlink SINR 5 MHz refers to PRB#24 This measurement updated each one is greater than 22 bin dBfor and post-compensation and the 10 MHz refers to PRB#36 to each UE every TTItoby24using theis less than or equal dB. PRB incremented everysubband sample CQIs period (5 PRB#41 UE's most recent range of subband 7 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7is downlink SINR 5 MHz refers to PRB#24 This measurement updated each one is greater than 24 bin dBfor and post-compensation and the 10 MHz refers to PRB#36 to each UE every TTItoby26using theis less than or equal dB. PRB incremented everysubband sample CQIs period (5 PRB#41 UE's most recent range of subband 7 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7is downlink SINR 5 MHz refers to PRB#24 This measurement updated each one is greater than 26 bin dBfor and post-compensation and the 10 MHz refers to PRB#36 to eachthan UE every TTItoby28using theis less or equal dB. PRB incremented everysubband sample CQIs period (5 PRB#41 UE's most recent range of subband 7 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 8is downlink SINR 5 MHz refers to PRB#24 This measurement updated each one is greater than 28 bin dBfor and post-compensation and the 10 MHz refers to PRB#36 to each UE every TTItoby30using theis less than or equal dB. PRB incremented everysubband sample CQIs period (5 PRB#41 UE's most recent range of subband 7 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 8is downlink SINR 5 MHz refers to PRB#24 This measurement updated for each one is greater than or equal post-compensation and the bin is to 10 MHz refers to PRB#36 to eachdBUE every TTI byorusing the -10 and less than equal to incremented everysubband sample CQIs period-8(5 PRB#41 UE's mostrange recent dB. PRB of subband 8 seconds) with the respective 15 MHz and 20 MHz refersto to (i.e. 2 CQIs or codewords) according to frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 8 downlink SINR 10 MHz to PRB#42 This measurement isthan updated for each onerefers is greater -8todB and post-compensation and the bin PRB#47 each UE every TTItoby-6using theis less than or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 8 according seconds) with the respective PRB#56 to PRB#63 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 8is downlink SINR 10 MHz refers to PRB#42 This measurement updated for each one is greater than -6todB and post-compensation and the bin PRB#47 each UE every TTItoby-4using theis less than or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 8 according seconds) with the respective PRB#56 to PRB#63 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 8is downlink SINR 10 MHz refers to PRB#42 This measurement updated for each one is greater than -4todB and post-compensation and the bin PRB#47 each UE every TTItoby-2using theis less than or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 8 according seconds) with the respective PRB#56 to PRB#63 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 8is downlink SINR 10 MHz refers to PRB#42 This measurement updated for each one is greater than -2todB and post-compensation and the bin PRB#47 eachthan UE every TTItoby0 using theis less or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 8 according seconds) with the respective PRB#56 to PRB#63 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 8 downlink SINR 10 MHz refers to PRB#42 each one is greater than 0 to dB and post-compensation and the bin is PRB#47 less than or equal to 2 dB. PRB incremented every sample period (5 15 MHz and 20 MHz refers to range of subband 8 according to seconds) with the respective PRB#56 to PRB#63 frequency: number of calculated values where 10 MHz to PRB#42 each onerefers is greater than 2 to dB and PRB#47 less than or equal to 4 dB. PRB 15 MHz 20 MHz refers to to range of and subband 8 according PRB#56 to PRB#63 frequency: 10 MHz refers to PRB#42 to
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 8 downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 4 dB and less Subband than or 8 (i.e. 2one CQIs codewords) to calculate equal to 6 dB. PRB range of subband 8 according downlink SINR post-compensation and the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 10 MHz refers number to PRB#42 to PRB#47 the respective of calculated values where TTI by using theMHz UE'srefers most to recent subband CQIs 15 MHz and 20 PRB#56 to PRB#63 each is or greater than 6 dB and less Subband than or 8 (i.e. 2one CQIs codewords) to calculate equal to 8 dB. PRB range of subband 8 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#42 to PRB#47 the respective of calculated values where TTIMHz by using theMHz UE'srefers most recent subband CQIs 15 and 20 to PRB#56 to PRB#63 each one is greater than 8 dB and less than or 8 (i.e. 2 CQIs or codewords) to calculate Subband equal to 10 dB. PRB range of subband 8 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#42 to PRB#47 the respective of calculated values where TTI by using the UE's most recent subband CQIs 15 MHz and 20 MHzthan refers to PRB#56 tothan PRB#63 each one is greater 10 dB and less or 8 (i.e. 2 CQIs or codewords) to calculate Subband equal to 12 dB. PRB range of subband 8 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#42 to PRB#47 the respective of calculated values where TTIMHz by using theMHz UE'srefers most recent subband CQIs 15 and 20 to PRB#56 tothan PRB#63 each one is greater than 12 dB and less or 8 (i.e. 2 CQIs or codewords) to calculate Subband equal to 14 db. PRB range of subband 8 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#42 to PRB#47 the respective of calculated values where TTI by using the UE's most recent subband CQIs 15 MHz and 20 MHzthan refers to PRB#56 tothan PRB#63 each one is greater 14 dB and less or 8 (i.e. 2 CQIs or codewords) to calculate Subband equal to 16 dB. PRB range of subband 8 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#42 to PRB#47 the respective of calculated values where TTIMHz by using theMHz UE'srefers most recent subband CQIs 15 and 20 to PRB#56 tothan PRB#63 each one is greater than 16 dB and less or 8 (i.e. 2 CQIs or codewords) to calculate Subband equal to 18 dB. PRB range of subband 8 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#42 to PRB#47 the respective of calculated values where TTI by using the UE's most recent subband CQIs 15 MHz and 20 MHzthan refers to PRB#56 tothan PRB#63 each one is greater 18 dB and less or 8 (i.e. 2 CQIs or codewords) to calculate Subband equal to 20 dB. PRB range of subband 8 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#42 to PRB#47 the respective of calculated values where TTIMHz by using theMHz UE'srefers most recent subband CQIs 15 and 20 to PRB#56 tothan PRB#63 each one is greater than 20 dB and less or 8 (i.e. 2 CQIs or codewords) to calculate Subband equal to 22 dB. PRB range of subband 8 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#42 to PRB#47 the respective of calculated values where TTI by using theMHz UE'srefers most recent subband CQIs 15 MHz and 20 to PRB#56 tothan PRB#63 each one is greater than 22 dB and less or 8 (i.e. 2 CQIs or codewords) to calculate Subband equal to 24 dB. PRB range of subband 8 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#42 to PRB#47 the respective of calculated values where TTIMHz by using theMHz UE'srefers most recent subband CQIs 15 and 20 to PRB#56 tothan PRB#63 each one is greater than 24 dB and less or 8 (i.e. 2 CQIs or codewords) to calculate Subband equal to 26 dB. PRB range of subband 8 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented 10 refers number to PRB#42 to PRB#47values where theMHz respective of calculated 15 MHz and 20 MHz refers PRB#63 each one is greater than 26to dBPRB#56 and lesstothan or
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 8is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 8is downlink SINR This measurement updated for each one is greater than 4 dB and post-compensation and the bin each UE every TTItoby6 using theis less than or equal dB. PRB incremented every sample period (5 UE's most recent subband CQIs range of subband 8 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 8is downlink SINR 10 MHz refers to PRB#42 This measurement updated for each one is greater than 6 to dB and post-compensation and the bin PRB#47 each UE every TTItoby8 using theis less than or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 8 according seconds) with the respective PRB#56 to PRB#63 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 8is downlink SINR 10 MHz refers to PRB#42 This measurement updated for each one is greater than 8 to dB and post-compensation and the bin PRB#47 each UE every TTItoby10using theis less than or equal dB.period PRB incremented every sample (5 15 MHz and 20 MHz refers to UE's most recent subband CQIs range of subband 8 according to seconds) with the respective PRB#56 to PRB#63 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 8is downlink SINR 10 MHz refers to PRB#42 todBfor This measurement updated each one is greater than 10 and post-compensation and the bin PRB#47 eachthan UE every TTItoby12using theis less or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 8 according seconds) with the respective PRB#56 to PRB#63 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 8is downlink SINR 10 MHz refers to PRB#42 todBfor This measurement updated each one is greater than 12 and post-compensation and the bin PRB#47 each UE every TTItoby14using theis less than or equal db. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 8 according seconds) with the respective PRB#56 to PRB#63 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 8is downlink SINR 10 MHz refers to PRB#42 todBfor This measurement updated each one is greater than 14 and post-compensation and the bin PRB#47 eachthan UE every TTItoby16using theis less or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 8 according seconds) with the respective PRB#56 to PRB#63 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 8is downlink SINR 10 MHz refers to PRB#42 todBfor This measurement updated each one is greater than 16 and post-compensation and the bin PRB#47 each UE every TTItoby18using theis less than or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 8 according seconds) with the respective PRB#56 to PRB#63 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 8is downlink SINR 10 MHz refers to PRB#42 todBfor This measurement updated each one is greater than 18 and post-compensation and the bin PRB#47 eachthan UE every TTItoby20using theis less or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 8 according seconds) with the respective PRB#56 to PRB#63 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 8is downlink SINR 10 MHz refers to PRB#42 todBfor This measurement updated each one is greater than 20 and post-compensation and the bin PRB#47 each UE every TTItoby22using theis less than or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 8 according seconds) with the respective PRB#56 to PRB#63 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 8is downlink SINR 10 MHz refers to PRB#42 todBfor This measurement updated each one is greater than 22 and post-compensation and the bin PRB#47 eachthan UE every TTItoby24using theis less or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 8 according seconds) with the respective PRB#56 to PRB#63 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 8 downlink 10 MHz refers to PRB#42 todBSINR each one is greater than 24 post-compensation and the bin and is PRB#47 less than or equal to 26 dB. PRB (5 incremented every sample period 15 MHz and 20 MHz refers to of subband 8 according to equal to 28 dB. PRB range of subband 8 according range seconds) with the respective PRB#56 to PRB#63 frequency: to frequency: number of calculated values where 10 MHz to PRB#42 todB and 10 MHz refers to PRB#42 to PRB#47 each onerefers is greater than 26 PRB#47 15 MHz and 20 MHz refers to PRB#56 to PRB#63 less than or equal to 28 dB. PRB 15 MHz 20 MHz refers to to range of and subband 8 according PRB#56 to PRB#63 frequency: 10 MHz refers to PRB#42 to
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 8 downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 28todB and lessSubband than or 9 (i.e. 2one CQIs codewords) calculate equal to 30 dB. PRB range of subband 8 according downlink SINR post-compensation and the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 10 MHz refers number to PRB#42 to PRB#47 the respective of calculated values where TTI by using theMHz UE'srefers most to recent subband CQIs 15 MHz and 20 PRB#56 todB PRB#63 each is or greater than orto equal to -10Subband and 9 (i.e. 2one CQIs codewords) calculate less than SINR or equal to -8 dB. PRB range downlink post-compensation and of thesubband bin is 9 according to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 10 MHz refers number to PRB#48 to PRB#49 the respective of calculated values where TTIMHz by using theMHz UE'srefers most to recent subband CQIs 15 and 20 PRB#64 tothan PRB#71 each is or greater than -8to dBcalculate and lessSubband or 9 (i.e. 2one CQIs codewords) equal to -6 dB. PRB range of subband 9 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#48 to PRB#49 the respective of calculated values where TTI by using the UE's most recent subband CQIs 15 MHz and 20 MHzthan refers to PRB#64 tothan PRB#71 each one is greater -6 dB and less or 9 (i.e. 2 CQIs or codewords) to calculate Subband equal to -4 dB. PRB range of subband 9 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#48 to PRB#49 the respective of calculated values where TTIMHz by using theMHz UE'srefers most recent subband CQIs 15 and 20 to PRB#64 tothan PRB#71 each one is greater than -4 dB and less or 9 (i.e. 2 CQIs or codewords) to calculate Subband equal to -2 dB. PRB range of subband 9 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#48 to PRB#49 the respective of calculated values where TTI by using the UE's most recent subband CQIs 15 MHz and 20 MHzthan refers to PRB#64 tothan PRB#71 each one is greater -2 dB and less or 9 (i.e. 2 CQIs or codewords) to calculate Subband equal to 0 dB. PRB range of subband 9 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#48 to PRB#49 the respective of calculated values where TTIMHz by using theMHz UE'srefers most recent subband CQIs 15 and 20 to PRB#64 to PRB#71 each one is greater than 0 dB and less than or 9 (i.e. 2 CQIs or codewords) to calculate Subband equal to 2 dB. PRB range of subband 9 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#48 to PRB#49 the respective of calculated values where TTI by using the UE's most recent subband CQIs 15 MHz and 20 MHzthan refers to PRB#64 to PRB#71 each one is greater 2 dB and less than or 9 (i.e. 2 CQIs or codewords) to calculate Subband equal to 4 dB. PRB range of subband 9 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#48 to PRB#49 the respective of calculated values where TTIMHz by using theMHz UE'srefers most recent subband CQIs 15 and 20 to PRB#64 to PRB#71 each one is greater than 4 dB and less than or 9 (i.e. 2 CQIs or codewords) to calculate Subband equal to 6 dB. PRB range of subband 9 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#48 to PRB#49 the respective of calculated values where TTI by using theMHz UE'srefers most recent subband CQIs 15 MHz and 20 to PRB#64 to PRB#71 each one is greater than 6 dB and less than or 9 (i.e. 2 CQIs or codewords) to calculate Subband equal to 8 dB. PRB range of subband 9 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#48 to PRB#49 the respective of calculated values where TTIMHz by using theMHz UE'srefers most recent subband CQIs 15 and 20 to PRB#64 to PRB#71 each one is greater than 8 dB and less than or 9 (i.e. 2 CQIs or codewords) to calculate Subband equal to 10 dB. PRB range of subband 9 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented 10 refers number to PRB#48 to PRB#49values where theMHz respective of calculated 15 MHz and 20 MHz refers PRB#71 each one is greater than 10to dBPRB#64 and lesstothan or
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 8is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 9is downlink SINR This measurement updated each one is greater than 28 bin dBfor and post-compensation and the each UE every TTItoby30using theis less than or equal dB. PRB incremented everysubband sample CQIs period (5 UE's most recent range of subband 8 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#42 This measurement updated for each one is greater than ortoequal post-compensation and the bin is to PRB#47 each UE every TTI byorusing the -10 dB and less than equal to -8(5 incremented every sample period 15 MHz and 20 MHz refers CQIs to UE's most recent subband dB. PRB range of subband 9 seconds) with the respective PRB#56 to PRB#63 (i.e. 2 CQIs or codewords) to according to frequency: number of calculated values where calculate Subband 9 downlink SINR 10 MHz to PRB#48 This measurement isthan updated for each onerefers is greater -8todB and post-compensation and the bin PRB#49 each UE every TTItoby-6using theis less than or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 9 according seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#48 This measurement updated for each one is greater than -6todB and post-compensation and the bin PRB#49 eachthan UE every TTItoby-4using theis less or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 9 according seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#48 This measurement updated for each one is greater than -4todB and post-compensation and the bin PRB#49 each UE every TTItoby-2using theis less than or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 9 according seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#48 This measurement updated for each one is greater than -2todB and post-compensation and the bin PRB#49 eachthan UE every TTItoby0 using theis less or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 9 according seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#48 This measurement updated for each one is greater than 0 to dB and post-compensation and the bin PRB#49 each UE every TTItoby2 using theis less than or equal dB. PRB incremented every sample period (5 15 MHz and 20 MHz refers to UE's most recent subband CQIs range of subband 9 according to seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#48 This measurement updated for each one is greater than 2 to dB and post-compensation and the bin PRB#49 eachthan UE every TTItoby4 using theis less or equal dB. PRB incremented every sample period (5 15 MHz and 20 MHz refers to UE's most recent subband CQIs range of subband 9 according to seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#48 This measurement updated for each one is greater than 4 to dB and post-compensation and the bin PRB#49 each UE every TTItoby6 using theis less than or equal dB. PRB incremented every sample period (5 15 MHz and 20 MHz refers to UE's most recent subband CQIs range of subband 9 according to seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#48 This measurement updated for each one is greater than 6 to dB and post-compensation and the bin PRB#49 eachthan UE every TTItoby8 using theis less or equal dB. PRB incremented every sample period (5 15 MHz and 20 MHz refers to UE's most recent subband CQIs range of subband 9 according to seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9 downlink SINR 10 MHz refers to PRB#48 each one is greater than 8 to dB and post-compensation and the bin is PRB#49 less than or equal to 10 dB.period PRB (5 incremented every sample 15 MHz and 20 MHz refers to of subband 9 according to equal to 12 dB. PRB range of subband 9 according range seconds) with the respective PRB#64 to PRB#71 frequency: to frequency: number of calculated values where 10 MHz to PRB#48 todB and 10 MHz refers to PRB#48 to PRB#49 each onerefers is greater than 10 PRB#49 15 MHz and 20 MHz refers to PRB#64 to PRB#71 less than or equal to 12 dB. PRB 15 MHz 20 MHz refers to to range of and subband 9 according PRB#64 to PRB#71 frequency: 10 MHz refers to PRB#48 to
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 9 downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 12todB and lessSubband than or 9 (i.e. 2one CQIs codewords) calculate equal to 14 db. PRB range of subband 9 according downlink SINR post-compensation and the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 10 MHz refers number to PRB#48 to PRB#49 the respective of calculated values where TTI by using theMHz UE'srefers most to recent subband CQIs 15 MHz and 20 PRB#64 tothan PRB#71 each is or greater than 14to dB and lessSubband or 9 (i.e. 2one CQIs codewords) calculate equal to 16 dB. PRB range of subband 9 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#48 to PRB#49 the respective of calculated values where TTIMHz by using theMHz UE'srefers most recent subband CQIs 15 and 20 to PRB#64 tothan PRB#71 each one is greater than 16 dB and less or 9 (i.e. 2 CQIs or codewords) to calculate Subband equal to 18 dB. PRB range of subband 9 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#48 to PRB#49 the respective of calculated values where TTI by using the UE's most recent subband CQIs 15 MHz and 20 MHzthan refers to PRB#64 tothan PRB#71 each one is greater 18 dB and less or 9 (i.e. 2 CQIs or codewords) to calculate Subband equal to 20 dB. PRB range of subband 9 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#48 to PRB#49 the respective of calculated values where TTIMHz by using theMHz UE'srefers most recent subband CQIs 15 and 20 to PRB#64 tothan PRB#71 each one is greater than 20 dB and less or 9 (i.e. 2 CQIs or codewords) to calculate Subband equal to 22 dB. PRB range of subband 9 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#48 to PRB#49 the respective of calculated values where TTI by using the UE's most recent subband CQIs 15 MHz and 20 MHzthan refers to PRB#64 tothan PRB#71 each one is greater 22 dB and less or 9 (i.e. 2 CQIs or codewords) to calculate Subband equal to 24 dB. PRB range of subband 9 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#48 to PRB#49 the respective of calculated values where TTIMHz by using theMHz UE'srefers most recent subband CQIs 15 and 20 to PRB#64 tothan PRB#71 each one is greater than 24 dB and less or 9 (i.e. 2 CQIs or codewords) to calculate Subband equal to 26 dB. PRB range of subband 9 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#48 to PRB#49 the respective of calculated values where TTI by using the UE's most recent subband CQIs 15 MHz and 20 MHzthan refers to PRB#64 tothan PRB#71 each one is greater 26 dB and less or 9 (i.e. 2 CQIs or codewords) to calculate Subband equal to 28 dB. PRB range of subband 9 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#48 to PRB#49 the respective of calculated values where TTIMHz by using theMHz UE'srefers most recent subband CQIs 15 and 20 to PRB#64 tothan PRB#71 each one is greater than 28 dB and less or 10 (i.e. 2 CQIs or codewords) to calculate Subband equal to 30 dB. PRB range of subband 9 according downlink SINR post-compensation and the bin is to frequency:every sample period (5 seconds) with incremented This measurement is updated for each UE every 10 MHz refers number to PRB#48 to PRB#49 the respective of calculated values where TTI by using theMHz UE'srefers most recent subband CQIs 15 MHz and 20 to PRB#64 todB PRB#71 each one is greater than or equal to -10 and 10 (i.e. 2 CQIs or codewords) to calculate Subband less than SINR or equal to -8 dB. PRB range downlink post-compensation and of thesubband bin is 10 according to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 15 MHz refers number to PRB#72 to PRB#74 the respective of calculated values where TTIMHz by using the most recent subband CQIs 20 refers to UE's PRB#72 PRB#79 each is or greater than -8to dB and lessSubband than or 10 (i.e. 2one CQIs codewords) to calculate equal to -6 dB. PRB range of subband 10 downlink SINR post-compensation and the bin is according to frequency: incremented every sample period (5 seconds) with 15 MHz refers to PRB#72 to PRB#74values where the respective number of calculated 20 MHz refers to PRB#72 PRB#79 each one is greater than -6todB and less than or equal to -4 dB. PRB range of subband 10 according to frequency: 15 MHz refers to PRB#72 to PRB#74 20 MHz refers to PRB#72 to PRB#79
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 9is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 9is downlink SINR This measurement updated each one is greater than 12 bin dBfor and post-compensation and the each UE every TTItoby14using theis less than or equal db. PRB incremented everysubband sample CQIs period (5 UE's most recent range of subband 9 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#48 todBfor This measurement updated each one is greater than 14 and post-compensation and the bin PRB#49 each UE every TTItoby16using theis less than or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 9 according seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#48 todBfor This measurement updated each one is greater than 16 and post-compensation and the bin PRB#49 each UE every TTItoby18using theis less than or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 9 according seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#48 todBfor This measurement updated each one is greater than 18 and post-compensation and the bin PRB#49 eachthan UE every TTItoby20using theis less or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 9 according seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#48 todBfor This measurement updated each one is greater than 20 and post-compensation and the bin PRB#49 each UE every TTItoby22using theis less than or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 9 according seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#48 todBfor This measurement updated each one is greater than 22 and post-compensation and the bin PRB#49 eachthan UE every TTItoby24using theis less or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 9 according seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#48 todBfor This measurement updated each one is greater than 24 and post-compensation and the bin PRB#49 each UE every TTItoby26using theis less than or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 9 according seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#48 todBfor This measurement updated each one is greater than 26 and post-compensation and the bin PRB#49 eachthan UE every TTItoby28using theis less or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 9 according seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 10 downlink 10 MHz refers to PRB#48 todBfor This measurement isthan updated each one is greater 28 and SINR post-compensation andthe the PRB#49 each UE every TTItoby30using less than or equal dB. PRB bin ismost incremented every sample 15 MHz and 20 MHz refers to to UE's recent subband CQIs range of subband 9with according period (5 seconds) the PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: respective number of calculated calculate Subband 10 downlink 10 MHz refers to PRB#48 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#49 each or UEequal everytoTTI by the than -10every dBusing and less bin is incremented sample 15 MHz and 20 MHz refers to UE's most recent CQIs than or equal to -8subband dB. period (5 seconds) withPRB thetorange PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) of subband 10 according to respective number of calculate Subband 10calculated downlink frequency: values where each one is and greater SINR post-compensation the 15 MHz refers to PRB#72 toequal than -8 dB and less than or to bin is incremented every sample PRB#74 -6 dB. PRB range of subband 10 period seconds) with theto 20 MHz(5refers to PRB#72 according to frequency: respective number of calculated PRB#79 15 MHzwhere referseach to PRB#72 to values one is greater PRB#74 than -6 dB and less than or equal to 20 MHzPRB refers to PRB#72 to 10 -4 dB. range of subband PRB#79 according to frequency: 15 MHz refers to PRB#72 to
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 10 downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than -4to dBcalculate and lessSubband than or 10 (i.e. 2one CQIs codewords) equal to -2 dB. PRB range of subband 10 downlink SINR post-compensation and the bin is according to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 15 MHz refers to PRB#72 to PRB#74 the respective number of calculated values where TTI by using the most recent subband CQIs 20 MHz refers to UE's PRB#72 PRB#79 each is or greater than -2to dB and lessSubband than or 10 (i.e. 2one CQIs codewords) to calculate equal to 0 dB. PRB range of subband 10 according downlink SINR post-compensation and the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 15 MHz refers number to PRB#72 to PRB#74 the respective of calculated values where TTIMHz by using the most recent subband CQIs 20 refers to UE's PRB#72 PRB#79 each is or greater than 0 to dB and less Subband than or 10 (i.e. 2one CQIs codewords) to calculate equal to 2 dB. PRB range of subband 10 according downlink SINR post-compensation and the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 15 MHz refers number to PRB#72 to PRB#74 the respective of calculated values where TTI by using the most recent subband CQIs 20 MHz refers to UE's PRB#72 PRB#79 each is or greater than 2 to dB and less Subband than or 10 (i.e. 2one CQIs codewords) to calculate equal to 4 dB. PRB range of subband 10 according downlink SINR post-compensation and the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 15 MHz refers number to PRB#72 to PRB#74 the respective of calculated values where TTIMHz by using the most recent subband CQIs 20 refers to UE's PRB#72 PRB#79 each is or greater than 4 to dB and less Subband than or 10 (i.e. 2one CQIs codewords) to calculate equal to 6 dB. PRB range of subband 10 according downlink SINR post-compensation and the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 15 MHz refers number to PRB#72 to PRB#74 the respective of calculated values where TTI by using the most recent subband CQIs 20 MHz refers to UE's PRB#72 PRB#79 each is or greater than 6 to dB and less Subband than or 10 (i.e. 2one CQIs codewords) to calculate equal to 8 dB. PRB range of subband 10 according downlink SINR post-compensation and the bin is to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 15 MHz refers number to PRB#72 to PRB#74 the respective of calculated values where TTIMHz by using the most recent subband CQIs 20 refers to UE's PRB#72 PRB#79 each is or greater than 8 to dB and less Subband than or 10 (i.e. 2one CQIs codewords) to calculate equal to 10 dB. PRB range of subband downlink SINR post-compensation and 10 the bin is according to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 15 MHz refers number to PRB#72 to PRB#74 the respective of calculated values where TTI by using the mosttorecent subband CQIs 20 MHz refers to UE's PRB#72 PRB#79 each is or greater than 10 and lessSubband than or 10 (i.e. 2one CQIs codewords) todB calculate equal to 12 dB. PRB range of subband 10 downlink SINR post-compensation and the bin is according to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 15 MHz refers to PRB#72 to PRB#74 the respective number of calculated values where TTIMHz by using the mosttorecent subband CQIs 20 refers to UE's PRB#72 PRB#79 each is or greater than 12 and lessSubband than or 10 (i.e. 2one CQIs codewords) todB calculate equal to 14 db. PRB range of subband 10 downlink SINR post-compensation and the bin is according to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 15 MHz refers to PRB#72 to PRB#74 the respective number of calculated values where TTI by using the mosttorecent subband CQIs 20 MHz refers to UE's PRB#72 PRB#79 each is or greater than 14 and lessSubband than or 10 (i.e. 2one CQIs codewords) todB calculate equal to 16 dB. PRB range of subband 10 downlink SINR post-compensation and the bin is according to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 15 MHz refers to PRB#72 to PRB#74 the respective number of calculated values where TTIMHz by using the mosttorecent subband CQIs 20 refers to UE's PRB#72 PRB#79 each is or greater than 16 and lessSubband than or 10 (i.e. 2one CQIs codewords) todB calculate equal to 18 dB. PRB range of subband 10 downlink SINR post-compensation and the bin is according to frequency: incremented every sample period (5 seconds) with 15 MHz refers to PRB#72 to PRB#74values where the respective number of calculated 20 MHz refers to PRB#72 todB PRB#79 each one is greater than 18 and less than or equal to 20 dB. PRB range of subband 10 according to frequency: 15 MHz refers to PRB#72 to PRB#74 20 MHz refers to PRB#72 to PRB#79
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 10 downlinkfor This measurement is updated SINR post-compensation andthe the each UE every TTI by using bin is incremented every sample UE's most recent subband CQIs period (5 seconds) with theto (i.e. 2 CQIs or codewords) respective number of calculated calculate Subband 10 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than -4 and less than or equal to bin is incremented every sample UE's most recent subband CQIs -2 dB. PRB range of subband 10 period (5 seconds) with theto (i.e. 2 CQIs or codewords) according to frequency: respective number of calculated calculate Subband 10 downlink 15 MHz refers to PRB#72 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#74 each -2 UEdB every by using the than and TTI lessevery than or equal to bin is incremented sample 20 MHz refers to PRB#72 to UE's most recent subband CQIs 0 dB. PRB range of subband 10 period (5 seconds) with theto PRB#79 (i.e. 2 CQIs or codewords) according to frequency: respective number of calculated calculate Subband 10 downlink 15 MHz refers to PRB#72 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#74 each UE every TTI by using the than 0incremented dB and less every than or equal to bin is sample 20 MHz refers to PRB#72 to UE's most recent subband CQIs 2 dB. PRB range of subband 10 period (5 seconds) with theto PRB#79 (i.e. 2 CQIs or codewords) according to frequency: respective number of calculated calculate Subband 10 downlink 15 MHz refers to PRB#72 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#74 each 2UE TTI than by using the than dBevery and less or equal to bin is incremented every sample 20 MHz refers to PRB#72 to UE's most recent subband CQIs 4 dB. PRB range of subband 10 period (5 seconds) with theto PRB#79 (i.e. 2 CQIs or codewords) according to frequency: respective number of calculated calculate Subband 10 downlink 15 MHz refers to PRB#72 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#74 each UE every TTI by using the than 4incremented dB and less every than or equal to bin is sample 20 MHz refers to PRB#72 to UE's most recent subband CQIs 6 dB. PRB range of subband 10 period (5 seconds) with theto PRB#79 (i.e. 2 CQIs or codewords) according to frequency: respective number of calculated calculate Subband 10 downlink 15 MHz refers to PRB#72 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#74 each 6UE TTI than by using the than dBevery and less or equal to bin is incremented every sample 20 MHz refers to PRB#72 to UE's most recent subband CQIs 8 dB. PRB range of subband 10 period (5 seconds) with theto PRB#79 (i.e. 2 CQIs or codewords) according to frequency: respective number of calculated calculate Subband 10 downlink 15 MHz refers to PRB#72 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#74 each UE every TTI by using the than 8incremented dB and less every than or equal to bin is sample 20 MHz refers to PRB#72 to UE's most recent subband CQIs 10 dB. PRB range of subband 10 period (5 seconds) with theto PRB#79 (i.e. 2 CQIs or codewords) according to frequency: respective number of calculated calculate Subband 10 downlink 15 MHz refers to PRB#72 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#74 each 10 UEdB every by using the than andTTI lessevery than or equal bin is incremented sample 20 MHz refers to PRB#72 to UE's recent subband CQIs 10 to 12 most dB. PRB range of subband period (5 seconds) with theto PRB#79 (i.e. 2 CQIs or codewords) according to frequency: respective number of calculated calculate Subband 10 downlink 15 MHz refers to PRB#72 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#74 each UE every TTI by using the than 12 dB and lessevery thansample or equal bin is incremented 20 MHz refers to PRB#72 to UE's recent subband CQIs 10 to 14 most db. range of subband period (5 PRB seconds) with theto PRB#79 (i.e. 2 CQIs or codewords) according to frequency: respective number of calculated calculate Subband 10 downlink 15 MHz refers to PRB#72 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#74 each 14 UEdB every by using the than andTTI lessevery than or equal bin is incremented sample 20 MHz refers to PRB#72 to UE's recent subband CQIs 10 to 16 most dB. PRB range of subband period (5 seconds) with theto PRB#79 (i.e. 2 CQIs or codewords) according to frequency: respective number of calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 than dB and lessevery thansample or equal bin is16 incremented 20 MHz refers to PRB#72 to to 18 dB. PRB range of subband 10 period (5 seconds) with the PRB#79 according to frequency: respective number of calculated 15 MHzwhere referseach to PRB#72 to values one is greater PRB#74 than 18 dB and less than or equal 20 MHz PRB#72 to to 20 dB.refers PRB to range of subband 10 PRB#79 according to frequency: 15 MHz refers to PRB#72 to
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 10 downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 20todB and lessSubband than or 10 (i.e. 2one CQIs codewords) calculate equal to 22 dB. PRB range of subband 10 downlink SINR post-compensation and the bin is according to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 15 MHz refers to PRB#72 to PRB#74 the respective number of calculated values where TTI by using the mosttorecent subband CQIs 20 MHz refers to UE's PRB#72 PRB#79 each is or greater than 22 and lessSubband than or 10 (i.e. 2one CQIs codewords) todB calculate equal to 24 dB. PRB range of subband 10 downlink SINR post-compensation and the bin is according to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 15 MHz refers to PRB#72 to PRB#74 the respective number of calculated values where TTIMHz by using the mosttorecent subband CQIs 20 refers to UE's PRB#72 PRB#79 each is or greater than 24 and lessSubband than or 10 (i.e. 2one CQIs codewords) todB calculate equal to 26 dB. PRB range of subband 10 downlink SINR post-compensation and the bin is according to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 15 MHz refers to PRB#72 to PRB#74 the respective number of calculated values where TTI by using the mosttorecent subband CQIs 20 MHz refers to UE's PRB#72 PRB#79 each is or greater than 26 and lessSubband than or 10 (i.e. 2one CQIs codewords) todB calculate equal to 28 dB. PRB range of subband 10 downlink SINR post-compensation and the bin is according to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 15 MHz refers to PRB#72 to PRB#74 the respective number of calculated values where TTIMHz by using the mosttorecent subband CQIs 20 refers to UE's PRB#72 PRB#79 each is or greater than 28 and lessSubband than or 11 (i.e. 2one CQIs codewords) todB calculate equal to 30 dB. PRB range of subband 10 downlink SINR post-compensation and the bin is according to frequency: incremented every sample period (5 seconds) with This measurement is updated for each UE every 15 MHz refers to PRB#72 to PRB#74 the respective number of calculated values where TTI by using the most recent subband CQIs 20 MHz refers to UE's PRB#72 PRB#79 each is or greater than orto equal to -10Subband dB and 11 (i.e. 2one CQIs codewords) to calculate less than or equal to -8 dB. Subband 11 for bin 20 MHz downlink SINR post-compensation and the is refers to PRB#80 to PRB#87. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than -8 dB and less than or 11 (i.e. 2 CQIs or codewords) to calculate Subband equal to -6 dB. Subband 11 for 20 MHz refers downlink SINR post-compensation and the bintois PRB#80 to PRB#87. incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than -6to dBcalculate and lessSubband than or 11 (i.e. 2one CQIs codewords) equal to -4 dB. Subband 11 for 20 MHz refers downlink SINR post-compensation and the bintois PRB#80 to PRB#87. incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than -4to dBcalculate and lessSubband than or 11 (i.e. 2one CQIs codewords) equal to -2 dB. Subband 11 for 20 MHz refers downlink SINR post-compensation and the bintois PRB#80 to PRB#87. incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than -2to dBcalculate and lessSubband than or 11 (i.e. 2one CQIs codewords) equal to 0 dB. Subband 11 for 20 MHz refers downlink SINR post-compensation and the bintois PRB#80 to PRB#87. incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 0 dB and less Subband than or 11 (i.e. 2one CQIs codewords) to calculate equal to 2 dB. Subband 11 for 20 MHz refers downlink SINR post-compensation and the bintois PRB#80 to PRB#87. incremented every sample period (5 seconds) with the respective number of calculated values where each one is greater than 2 dB and less than or equal to 4 dB. Subband 11 for 20 MHz refers to PRB#80 to PRB#87.
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 10 downlinkfor This measurement is updated SINR post-compensation andthe the each UE every TTI by using bin is incremented every sample UE's most recent subband CQIs period (5 seconds) with theto (i.e. 2 CQIs or codewords) respective number of calculated calculate Subband 10 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than 20 and less than or equal bin is incremented every sample UE's recent subband CQIs 10 to 22 most dB. PRB range of subband period (5 seconds) with theto (i.e. 2 CQIs or codewords) according to frequency: respective number of calculated calculate Subband 10 downlink 15 MHz refers to PRB#72 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#74 each 22 UEdB every by using the than andTTI lessevery than or equal bin is incremented sample 20 MHz refers to PRB#72 to UE's most recent subband CQIs 10 to 24 dB. PRB range of subband period (5 seconds) with theto PRB#79 (i.e. 2 CQIs or codewords) according to frequency: respective number of calculated calculate Subband 10 downlink 15 MHz refers to PRB#72 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#74 each UE every TTI by using the than 24 dB and lessevery thansample or equal bin is incremented 20 MHz refers to PRB#72 to UE's recent subband CQIs 10 to 26 most dB. PRB range of subband period (5 seconds) with theto PRB#79 (i.e. 2 CQIs or codewords) according to frequency: respective number of calculated calculate Subband 10 downlink 15 MHz refers to PRB#72 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#74 each 26 UEdB every by using the than andTTI lessevery than or equal bin is incremented sample 20 MHz refers to PRB#72 to UE's recent subband CQIs 10 to 28 most dB. PRB range of subband period (5 seconds) with theto PRB#79 (i.e. 2 CQIs or codewords) according to frequency: respective number of calculated calculate Subband 11 downlink 15 MHz refers to PRB#72 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#74 each UE every TTI by using the than 28 dB and lessevery thansample or equal bin is incremented 20 MHz refers to PRB#72 to UE's recent subband CQIs 10 to 30 most dB. PRB range of subband period (5 seconds) with theto PRB#79 (i.e. 2 CQIs or codewords) according to frequency: respective number of calculated calculate Subband 11 downlink 15 MHz refers to PRB#72 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#74 each or UEequal everytoTTI by the than -10every dBusing and less bin is incremented sample 20 MHz refers to PRB#72 to UE's most recent CQIs 11 than or equal to -8subband dB. period (5 seconds) withSubband theto PRB#79 (i.e. 2 CQIs or codewords) for 20 MHz refers to PRB#80 to respective number of calculated calculate Subband 11 downlinkfor PRB#87. This measurement is updated values where each one is and greater SINR post-compensation the each UE every TTI by using the than -8 dB and less than or equal to bin is incremented every sample UE's most recent11subband CQIs -6 dB. Subband for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#80 toofPRB#87. respective number calculated calculate Subband 11 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each -6 UEdB every TTI by using the than and less than or equal to bin is incremented every sample UE's most recent11subband CQIs -4 dB. Subband for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#80 toofPRB#87. respective number calculated calculate Subband 11 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than -4 and less than or equal to bin is incremented every sample UE's most recent11subband CQIs -2 dB. Subband for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#80 toofPRB#87. respective number calculated calculate Subband 11 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each -2 UEdB every TTI by using the than and less than or equal to bin is incremented every sample UE's most recent subband CQIs 0 dB. Subband 11 for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#80 toofPRB#87. respective number calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the than 0 dB and less than or equal to bin is incremented every sample 2 dB. Subband 11 for 20the MHz period (5 seconds) with refers to PRB#80 to PRB#87. respective number of calculated values where each one is greater than 2 dB and less than or equal to 4 dB. Subband 11 for 20 MHz refers to PRB#80 to PRB#87.
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 11 downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 4 dB and less Subband than or 11 (i.e. 2one CQIs codewords) to calculate equal to 6 dB. Subband 11 for 20 MHz refers downlink SINR post-compensation and the bintois PRB#80 to PRB#87. incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 6 dB and less Subband than or 11 (i.e. 2one CQIs codewords) to calculate equal to 8 dB. Subband 11 for 20 MHz refers downlink SINR post-compensation and the bintois PRB#80 to PRB#87. incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 8 dB and less Subband than or 11 (i.e. 2one CQIs codewords) to calculate equal to 10 dB. Subband 11 for 20 MHz refers downlink SINR post-compensation and the bin to is PRB#80 to PRB#87. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than 10 dB and less than or 11 (i.e. 2 CQIs or codewords) to calculate Subband equal to 12 dB. post-compensation Subband 11 for 20 MHz refers downlink SINR and the bin to is PRB#80 to PRB#87. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than 12 dB and less than or 11 (i.e. 2 CQIs or codewords) to calculate Subband equal to 14 db. post-compensation Subband 11 for 20 MHz refers downlink SINR and the binto is PRB#80 to PRB#87. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than 14 dB and less than or 11 (i.e. 2 CQIs or codewords) to calculate Subband equal to 16 dB. post-compensation Subband 11 for 20 MHz refers downlink SINR and the bin to is PRB#80 to PRB#87. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than 16 dB and less than or 11 (i.e. 2 CQIs or codewords) to calculate Subband equal to 18 dB. post-compensation Subband 11 for 20 MHz refers downlink SINR and the bin to is PRB#80 to PRB#87. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than 18 dB and less than or 11 (i.e. 2 CQIs or codewords) to calculate Subband equal to 20 dB. post-compensation Subband 11 for 20 MHz refers downlink SINR and the bin to is PRB#80 to PRB#87. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than 20 dB and less than or 11 (i.e. 2 CQIs or codewords) to calculate Subband equal to 22 dB. post-compensation Subband 11 for 20 MHz refers downlink SINR and the bin to is PRB#80 to PRB#87. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than 22 dB and less than or 11 (i.e. 2 CQIs or codewords) to calculate Subband equal to 24 dB. post-compensation Subband 11 for 20 MHz refers downlink SINR and the bin to is PRB#80 to PRB#87. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than 24 dB and less than or 11 (i.e. 2 CQIs or codewords) to calculate Subband equal to 26 dB. post-compensation Subband 11 for 20 MHz refers downlink SINR and the bin to is PRB#80 to PRB#87. incremented every sample period (5 seconds) with the respective number of calculated values where each one is greater than 26 dB and less than or equal to 28 dB. Subband 11 for 20 MHz refers to PRB#80 to PRB#87.
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 11 downlinkfor This measurement is updated SINR post-compensation andthe the each UE every TTI by using bin is incremented every sample UE's most recent subband CQIs period (5 seconds) with theto (i.e. 2 CQIs or codewords) respective number of calculated calculate Subband 11 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UE every TTI than by using the than 4 dB and less or equal to bin is incremented every sample UE's most recent subband CQIs 6 dB. Subband 11 for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#80 toofPRB#87. respective number calculated calculate Subband 11 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 6UE every TTI than by using the than dB and less or equal to bin is incremented every sample UE's most recent subband CQIs 8 dB. Subband 11 for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#80 toofPRB#87. respective number calculated calculate Subband 11 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UE every TTI than by using the than 8 dB and less or equal to bin is incremented every sample UE's most recent11 subband CQIs 10 dB. Subband for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#80 toofPRB#87. respective number calculated calculate Subband 11 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 10 UEdB every TTI by using the than and less than or equal bin is incremented every sample UE's recent subband to 12 most dB. Subband 11 forthe 20CQIs MHz period (5 seconds) with (i.e. 2 CQIs or codewords) to refers to PRB#80 to PRB#87. respective number of calculated calculate Subband 11 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than 12 and less than or equal bin is incremented every sample UE's recent subband to 14 most db. 11 forthe 20CQIs MHz period (5 Subband seconds) with (i.e. 2 CQIs or codewords) to refers to PRB#80 to PRB#87. respective number of calculated calculate Subband 11 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 14 UEdB every TTI by using the than and less than or equal bin is incremented every sample UE's recent subband to 16 most dB. Subband 11 forthe 20CQIs MHz period (5 seconds) with (i.e. 2 CQIs or codewords) to refers to PRB#80 to PRB#87. respective number of calculated calculate Subband 11 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than 16 and less than or equal bin is incremented every sample UE's recent subband to 18 most dB. Subband 11 forthe 20CQIs MHz period (5 seconds) with (i.e. 2 CQIs or codewords) to refers to PRB#80 to PRB#87. respective number of calculated calculate Subband 11 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 18 UEdB every TTI by using the than and less than or equal bin is incremented every sample UE's recent subband to 20 most dB. Subband 11 forthe 20CQIs MHz period (5 seconds) with (i.e. 2 CQIs or codewords) to refers to PRB#80 to PRB#87. respective number of calculated calculate Subband 11 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than 20 and less than or equal bin is incremented every sample UE's recent subband to 22 most dB. Subband 11 forthe 20CQIs MHz period (5 seconds) with (i.e. 2 CQIs or codewords) to refers to PRB#80 to PRB#87. respective number of calculated calculate Subband 11 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 22 UEdB every TTI by using the than and less than or equal bin is incremented every sample UE's recent subband to 24 most dB. Subband 11 forthe 20CQIs MHz period (5 seconds) with (i.e. 2 CQIs or codewords) to refers to PRB#80 to PRB#87. respective number of calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the than 24 dB and less than or equal bin is incremented every sample to 26 dB. Subband with 11 forthe 20 MHz period (5 seconds) refers to PRB#80 to PRB#87. respective number of calculated values where each one is greater than 26 dB and less than or equal to 28 dB. Subband 11 for 20 MHz refers to PRB#80 to PRB#87.
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 11 downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 28todB and lessSubband than or 12 (i.e. 2one CQIs codewords) calculate equal to 30 dB. Subband 11 for 20 MHz refers downlink SINR post-compensation and the bin to is PRB#80 to PRB#87. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than or equal to -10 dB and 12 (i.e. 2 CQIs or codewords) to calculate Subband less than SINR or equal to -8 dB. Subband 12the for bin 20 is downlink post-compensation and MHz refers to PRB#88 to PRB#95. incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than -8to dBcalculate and lessSubband than or 12 (i.e. 2one CQIs codewords) equal to -6 dB. Subband 12 for 20 MHz refers downlink SINR post-compensation and the binto is PRB#88 to PRB#95. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than -6 dB and less than or 12 (i.e. 2 CQIs or codewords) to calculate Subband equal to -4 dB. Subband 12 for 20 MHz refers downlink SINR post-compensation and the binto is PRB#88 to PRB#95. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than -4 dB and less than or 12 (i.e. 2 CQIs or codewords) to calculate Subband equal to -2 dB. Subband 12 for 20 MHz refers downlink SINR post-compensation and the binto is PRB#88 to PRB#95. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than -2 dB and less than or 12 (i.e. 2 CQIs or codewords) to calculate Subband equal to 0SINR dB. Subband 12 for 20 MHz downlink post-compensation and refers the bintois PRB#88 to PRB#95. incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 0 dB and less Subband than or 12 (i.e. 2one CQIs codewords) to calculate equal to 2 dB. Subband 12 for 20 MHz refers downlink SINR post-compensation and the bintois PRB#88 to PRB#95. incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 2 dB and less Subband than or 12 (i.e. 2one CQIs codewords) to calculate equal to 4 dB. Subband 12 for 20 MHz refers downlink SINR post-compensation and the bintois PRB#88 to PRB#95. incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 4 dB and less Subband than or 12 (i.e. 2one CQIs codewords) to calculate equal to 6 dB. Subband 12 for 20 MHz refers downlink SINR post-compensation and the bintois PRB#88 to PRB#95. incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 6 dB and less Subband than or 12 (i.e. 2one CQIs codewords) to calculate equal to 8 dB. Subband 12 for 20 MHz refers downlink SINR post-compensation and the bintois PRB#88 to PRB#95. incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 8 dB and less Subband than or 12 (i.e. 2one CQIs codewords) to calculate equal to 10 dB. Subband 12 for 20 MHz refers downlink SINR post-compensation and the bin to is PRB#88 to PRB#95. incremented every sample period (5 seconds) with the respective number of calculated values where each one is greater than 10 dB and less than or equal to 12 dB. Subband 12 for 20 MHz refers to PRB#88 to PRB#95.
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 11 downlinkfor This measurement is updated SINR post-compensation andthe the each UE every TTI by using bin is incremented every sample UE's most recent subband CQIs period (5 seconds) with theto (i.e. 2 CQIs or codewords) respective number of calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than 28 and less than or equal bin is incremented every sample UE's recent subband to 30 most dB. Subband 11 forthe 20CQIs MHz period (5 seconds) with (i.e. 2 CQIs or codewords) to refers to PRB#80 to PRB#87. respective number of calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each or UEequal everytoTTI by using the than -10 dB and less bin is incremented every sample UE's or most recent CQIs 12 than equal to -8subband dB. period (5 seconds) withSubband theto (i.e. 2 CQIs or codewords) for 20 MHz refers to PRB#88 to respective number of calculated calculate Subband 12 downlinkfor PRB#95. This measurement is updated values where each one is and greater SINR post-compensation the each UE every TTI by using the than -8 dB and less than or equal to bin is incremented every sample UE's most recent12subband CQIs -6 dB. Subband for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#88 toofPRB#95. respective number calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each -6 UEdB every TTI by using the than and less than or equal to bin is incremented every sample UE's most recent12subband CQIs -4 dB. Subband for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#88 toofPRB#95. respective number calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than -4 and less than or equal to bin is incremented every sample UE's most recent12subband CQIs -2 dB. Subband for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#88 toofPRB#95. respective number calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each -2 UEdB every TTI by using the than and less than or equal to bin is incremented every sample UE's most recent subband CQIs 0 dB. Subband 12 for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#88 toofPRB#95. respective number calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UE every TTI than by using the than 0 dB and less or equal to bin is incremented every sample UE's most recent subband CQIs 2 dB. Subband 12 for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#88 toofPRB#95. respective number calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 2UE every TTI than by using the than dB and less or equal to bin is incremented every sample UE's most recent subband CQIs 4 dB. Subband 12 for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#88 toofPRB#95. respective number calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UE every TTI than by using the than 4 dB and less or equal to bin is incremented every sample UE's most recent subband CQIs 6 dB. Subband 12 for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#88 toofPRB#95. respective number calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 6UE every TTI than by using the than dB and less or equal to bin is incremented every sample UE's most recent subband CQIs 8 dB. Subband 12 for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#88 toofPRB#95. respective number calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the than 8 dB and less than or equal to bin is incremented every sample 10 dB. (5 Subband 12with for 20 period seconds) theMHz refers to PRB#88 to PRB#95. respective number of calculated values where each one is greater than 10 dB and less than or equal to 12 dB. Subband 12 for 20 MHz refers to PRB#88 to PRB#95.
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 12 downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 12todB and lessSubband than or 12 (i.e. 2one CQIs codewords) calculate equal to 14 db. Subband 12 for 20 MHz refers downlink SINR post-compensation and the bin to is PRB#88 to PRB#95. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than 14 dB and less than or 12 (i.e. 2 CQIs or codewords) to calculate Subband equal to 16 dB. post-compensation Subband 12 for 20 MHz refers downlink SINR and the bin to is PRB#88 to PRB#95. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than 16 dB and less than or 12 (i.e. 2 CQIs or codewords) to calculate Subband equal to 18 dB. post-compensation Subband 12 for 20 MHz refers downlink SINR and the bin to is PRB#88 to PRB#95. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than 18 dB and less than or 12 (i.e. 2 CQIs or codewords) to calculate Subband equal to 20 dB. post-compensation Subband 12 for 20 MHz refers downlink SINR and the bin to is PRB#88 to PRB#95. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than 20 dB and less than or 12 (i.e. 2 CQIs or codewords) to calculate Subband equal to 22 dB. post-compensation Subband 12 for 20 MHz refers downlink SINR and the bin to is PRB#88 to PRB#95. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than 22 dB and less than or 12 (i.e. 2 CQIs or codewords) to calculate Subband equal to 24 dB. post-compensation Subband 12 for 20 MHz refers downlink SINR and the bin to is PRB#88 to PRB#95. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than 24 dB and less than or 12 (i.e. 2 CQIs or codewords) to calculate Subband equal to 26 dB. post-compensation Subband 12 for 20 MHz refers downlink SINR and the bin to is PRB#88 to PRB#95. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than 26 dB and less than or 12 (i.e. 2 CQIs or codewords) to calculate Subband equal to 28 dB. post-compensation Subband 12 for 20 MHz refers downlink SINR and the bin to is PRB#88 to PRB#95. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than 28 dB and less than or 13 (i.e. 2 CQIs or codewords) to calculate Subband equal to 30 dB. post-compensation Subband 12 for 20 MHz refers downlink SINR and the bin to is PRB#88 to PRB#95. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than or equal to -10 dB and 13 (i.e. 2 CQIs or codewords) to calculate Subband less than SINR or equal to -8 dB. Subband 13the for bin 20 is downlink post-compensation and MHz refers to PRB#96 to PRB#99. incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than -8to dBcalculate and lessSubband than or 13 (i.e. 2one CQIs codewords) equal to -6 dB. Subband 13 for 20 MHz refers downlink SINR post-compensation and the binto is PRB#96 to PRB#99. incremented every sample period (5 seconds) with the respective number of calculated values where each one is greater than -6 dB and less than or equal to -4 dB. Subband 13 for 20 MHz refers to PRB#96 to PRB#99.
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 12 downlinkfor This measurement is updated SINR post-compensation andthe the each UE every TTI by using bin is incremented every sample UE's most recent subband CQIs period (5 seconds) with theto (i.e. 2 CQIs or codewords) respective number of calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than 12 and less than or equal bin is incremented every sample UE's recent subband to 14 most db. 12 20CQIs MHz period (5 Subband seconds) withforthe (i.e. 2 CQIs or codewords) to refers to PRB#88 to PRB#95. respective number of calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 14 UEdB every TTI by using the than and less than or equal bin is incremented every sample UE's recent subband CQIs to 16 most dB. Subband 12 for 20 MHz period (5 seconds) with the (i.e. 2 CQIs or codewords) to refers to PRB#88 to PRB#95. respective number of calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than 16 and less than or equal bin is incremented every sample UE's recent subband CQIs to 18 most dB. Subband 12 for 20 MHz period (5 seconds) with the (i.e. 2 CQIs or codewords) to refers to PRB#88 to PRB#95. respective number of calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 18 UEdB every TTI by using the than and less than or equal bin is incremented every sample UE's recent subband CQIs to 20 most dB. Subband 12 for 20 MHz period (5 seconds) with the (i.e. 2 CQIs or codewords) to refers to PRB#88 to PRB#95. respective number of calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than 20 and less than or equal bin is incremented every sample UE's recent subband CQIs to 22 most dB. Subband 12 for 20 MHz period (5 seconds) with the (i.e. 2 CQIs or codewords) to refers to PRB#88 to PRB#95. respective number of calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 22 UEdB every TTI by using the than and less than or equal bin is incremented every sample UE's recent subband CQIs to 24 most dB. Subband 12 for 20 MHz period (5 seconds) with the (i.e. 2 CQIs or codewords) to refers to PRB#88 to PRB#95. respective number of calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than 24 and less than or equal bin is incremented every sample UE's recent subband CQIs to 26 most dB. Subband 12 for 20 MHz period (5 seconds) with the (i.e. 2 CQIs or codewords) to refers to PRB#88 to PRB#95. respective number of calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 26 UEdB every TTI by using the than and less than or equal bin is incremented every sample UE's recent subband CQIs to 28 most dB. Subband 12 for 20 MHz period (5 seconds) with the (i.e. 2 CQIs or codewords) to refers to PRB#88 to PRB#95. respective number of calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than 28 and less than or equal bin is incremented every sample UE's recent subband CQIs to 30 most dB. Subband 12 for 20 MHz period (5 seconds) with the (i.e. 2 CQIs or codewords) to refers to PRB#88 to PRB#95. respective number of calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each or UEequal everytoTTI by using the than -10 dB and less bin is incremented every sample UE's or most recent CQIs 13 than equal to -8subband dB. period (5 seconds) withSubband theto (i.e.20 2 CQIs or codewords) for MHz refers to PRB#96 to respective number of calculate Subband 13calculated downlink PRB#99. values where each one is and greater SINR post-compensation the than -8 dB and less than or equal to bin is incremented every sample -6 dB. Subband 13 with for 20 MHz period (5 seconds) the refers to PRB#96 to PRB#99. respective number of calculated values where each one is greater than -6 dB and less than or equal to -4 dB. Subband 13 for 20 MHz refers to PRB#96 to PRB#99.
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 13 downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than -4to dBcalculate and lessSubband than or 13 (i.e. 2one CQIs codewords) equal to -2 dB. Subband 13 for 20 MHz refers downlink SINR post-compensation and the binto is PRB#96 to PRB#99. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than -2 dB and less than or 13 (i.e. 2 CQIs or codewords) to calculate Subband equal to 0SINR dB. Subband 13 for 20 MHz downlink post-compensation and refers the bintois PRB#96 to PRB#99. incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 0 dB and less Subband than or 13 (i.e. 2one CQIs codewords) to calculate equal to 2 dB. Subband 13 for 20 MHz refers downlink SINR post-compensation and the bintois PRB#96 to PRB#99. incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 2 dB and less Subband than or 13 (i.e. 2one CQIs codewords) to calculate equal to 4 dB. Subband 13 for 20 MHz refers downlink SINR post-compensation and the bintois PRB#96 to PRB#99. incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 4 dB and less Subband than or 13 (i.e. 2one CQIs codewords) to calculate equal to 6 dB. Subband 13 for 20 MHz refers downlink SINR post-compensation and the bintois PRB#96 to PRB#99. incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 6 dB and less Subband than or 13 (i.e. 2one CQIs codewords) to calculate equal to 8 dB. Subband 13 for 20 MHz refers downlink SINR post-compensation and the bintois PRB#96 to PRB#99. incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 8 dB and less Subband than or 13 (i.e. 2one CQIs codewords) to calculate equal to 10 dB. Subband 13 for 20 MHz refers downlink SINR post-compensation and the bin to is PRB#96 to PRB#99. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than 10 dB and less than or 13 (i.e. 2 CQIs or codewords) to calculate Subband equal to 12 dB. post-compensation Subband 13 for 20 MHz refers downlink SINR and the bin to is PRB#96 to PRB#99. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than 12 dB and less than or 13 (i.e. 2 CQIs or codewords) to calculate Subband equal to 14 db. post-compensation Subband 13 for 20 MHz refers downlink SINR and the bin to is PRB#96 to PRB#99. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than 14 dB and less than or 13 (i.e. 2 CQIs or codewords) to calculate Subband equal to 16 dB. post-compensation Subband 13 for 20 MHz refers downlink SINR and the bin to is PRB#96 to PRB#99. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than 16 dB and less than or 13 (i.e. 2 CQIs or codewords) to calculate Subband equal to 18 dB. post-compensation Subband 13 for 20 MHz refers downlink SINR and the bin to is PRB#96 to PRB#99. incremented every sample period (5 seconds) with the respective number of calculated values where each one is greater than 18 dB and less than or equal to 20 dB. Subband 13 for 20 MHz refers to PRB#96 to PRB#99.
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 13 downlinkfor This measurement is updated SINR post-compensation andthe the each UE every TTI by using bin is incremented every sample UE's most recent subband CQIs period (5 seconds) with theto (i.e. 2 CQIs or codewords) respective number of calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than -4 and less than or equal to bin is incremented every sample UE's most recent13subband CQIs -2 dB. Subband for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#96 toofPRB#99. respective number calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each -2 UEdB every TTI by using the than and less than or equal to bin is incremented every sample UE's most recent subband CQIs 0 dB. Subband 13 for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#96 toofPRB#99. respective number calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UE every TTI than by using the than 0 dB and less or equal to bin is incremented every sample UE's most recent subband CQIs 2 dB. Subband 13 for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#96 toofPRB#99. respective number calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 2UE every TTI than by using the than dB and less or equal to bin is incremented every sample UE's most recent subband CQIs 4 dB. Subband 13 for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#96 toofPRB#99. respective number calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UE every TTI than by using the than 4 dB and less or equal to bin is incremented every sample UE's most recent subband CQIs 6 dB. Subband 13 for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#96 toofPRB#99. respective number calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 6UE every TTI than by using the than dB and less or equal to bin is incremented every sample UE's most recent subband CQIs 8 dB. Subband 13 for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#96 toofPRB#99. respective number calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UE every TTI than by using the than 8 dB and less or equal to bin is incremented every sample UE's most recent13 subband CQIs 10 dB. Subband for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#96 toofPRB#99. respective number calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 10 UEdB every TTI by using the than and less than or equal bin is incremented every sample UE's recent subband CQIs to 12 most dB. Subband 13 for 20 MHz period (5 seconds) with the (i.e. 2 CQIs or codewords) to refers to PRB#96 to PRB#99. respective number of calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than 12 and less than or equal bin is incremented every sample UE's recent subband to 14 most db. 13 20CQIs MHz period (5 Subband seconds) withforthe (i.e. 2 CQIs or codewords) to refers to PRB#96 to PRB#99. respective number of calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 14 UEdB every TTI by using the than and less than or equal bin is incremented every sample UE's recent subband CQIs to 16 most dB. Subband 13 for 20 MHz period (5 seconds) with the (i.e. 2 CQIs or codewords) to refers to PRB#96 to PRB#99. respective number of calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the than 16 dB and less than or equal bin is incremented every sample to 18 dB. Subband with 13 for 20 MHz period (5 seconds) the refers to PRB#96 to PRB#99. respective number of calculated values where each one is greater than 18 dB and less than or equal to 20 dB. Subband 13 for 20 MHz refers to PRB#96 to PRB#99.
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 13 downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent subband CQIs each is or greater than 20todB and lessSubband than or 13 (i.e. 2one CQIs codewords) calculate equal to 22 dB. Subband 13 for 20 MHz refers downlink SINR post-compensation and the bin to is PRB#96 to PRB#99. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than 22 dB and less than or 13 (i.e. 2 CQIs or codewords) to calculate Subband equal to 24 dB. post-compensation Subband 13 for 20 MHz refers downlink SINR and the bin to is PRB#96 to PRB#99. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than 24 dB and less than or 13 (i.e. 2 CQIs or codewords) to calculate Subband equal to 26 dB. post-compensation Subband 13 for 20 MHz refers downlink SINR and the bin to is PRB#96 to PRB#99. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent subband CQIs each one is greater than 26 dB and less than or 13 (i.e. 2 CQIs or codewords) to calculate Subband equal to 28 dB. post-compensation Subband 13 for 20 MHz refers downlink SINR and the bin to is PRB#96 to PRB#99. incremented every sample period (5 seconds) with This measurement is updated for each UE every the number of calculated values where TTI respective by using the UE's most recent wideband CQI each one is greater than 28 dB and less than or to calculate Wideband downlink SINR postequal to 30 dB.and Subband 20 MHz refers compensation the bin13 is for incremented everyto PRB#96 to PRB#99. sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is TTI by using the UE's most recent wideband greater than or equal to -10 dB and less than or to calculate Wideband downlink SINR postequal to -8 dB.and the bin is incremented every compensation sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is TTI by using the UE's most recent wideband greater than -8 dB and less than or equal to -6 dB. to calculate Wideband downlink SINR post-
This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 13 downlinkfor This measurement is updated SINR post-compensation andthe the each UE every TTI by using bin is incremented every sample UE's most recent subband CQIs period (5 seconds) with theto (i.e. 2 CQIs or codewords) respective number of calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than 20 and less than or equal bin is incremented every sample UE's recent subband CQIs to 22 most dB. Subband 13 for 20 MHz period (5 seconds) with the (i.e. 2 CQIs or codewords) to refers to PRB#96 to PRB#99. respective number of calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 22 UEdB every TTI by using the than and less than or equal bin is incremented every sample UE's recent subband CQIs to 24 most dB. Subband 13 for 20 MHz period (5 seconds) with the (i.e. 2 CQIs or codewords) to refers to PRB#96 to PRB#99. respective number of calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than 24 and less than or equal bin is incremented every sample UE's recent subband CQIs to 26 most dB. Subband 13 for 20 MHz period (5 seconds) with the (i.e. 2 CQIs or codewords) to refers to PRB#96 to PRB#99. respective number of calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 26 UEdB every TTI by using the than and less than or equal bin is incremented every sample UE's recent wideband to 28 most dB. Subband 13 for 20CQI MHzto period (5 seconds) with the calculate Wideband downlink SINR refers to PRB#96 to PRB#99. respective number of calculated post-compensation and the bin is This measurement is updated for values whereevery each sample one is greater incremented period each UEdB every TTI by using the (5 than 28 andthe less than or equal seconds) with respective UE's recent wideband to 30 most dB.ofSubband 13values for 20CQI MHzto number calculated where calculate Wideband downlink SINR refers to PRB#96 to PRB#99. each one is greater and thanthe or equal post-compensation bin is to ThisdB measurement is or updated for -10 and less than equal to -8 incremented every each UE every TTI sample by usingperiod the (5 dB. seconds) the wideband respectiveCQI to UE's mostwith recent number of calculated values where compensation and the bin is incremented every calculate Wideband downlink SINR each one is greater than -8 dB and sample period (5 seconds) with the respective post-compensation and the bin is This measurement is updated for each UE every This measurement is-6 updated for less than or equal to dB. number of calculated values where each one is incremented every sample period TTI by using the UE's most recent wideband CQI each UE every TTI by using the (5 greater than -6 dB and less than or equal to -4 dB. seconds) the wideband respectiveCQI to to calculate Wideband downlink SINR postUE's mostwith recent number of calculated values where compensation and the bin is incremented every calculate Wideband downlink SINR each one is greater than -6 dB and sample period (5 seconds) with the respective post-compensation and the bin is This measurement is updated for each UE every This than measurement is-4 updated for less or equal to dB. number of calculated values where each one is incremented every sample period TTI by using the UE's most recent wideband CQI each UE every TTI by using the (5 greater than -4 dB and less than or equal to -2 dB. seconds) the wideband respectiveCQI to to calculate Wideband downlink SINR postUE's mostwith recent number of calculated values where compensation and the bin is incremented every calculate Wideband downlink SINR each one is greater than -4 dB and sample period (5 seconds) with the respective post-compensation and the bin is This measurement is updated for each UE every This measurement is-2 updated for less than or equal to dB. number of calculated values where each one is incremented every sample period TTI by using the UE's most recent wideband CQI each UE every TTI by using the (5 greater than -2 dB and less than or equal to 0 dB. seconds) the wideband respectiveCQI to to calculate Wideband downlink SINR postUE's mostwith recent number of calculated values where compensation and the bin is incremented every calculate Wideband downlink SINR each one is greater than -2 dB and sample period (5 seconds) with the respective post-compensation and the bin is This measurement is updated for each UE every This than measurement is0updated for less or equal to dB. number of calculated values where each one is incremented every sample period TTI by using the UE's most recent wideband CQI each UE every TTI by using the (5 greater than 0 dB and less than or equal to 2 dB. seconds) the wideband respectiveCQI to to calculate Wideband downlink SINR postUE's mostwith recent number of calculated values where compensation and the bin is incremented every calculate Wideband downlink SINR each one is greater than 0 dB sample period (5 seconds) with the respective post-compensation and the binand is less than or equal 2 dB. period (5 number of calculated values where each one is incremented everyto sample greater than 2 dB and less than or equal to 4 dB. seconds) with the respective number of calculated values where each one is greater than 2 dB and less than or equal to 4 dB.
This measurement is updated for each UE every TTI by using the UE's most recent wideband CQI to calculate Wideband downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is TTI by using the UE's most recent wideband greater than 4 dB and less than or equal to 6 dB. to calculate Wideband downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is TTI by using the UE's most recent wideband greater than 6 dB and less than or equal to 8 dB. to calculate Wideband downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is TTI by using the UE's most recent wideband greater than 8 dB and less than or equal to 10 to calculate Wideband downlink SINR post- dB. compensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is TTI by using the UE's most recent wideband greater than 10 dB and less than or equal to 12 dB. to calculate Wideband downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is TTI by using the UE's most recent wideband greater than 12 dB and less than or equal to 14 dB. to calculate Wideband downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is TTI by using the UE's most recent wideband greater than 14 dB and less than or equal to 16 dB. to calculate Wideband downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is TTI by using the UE's most recent wideband greater than 16 dB and less than or equal to 18 dB. to calculate Wideband downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is TTI by using the UE's most recent wideband greater than 18 dB and less than or equal to 20 dB. to calculate Wideband downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is TTI by using the UE's most recent wideband greater than 20 dB and less than or equal to 22 dB. to calculate Wideband downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is TTI by using the UE's most recent wideband greater than 22 dB and less than or equal to 24 dB. to calculate Wideband downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQI is TTI by using the UE's most recent wideband greater than 24 dB and less than or equal to 26 dB. to calculate Wideband downlink SINR post-
This measurement is updated for each UE every TTI by using the UE's most recent wideband CQI to calculate Wideband downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the wideband respectiveCQI to UE's mostwith recent number of calculated values where calculate Wideband downlink SINR each one is greater than 4 dB and post-compensation and the bin is This measurement is6updated for less than or equal to dB. incremented every sample period each UE every TTI by using the (5 seconds) the wideband respectiveCQI to UE's mostwith recent number of calculated values where calculate Wideband downlink SINR each one is greater than 6 dB and post-compensation and the bin is This than measurement is8updated for less or equal to dB. incremented every sample period each UE every TTI by using the (5 seconds) the wideband respectiveCQI to UE's mostwith recent number of calculated values where calculate Wideband downlink SINR each one is greater than 8 dB and post-compensation and the bin is This measurement is10 updated for less than or equal to dB. incremented every sample period each UE every TTI by using the (5 seconds) the wideband respectiveCQI to UE's mostwith recent number of calculated values where calculate Wideband downlink SINR each one is greater than 10 bin dB and post-compensation and the is This than measurement is12 updated for less or equal to dB.period incremented every sample each UE every TTI by using the (5 seconds) the wideband respectiveCQI to UE's mostwith recent number of calculated values where calculate Wideband downlink SINR each one is greater than 12 bin dB and post-compensation and the is This measurement is14 updated for less than or equal to dB.period incremented every sample each UE every TTI by using the (5 seconds) the wideband respectiveCQI to UE's mostwith recent number of calculated values where calculate Wideband downlink SINR each one is greater than 14 bin dB and post-compensation and the is This than measurement is16 updated for less or equal to dB.period incremented every sample each UE every TTI by using the (5 seconds) the wideband respectiveCQI to UE's mostwith recent number of calculated values where calculate Wideband downlink SINR each one is greater than 16 bin dB and post-compensation and the is This measurement is18 updated for less than or equal to dB.period incremented every sample each UE every TTI by using the (5 seconds) the wideband respectiveCQI to UE's mostwith recent number of calculated values where calculate Wideband downlink SINR each one is greater than 18 bin dB and post-compensation and the is This than measurement is20 updated for less or equal to dB.period incremented every sample each UE every TTI by using the (5 seconds) the wideband respectiveCQI to UE's mostwith recent number of calculated values where calculate Wideband downlink SINR each one is greater than 20 bin dB and post-compensation and the is This measurement is22 updated for less than or equal to dB.period incremented every sample each UE every TTI by using the (5 seconds) the wideband respectiveCQI to UE's mostwith recent number of calculated values where calculate Wideband downlink SINR each one is greater than 22 bin dB and post-compensation and the is This than measurement is24 updated for less or equal to dB.period incremented every sample each UE every TTI by using the (5 seconds) the wideband respectiveCQI to UE's mostwith recent number of calculated values where calculate Wideband downlink SINR each one is greater than 24 bin dB and post-compensation and the is less than or equal 26 dB.period (5 incremented everyto sample
compensation and the bin is incremented every sample period (5 seconds) with the respective number of calculated values where each one is greater than 26 dB and less than or equal to 28 dB. seconds) with the respective number of calculated values where each one is greater than 26 dB and less than or equal to 28 dB.
This measurement is updated for each UE every TTI by using the UE's most recent wideband CQI to calculate Wideband downlink SINR postcompensation and the bin is incremented every sample period (5 seconds) withfor the respective This measurement is updated each UE every number of calculated values where each oneCQIs is TTI by using the UE's most recent wideband greater than 28 dB and less than or equal to 30 dB. (i.e. 2 CQIs or codewords) to calculate Wideband downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent wideband CQIs each is or greater than orto equal to -10Wideband dB and (i.e. 2one CQIs codewords) calculate less than or equal to -8 dB. downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent wideband CQIs each is or greater than -8to dBcalculate and lessWideband than or (i.e. 2one CQIs codewords) equal to -6 dB. downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent wideband CQIs each is or greater than -6to dBcalculate and lessWideband than or (i.e. 2one CQIs codewords) equal to -4 dB. downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent wideband CQIs each is or greater than -4to dBcalculate and lessWideband than or (i.e. 2one CQIs codewords) equal to -2 dB. downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent wideband CQIs each is or greater than -2to dBcalculate and lessWideband than or (i.e. 2one CQIs codewords) equal to 0 dB. downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent wideband CQIs each is or greater than 0 dB and less Wideband than or (i.e. 2one CQIs codewords) to calculate equal to 2 dB. downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent wideband CQIs each is or greater than 2 dB and less Wideband than or (i.e. 2one CQIs codewords) to calculate equal to 4 dB. downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent wideband CQIs each is or greater than 4 dB and less Wideband than or (i.e. 2one CQIs codewords) to calculate equal to 6 dB. downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent wideband CQIs each is or greater than 6 dB and less Wideband than or (i.e. 2one CQIs codewords) to calculate equal to 8 dB. downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent wideband CQIs each is or greater than 8 dB and less Wideband than or (i.e. 2one CQIs codewords) to calculate equal to 10 dB. downlink SINR post-compensation and the bin is
This measurement is updated for each UE every TTI by using the UE's most recent wideband CQI to calculate Wideband downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the wideband respectiveCQIs UE's mostwith recent number of calculated values (i.e. 2 CQIs or codewords) towhere each one is greater than 28 dBSINR and calculate Widebandisdownlink This measurement updated for less than or equal to 30 dB. post-compensation andusing the bin each UE every TTI by theis incremented every sample period UE's most recent wideband CQIs (5 seconds) with respective (i.e. 2 CQIs or the codewords) to number of calculated values where calculate Wideband downlink SINR This measurement updated for to each one is greateris than or equal post-compensation and the bin is eachdBUE every TTI byorusing the -10 and less than equal to -8 incremented every sample period UE's most recent wideband CQIs (5 dB. seconds) with respective (i.e. 2 CQIs or the codewords) to number of calculated values where calculate Wideband downlink SINR This measurement updated for each one is greateris than -8 dB and post-compensation and the bin is each UE every TTI by using the less than or equal to -6 dB. incremented every sample period UE's most recent wideband CQIs (5 seconds) with respective (i.e. 2 CQIs or the codewords) to number of calculated values where calculate Wideband downlink SINR This measurement updated for each one is greateris than -6 dB and post-compensation and the bin eachthan UE every TTItoby-4using theis less or equal dB. incremented everywideband sample period UE's most recent CQIs (5 seconds) with the respective (i.e. 2 CQIs or codewords) to number ofWideband calculateddownlink values where calculate SINR This measurement isthan updated for each one is greater -4 dB and post-compensation and the bin is each UE every TTI by using the less than or equal to -2 dB. incremented every sample period UE's most recent wideband CQIs (5 seconds) with respective (i.e. 2 CQIs or the codewords) to number of calculated values where calculate Wideband downlink SINR This measurement updated for each one is greateris than -2 dB and post-compensation and the bin eachthan UE every TTItoby0 using theis less or equal dB. incremented everywideband sample period UE's most recent CQIs (5 seconds) with the respective (i.e. 2 CQIs or codewords) to number ofWideband calculateddownlink values where calculate SINR This measurement isthan updated for each one is greater 0 dB and post-compensation and the bin is each UE every TTI by using the less than or equal to 2 dB. period (5 incremented every sample UE's most recent wideband CQIs seconds) with respective (i.e. 2 CQIs or the codewords) to number of calculated values where calculate Wideband downlink SINR This measurement updated for each one is greateris than 2 dB and post-compensation and the bin eachthan UE every TTItoby4 using theis less or equal dB. incremented everywideband sample period UE's most recent CQIs (5 seconds) with the respective (i.e. 2 CQIs or codewords) to number ofWideband calculateddownlink values where calculate SINR This measurement isthan updated for each one is greater 4 dB and post-compensation and the bin each UE every TTItoby6 using theis less than or equal dB. incremented everywideband sample period UE's most recent CQIs (5 seconds) with the respective (i.e. 2 CQIs or codewords) to number ofWideband calculateddownlink values where calculate SINR This measurement isthan updated for each one is greater 6 dB and post-compensation and the bin eachthan UE every TTItoby8 using theis less or equal dB. incremented everywideband sample period UE's most recent CQIs (5 seconds) with the respective (i.e. 2 CQIs or codewords) to number calculateddownlink values where calculateofWideband SINR each one is greater than 8 dB post-compensation and the binand is less than or equal 10 dB.period (5 incremented everyto sample
incremented every sample period (5 seconds) with the respective number of calculated values where each one is greater than 10 dB and less than or equal to 12 dB. seconds) with the respective number of calculated values where each one is greater than 10 dB and less than or equal to 12 dB.
This measurement is updated for each UE every TTI by using the UE's most recent wideband CQIs (i.e. 2 CQIs or codewords) to calculate Wideband downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent wideband CQIs each is or greater than 12todB and lessWideband than or (i.e. 2one CQIs codewords) calculate equal to 14 dB. downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent wideband CQIs each is or greater than 14todB and lessWideband than or (i.e. 2one CQIs codewords) calculate equal to 16 dB. downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent wideband CQIs each is or greater than 16todB and lessWideband than or (i.e. 2one CQIs codewords) calculate equal to 18 dB. downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent wideband CQIs each is or greater than 18todB and lessWideband than or (i.e. 2one CQIs codewords) calculate equal to 20 dB. downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent wideband CQIs each is or greater than 20todB and lessWideband than or (i.e. 2one CQIs codewords) calculate equal to 22 dB. downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent wideband CQIs each is or greater than 22todB and lessWideband than or (i.e. 2one CQIs codewords) calculate equal to 24 dB. downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent wideband CQIs each is or greater than 24todB and lessWideband than or (i.e. 2one CQIs codewords) calculate equal to 26 dB. downlink SINR post-compensation and the bin is incremented every sample period (5 seconds) with This measurement is updated for each UE every the respective number of calculated values where TTI by using the UE's most recent wideband CQIs each is or greater than 26todB and lessWideband than or (i.e. 2one CQIs codewords) calculate equal to 28 dB. downlink SINR post-compensation and the bin is incremented sample period the (5 seconds) This counter every is updated following receptionwith of the respective number of calculated values an RRC: UEInformationResponse or X2AP:where RLF each one is greater than eNB 28 dBRLF andIndication less than or INDICATION (or internal equal to 30 dB. message) containing the RLF-Report information element where all conditions that are listed below This counter is updated following the reception of are met. Meeting these conditions means that the an RRC: UEInformationResponse or X2AP: RLF configured B2(or threshold2 measurement threshold INDICATION internal eNB RLF Indication for PSHO to UTRAN (RSCP or EcN0 based on message) containing the RLF-Report information configuration) was set to a value, which would element where all conditions that are as listed not This counter isinupdated following the reception have resulted a handover to UTRAN is of below areRRCConnectionReestablishmentRequest met. Meeting these conditionsthat means an RRC: initiated based on the measurements of the that the configured B2 threshold2 measurement or X2AP: RLF INDICATION (or internal eNB RLF UTRAN neighbor cells. threshold for VoLTE PSHO to UTRAN (RSCP or Indication message) where all conditions that are EcN0 based on configuration) was set to a value listed belowand areeither met. Meeting conditions -which, LTE1749 orthese LTE898 are to would notconfigured haveLTE56 resulted in a handover means that the B2 threshold2 activated. UTRAN that isthreshold initiated based on the measurement for PSHO tois UTRAN -measurements RLF-Report.selectedUTRA-CellId included. of the UTRAN neighbor cells. (RSCP or EcN0 based on configuration) was set to a value, which would have resulted inincluded, a handover -- RLF-Report.timeConnFailure is not or it LTE1749, LTE56 and LTE64 areonactivated to UTRAN that is initiated based the is included and RLF-Report.timeConnFailure > -measurement RLF-Report.selectedUTRA-CellId is included of the UTRAN neighbor timeConnFailureThreshold (taking into cell. account the units of each). This means that there is no recent -- RLF-Report.timeConnFailure isLTE898 not included, or it LTE1749handover and either LTE56 orprior are incoming for the UE to the RLF> is included and RLF-Report.timeConnFailure activated event. timeConnFailureThreshold (taking into account the
This measurement is updated for each UE every TTI by using the UE's most recent wideband CQIs (i.e. 2 CQIs or codewords) to calculate Widebandisdownlink This measurement updatedSINR for post-compensation and the bin each UE every TTI by using theis incremented everywideband sample period UE's most recent CQIs (5 seconds) with the respective (i.e. 2 CQIs or codewords) to number ofWideband calculateddownlink values where calculate SINR This measurement isthan updated each one is greater 12 bin dBfor and post-compensation and the each UE every TTItoby14using theis less than or equal dB. incremented everywideband sample period UE's most recent CQIs (5 seconds) with the respective (i.e. 2 CQIs or codewords) to number ofWideband calculateddownlink values where calculate SINR This measurement isthan updated each one is greater 14 bin dBfor and post-compensation and the eachthan UE every TTItoby16using theis less or equal dB. incremented everywideband sample period UE's most recent CQIs (5 seconds) with the respective (i.e. 2 CQIs or codewords) to number ofWideband calculateddownlink values where calculate SINR This measurement isthan updated each one is greater 16 bin dBfor and post-compensation and the each UE every TTItoby18using theis less than or equal dB. incremented everywideband sample period UE's most recent CQIs (5 seconds) with the respective (i.e. 2 CQIs or codewords) to number ofWideband calculateddownlink values where calculate SINR This measurement isthan updated each one is greater 18 bin dBfor and post-compensation and the eachthan UE every TTItoby20using theis less or equal dB. incremented everywideband sample period UE's most recent CQIs (5 seconds) with the respective (i.e. 2 CQIs or codewords) to number ofWideband calculateddownlink values where calculate SINR This measurement isthan updated each one is greater 20 bin dBfor and post-compensation and the each UE every TTItoby22using theis less than or equal dB. incremented everywideband sample period UE's most recent CQIs (5 seconds) with the respective (i.e. 2 CQIs or codewords) to number ofWideband calculateddownlink values where calculate SINR This measurement isthan updated each one is greater 22 bin dBfor and post-compensation and the eachthan UE every TTItoby24using theis less or equal dB. incremented everywideband sample period UE's most recent CQIs (5 seconds) with the respective (i.e. 2 CQIs or codewords) to number ofWideband calculateddownlink values where calculate SINR This measurement isthan updated each one is greater 24 bin dBfor and post-compensation and the each UE every TTItoby26using theis less than or equal dB. incremented everywideband sample period UE's most recent CQIs (5 seconds) with the respective (i.e. 2 CQIs or codewords) to number ofWideband calculateddownlink values where calculate SINR This counter is updated following each one is greater than 26 bin dB and post-compensation and the is the reception of antoRRC: less than or equal 28 dB.period (5 incremented every sample UEInformationResponse or X2AP: seconds) with the respective RLF INDICATION (or internal eNB number of calculated values where RLF Indication message) containing This counter is updated following each one is greater than 28 dB and the RLF-Report the reception of information antoRRC: less than or equal 30 dB. element where all conditions that UEInformationResponse or X2AP: are listed below are met. Meeting RLF INDICATION (or internal eNB these conditions means that the RLF message) containing This Indication counter isthreshold2 updated following configured B2 the information the RLF-Report reception ofthreshold an RRC:for PSHO measurement element where all conditions that RRCConnectionReestablishmentRe to UTRAN (RSCP or EcN0 are as listed below are met.based quest or X2AP: RLF INDICATION on configuration) was set to a Meeting these conditions means (or internal eNB RLF Indication value, which would not have that the configured threshold2 message) allB2 conditions that resulted in where a handover tofor UTRAN measurement threshold VoLTE are listed belowbased are met. Meeting that is initiated on the PSHO to UTRANmeans (RSCPthat or EcN0 these conditions the measurements of the UTRAN based on configuration) was set to configured B2 threshold2 neighbor cells. a value which, would not have measurement threshold for PSHO resulted in (RSCP a handover to UTRAN to UTRAN or EcN0 based -that LTE1749 and based either LTE56 or is initiated on the on configuration) was set to a LTE898 are activated. measurements of the UTRAN which would have resulted in -value, RLF-Report.selectedUTRA-CellId neighbor cells. a handover is included. to UTRAN that is
This counter is updated following the reception of an RRC: RRCConnectionReestablishmentRequest or X2AP: RLF INDICATION (or internal eNB RLF Indication message) where all conditions that are listed below are met. Meeting these This counter is updated following theconditions transmission means that the configured B2 threshold2 of an RRC: MobilityFromEUTRACommand measurement for VoLTE to over to message to thethreshold UE to direct the UEPSHO to hand UTRAN (RSCP or EcN0 based on configuration) UTRAN for any reason where all conditions listed was setare to met. a value, which would have resulted in a below This counter is updated thebased transmission handover to UTRAN thatfollowing is initiated on the of an RRC: MobilityFromEUTRACommand measurement of the UTRAN neighbor cell. LTE1749 either LTE56 LTE898 message and to the UE to directorthe UE to are hand over to activated. UTRAN for LTE56 any reason where all conditions as -The LTE1749, and LTE64 are activated. configured B2-PSHO was met based on the listed below are met. -last RRC: Thisreported counter is updated following thethe reception of measurement (that is, RRCConnectionReestablishmentRequest.reestabli an A2 event-related RRC Measurement Report measurement, which triggered the handover), LTE1749, LTE56 and LTE64listed are activated. shmentCause =both "handoverFailure" or X2AP: RLF message and all conditions below are met: determined by the following conditions The configured B2-VoLTE was met basedisonbeing the -INDICATION.RRCConnReestabIndicator LTE55 is activated met: last reported measurement (that is, the received and is set to = "handoverFailure". -This Thecounter reported is which updated following reception ofto measurement, triggered thethe handover), -measResults.measResultPCell.rsrpResult A UE Context exists, which indicates handover value is The configured B2T2 threshold for PSHO for the an A2 event-related RRC Measurement Report determined bothtothe following conditions being UTRAN isor inby progress where the RRC: less than equal the configured A2 LTE interhandover target UTRAN frequency was met based message and all conditions listed below are met: met: MobilityFromEUTRACommand has been frequency threshold2InterFreq andsent. isThis on the last RSRP reported UTRAN measurement. -- The LTE2112/LTE64 is activated configured B2T2 threshold for VoLTE for the representing the nearest upper configured can be determined as follows: The configured B2T2 threshold forthe VoLTE forbased the handover target UTRAN frequency met This counter is reception threshold for A2updated event. if-handover measQuantityUtra = 0 following (RSCP) forwas WCDMA, orofif The reported target UTRAN frequency was met based on the last reported UTRAN measurement (that is, an A2 event-related RRC Measurement Report this is TD-SCDMA measResults.measResultPCell.rsrpResult value is on the last reported UTRAN measurement. This the measurement which triggered the handover). message andRSCP all conditions listed below are met: last reported measurement (if included) > less than or equal to the configured A2 LTE interbe determined as follows: follows: This is determined -can LTE56 is activatedas b2Threshold2UtraRscp (hysB2ThresholdUtra*2) frequency RSRP threshold2InterFreqQci1 and is if measQuantityUtra = 0 +(RSCP) offsetFreqUtra (from LNHOW for WCDMA or This counter is updated following the reception representing the nearest configured last RSCP measurement (if for included) >of - ifreported measQuantityUtra =upper 0 (RSCP) WCDMA -an The reported LNHOT for TD-SCDMA) A2 event-related RRC Measurement Report threshold A2 event. b2Threshold2UtraRscpQci1 + - lastfor RSCP measurement (ifvalue measResults.measResultPCell.rsrpResult else, (this isreported WCDMA and- offsetFreqUtra measQuantityUtra = 1 is message and all conditions listed below + are met: (hysB2ThresholdUtra*2) (from included) > b2Threshold2UtraRscpQci1 less than or equal to the configured A2 LTE inter(EcN0)) -LNHOW) LTE2112/LTE64 is activated (hysB2ThresholdUtra*2) - offsetFreqUtra frequency RSRP and (from is > last EcN0threshold2Wcdma measurement (if included) elsereported (measQuantityUtra =upper 1 (EcN0)) LNHOW) This counter is updated following the reception of representing the nearest configured b2Threshold2UtraEcn0 + (hysB2ThresholdUtra*2) -an The reported last reported EcN0 measurement (if included) -A2 else event-related (measQuantityUtra RRC Measurement = 1 (EcN0)) Report> threshold for A2 event. -b2Threshold2UtraEcn0Qci1 offsetFreqUtra (from LNHOW) measResults.measResultPCell.rsrpResult is + message - lastwhere reported all conditions EcN0 measurement listed below (ifvalue are met. less than or equal to the configured A2 LTE inter(hysB2ThresholdUtra*2) - offsetFreqUtra+(from included) > b2Threshold2UtraEcn0Qci1 The configured B2T1 threshold for PSHO wasismet frequency RSRP threshold2WcdmaQci1 and (hysB2ThresholdUtra*2) -LNHOW) LTE1198 is activated - offsetFreqUtra (from based This counter on theis last updated reported following serving the cellreception RSRP of representing the nearest upper configured -LNHOW) The reported measurement, an A2 event-related determined RRC Measurement as follows: Report threshold for A2B2T1 event.threshold for VoLTE was The configured met measResults.measResultPCell.rsrqResult value is last message reported where serving allreported conditions cell RSRP listed measurement below are < met. based on the last serving cell RSRP The less counter than or equal is incremented to the configured against: A2 for RSRQ b2Threshold1Utra - (hysB2ThresholdUtra*2) (from measurement, which is determined as --LNHOW based Cell - mobility source handover threshold2MobRsrq cell andfollows: is LTE423 for is activated WCDMA or LNHOT for TD-SCDMA) last This reported counter is serving updated following RSRP measurement the reception
This counter is updated following the reception of an RRC: RRCConnectionReestablishmentRe quest or X2AP: RLF INDICATION (or RLF Indication Thisinternal countereNB is updated following message) where all an conditions the transmission of RRC: that are listed below are met. Meeting MobilityFromEUTRACommand these conditions means that the the UE message to the UE to direct configured B2 threshold2 to hand over is to updated UTRAN for any This counter following measurement threshold for VoLTE reason where all conditions listed the transmission of(RSCP an RRC: PSHO to UTRAN or EcN0 below are met. MobilityFromEUTRACommand based on configuration) was set to message to thewould UE tohave directresulted the UE a value, which LTE1749 andtoeither LTE56 or to hand over UTRAN for any in a handover to UTRAN that is This counter is updated following LTE898 are activated. reason where all conditions as initiated based on the measurement the reception of B2-PSHO an A2 event-related The configured was met listed below areneighbor met.Report of theMeasurement UTRAN cell. RRC based on the last reported message and all conditions measurement (that is,LTE64 the listed LTE56 and -LTE1749, LTE1749, LTE56 and LTE64are are below are met: measurement, triggered the This counter is which updated following activated. -handover), LTE55 is activated determined by both the the reception of an A2 event-related The configured B2-VoLTE was met --following RRC: The reported conditions being met: RRC Measurement Report based on the last reported RRCConnectionReestablishmentRe measResults.measResultPCell.rsrp message and all conditions listed measurement (that is, theor equal quest.reestablishmentCause = forto Result value is less than The configured B2T2 threshold below are met: measurement, which triggered the "handoverFailure" or X2AP: RLF This counter is updated following the configured A2 LTE interPSHO for the handover target -handover), LTE2112/LTE64 is activated determined by both the INDICATION.RRCConnReestabIndi the reception of an was A2 event-related frequency RSRP UTRAN frequency metmet: based following conditions being cator is received and is set to = RRC threshold2InterFreq and is on theMeasurement last reported Report UTRAN "handoverFailure". message andthe all conditions listed representing nearest upper measurement. This can be -below The reported The configured B2T2 threshold for -configured A UE Context exists, which are met: threshold for following A2 event. determined as follows: This counter is updated measResults.measResultPCell.rsrp VoLTE for the handover target to= UTRAN is in -indicates LTE56 ishandover activated ifResult measQuantityUtra 0event-related (RSCP) for the reception an was A2 value isofless than or equal to UTRAN frequency met based progress where the RRC: WCDMA, or if this is TD-SCDMA RRC Measurement Report the configured A2 LTE interon the last reported UTRAN MobilityFromEUTRACommand has last reported RSCP measurement message and all conditions frequency RSRP measurement. This can be listed been sent. -below The reported (if included) > are met: threshold2InterFreqQci1 and is for determined as -b2Threshold2UtraRscp This Thecounter configured is follows: updated B2T2 threshold measResults.measResultPCell.rsrp +following -representing LTE2112/LTE64 is activated the nearest upper to ifthe measQuantityUtra = 0 (RSCP) VoLTE reception for theisof handover an A2 event-related target Result value less than (hysB2ThresholdUtra*2) -or equal configured threshold for A2 last reported RSCP measurement UTRAN RRC Measurement frequency was Report met event. based the configured A2 LTE inter(from LNHOW for -offsetFreqUtra The reported (if included) > on message the last where reported all conditions UTRAN listed frequency RSRP WCDMA or LNHOT for TDmeasResults.measResultPCell.rsrp b2Threshold2UtraRscpQci1 + measurement below are met. (that is, the threshold2Wcdma and isfollowing SCDMA) This counter is less updated Result value than equal to -or measurement -(hysB2ThresholdUtra*2) LTE1198 isWCDMA activated which triggered representing the nearest upperthe else, the reception (this is of an A2 and event-related configured A2 LTE interoffsetFreqUtra (from LNHOW) -handover). The Measurement reported This is determined as configured threshold A2 event. measQuantityUtra RRC =Report 1for (EcN0)) frequency RSRP else (measQuantityUtra = 1 (EcN0)) follows: measResults.measResultPCell.rsrq last message reported where EcN0 all measurement conditions (if threshold2WcdmaQci1 is listed last reported EcN0 (if Result value is lessmeasurement thanand or equal to included) below are > met. b2Threshold2UtraEcn0 representing the nearest upper included) This counter > is A2 updated following the configured if measQuantityUtra for RSRQ = 0 based -+ LTE423 (hysB2ThresholdUtra*2) isthreshold activated configured A2- event. b2Threshold2UtraEcn0Qci1 the reception of an A2forevent-related +and is (RSCP) mobility for threshold2MobRsrq WCDMA -offsetFreqUtra The reported (from LNHOW) (hysB2ThresholdUtra*2) RRC Measurement Report -upper representing last reported the nearest RSCP measResults.measResultPCell.rsrp offsetFreqUtra message where (from all conditions LNHOW) listed measurement configured threshold included) for A2 event. The Result configured value is(ifless B2T1 than threshold or>equal forto below are met. b2Threshold2UtraRscpQci1 +last Thisconfigured counter is A2 updated following PSHO the was met based for RRC on the -The LTE1407 configured is activated threshold for (hysB2ThresholdUtra*2) -Redirect the reception of B2T1 an event-related reported Connection serving Release cellA2RSRP with -VoLTE The reported was met based on the last offsetFreqUtra (from LNHOW) RRC Measurement Report as the measurement, threshold4 and determined iscell representing reported measResults.measResultPCell.rsrq serving RSRP = 1 - else upper (measQuantityUtra message where all conditions listed follows: nearest configured threshold measurement, Result value is which less than is determined or equal to (EcN0)) below are met. last for A2 reported event. serving cell RSRP This counter is A2 updated following as the follows: configured forEcN0 RSRQ based -reported last reported -measurement The < an b2Threshold1Utra the reception of A1 event-related last redirection reported threshold4Rsrq serving cell RSRP and is measurement (if included) > measResults.measResultPCell.rsrp (hysB2ThresholdUtra*2) (from RRC Measurement Report measurement representing the
This counter is updated following the transmission of RRC Connection Reconfiguration message, which contains measConfig IE to activate A4 measurements for Idle Mode Load Balancing purposes. This counter is updated following a positive
This counter is updated following the transmission of RRC Connection Reconfiguration message, which contains measConfig to activate A4 This counter IE is updated following a measurements for Idle Mode Load evaluation of the received RRC Measurement positive evaluation of the received purposes.Report for A4 Report for A4 IMLB which triggered the insertion of Balancing RRC Measurement idleModeMobilityControlInfo IE into the RRC IMLB which triggered the insertion Connection Release. idleModeMobilityControlInfo IE The eNB continuously counts the sent chunks but of The eNB continuously counts the into the RRC Connection Release. updates the statistics every 5 seconds. sent chunks but updates the A positive evaluation of the statistics every 5 seconds. received RRC Measurement Report message with measResult IE containing measId of "Event EA positive The eNB counts theBalancing received (IMLB) chunks The eNB continuously counts the UTRA A4 continuously " for Idle Mode Load evaluation of the received RRC but updates thefollowing statistics conditions every 5 seconds. chunks but updates thewith means that the of the reported received Measurement Report message statistics every 5 seconds.measId RSRP/RSRQ values were met: measResult IE containing of "Event E-UTRA A4 " for Idle -RSRP/RSRQ ModeeNB Load Balancing (IMLB) The eNB continuously counts the resent chunks The continuously counts the values of thethe target cell are greater than absolute means that the but following conditions but updates statistics every 5 seconds. resent chunks updates the thresholds (minRsrpIMLB/minRsrqIMLB); of the reported RSRP/RSRQ statistics every 5 seconds. values were met: -delta RSRP/RSRQ values between the target The eNBserving continuously the state The eNB continuously monitors the and the cell aremonitors greater than deltaof the SCTP association but updates the statistics every state of the SCTP association thresholds -RSRP/RSRQ values but of 5 seconds. updates every 5 (minDeltaRsrpIMLB/minDeltaRsrqIMLB). the targetthe cellstatistics are greater than seconds. absolute thresholds (minRsrpIMLB/minRsrqIMLB); The eNB continuously monitors the state changes The eNB continuously monitors the of the SCTP association but updates the statistics state changes of the SCTP every 5 seconds. association but updates-delta the RSRP/RSRQ between the statistics everyvalues 5 seconds. target and the serving cell are The eNB continuously monitors the state of the The eNB continuously monitors the greater than delta thresholds SCTP association but updates the statistics every state of the SCTP association but (minDeltaRsrpIMLB/minDeltaRsrqI 5 seconds. updates the statistics every 5 MLB). seconds. The eNB continuously monitors the state changes of the SCTP association but updates the statistics every 5 seconds.
The eNB continuously monitors the state changes of the SCTP association but updates the statistics every 5 seconds.
The eNB continuously counts the sent chunks but updates the statistics every 5 seconds.
The eNB continuously counts the sent chunks but updates the statistics every 5 seconds.
The eNB continuously counts the received chunks but updates the statistics every 5 seconds.
The eNB continuously counts the received chunks but updates the statistics every 5 seconds.
The eNB continuously counts the resent chunks but updates the statistics every 5 seconds.
The eNB continuously counts the resent chunks but updates the statistics every 5 seconds.
The eNB continuously monitors the state of the SCTP association but updates the statistics every 5 seconds.
The eNB continuously monitors the state of the SCTP association but updates the statistics every 5 seconds.
The eNB continuously monitors the state changes The eNB continuously monitors the of the SCTP association but updates the statistics state changes of the SCTP every 5 seconds. association but updates the statistics every 5 seconds. The eNB continuously monitors the state of the SCTP association but updates the statistics every 5 seconds.
The eNB continuously monitors the state of the SCTP association but updates the statistics every 5 seconds.
The eNB continuously monitors the state changes of the SCTP association but updates the statistics every 5 seconds.
The eNB continuously monitors the state changes of the SCTP association but updates the statistics every 5 seconds.
The eNB continuously counts the sent chunks but The eNB continuously counts the updates the statistics every 5 seconds. sent chunks but updates the statistics every 5 seconds. The eNB continuously counts the received chunks but updates the statistics every 5 seconds.
The eNB continuously counts the received chunks but updates the statistics every 5 seconds.
The eNB continuously counts the resent chunks but updates the statistics every 5 seconds.
The eNB continuously counts the resent chunks but updates the statistics every 5 seconds.
The eNB continuously monitors the state of the SCTP association but updates the statistics every 5 seconds.
The eNB continuously monitors the state of the SCTP association but updates the statistics every 5 seconds.
The eNB continuously monitors the state changes of the SCTP association but updates the statistics every 5 seconds.
The eNB continuously monitors the state changes of the SCTP association but updates the statistics every 5 seconds.
The eNB continuously monitors the state of the SCTP association but updates the statistics every 5 seconds.
The eNB continuously monitors the state of the SCTP association but updates the statistics every 5 seconds.
The eNB continuously monitors the state changes The eNB continuously monitors the of the SCTP association but updates the statistics state changes of the SCTP every 5 seconds. association but updates the statistics every 5 seconds. The counter is updated when an inbound packet has been delivered to higher-layer protocols.
The counter is updated when an inbound packet has been delivered to higher-layer protocols.
The counter is updated whenever a kilo-byte is received on the plain IP interface.
The counter is updated whenever a kilo-byte is received on the plain IP interface.
The counter is updated whenever a packet has been transmitted successfully over the plain IP interface.
The counter is updated whenever a packet has been transmitted successfully over the plain IP interface.
The counter is updated whenever a kilo-byte is transmitted over the plain IP interface.
The counter is updated whenever a kilo-byte is transmitted over the plain IP interface.
The counter is updated whenever an erroneous packets is received on the plain IP interface.
The counter is updated whenever an erroneous packets is received on the plain IP interface.
The counter is updated when an outbound packet needs to be dropped due to congestion.
The counter is updated when an outbound packet needs to be dropped due to congestion.
The counter is updated when a kilo-byte of outbound data needs to be dropped due to congestion.
The counter is updated when a kilobyte of outbound data needs to be dropped due to congestion.
The counter is updated when an IP multicast packet or fragment has been received.
The counter is updated when an IP multicast packet or fragment has been received.
The counter is updated whenever a kilo-byte of data is received in IP Multicast packets or fragments at the IP network interface.
The counter is updated whenever a kilo-byte of data is received in IP Multicast packets or fragments at the IP network interface.
The counter is updated when an IP Multicast packet or fragment has been transmitted.
The counter is updated when an IP Multicast packet or fragment has been transmitted.
The counter is updated whenever a kilo-byte of data is transmitted in IP multicast packets or fragments at the IP network interface.
The counter is updated whenever a kilo-byte of data is transmitted in IP multicast packets or fragments at the IP network interface.
The counter is updated when an IP multicast packet (unfragmented) or fragment (before reassembly) needs to be dropped due to one or more of the following reasons: -The Thecounter NE didisnot join thewhen corresponding updated a kilo-byteIP of IP multicast group on the interface on which multicast data that has been received hasthis been packet hasdue been discarded to received. one or more of the following -reasons: The destination MAC address does not match with address calculated - Thethe NEdestination did not joinMAC the corresponding IP from the IP multicast address. multicast group on the interface on which this
The counter is updated when an IP multicast packet (unfragmented) or fragment (before reassembly) needs to be dropped due to one or more of the following reasons: The counter is updated when a kilo-byte TheofNE did not join the IP multicast data that has corresponding IP multicast group been received has been discarded on the interface on which this due to one or more of the following packet has been received. reasons: -- The destination MAC address The NE did not join the does not match with the destination corresponding IP multicast group MAC address calculated on the interface on whichfrom this the IP multicast address. packet has been received.
packet has been received. - The destination MAC address does not match with the destination MAC address calculated from the IP multicast address.
- The destination MAC address does not match with the destination MAC address calculated from the IP multicast address.
The counter is updated when a kilo-byte of outbound data is transmitted over the plain IP interface within the PHB class.
The counter is updated when a kilobyte of outbound data is transmitted over the plain IP interface within the PHB class.
The counter is updated when a packet is transmitted over the plain IP interface within the PHB class.
The counter is updated when a packet is transmitted over the plain IP interface within the PHB class.
The counter is updated when a kilo-byte of outbound data needs to be dropped due to congestion within the PHB class.
The counter is updated when a kilobyte of outbound data needs to be dropped due to congestion within the PHB class.
The counter is updated when an outbound packet The counter is updated when an needs to be dropped due to congestion within the outbound packet needs to be PHB class. dropped due to congestion within the PHB class. The counter is updated when a kilo-byte is transmitted over the plain IP interface within the PHB class.
The counter is updated when a kilobyte is transmitted over the plain IP interface within the PHB class.
The counter is updated when a packet is transmitted over the plain IP interface within the PHB class.
The counter is updated when a packet is transmitted over the plain IP interface within the PHB class.
The counter is updated when a kilo-byte of outbound data needs to be dropped due to congestion within the PHB class.
The counter is updated when a kilobyte of outbound data needs to be dropped due to congestion within the PHB class.
The counter is updated when an outbound packet needs to be dropped due to congestion within the PHB class.
The counter is updated when an outbound packet needs to be dropped due to congestion within the PHB class.
The counter is updated when a kilo-byte is transmitted over the plain IP interface within the PHB class.
The counter is updated when a kilobyte is transmitted over the plain IP interface within the PHB class.
The counter is updated when a packet is transmitted over the plain IP interface within the PHB class.
The counter is updated when a packet is transmitted over the plain IP interface within the PHB class.
The counter is updated when a kilo-byte of outbound data needs to be dropped due to congestion within the PHB class.
The counter is updated when a kilobyte of outbound data needs to be dropped due to congestion within the PHB class.
The counter is updated when an outbound packet The counter is updated when an needs to be dropped due to congestion within the outbound packet needs to be PHB class. dropped due to congestion within the PHB class.
The counter is updated when a kilo-byte is transmitted over the plain IP interface within the PHB class.
The counter is updated when a kilobyte is transmitted over the plain IP interface within the PHB class.
The counter is updated when a packet is transmitted over the plain IP interface within the PHB class.
The counter is updated when a packet is transmitted over the plain IP interface within the PHB class.
The counter is updated when a kilo-byte of outbound data needs to be dropped due to congestion within the PHB class.
The counter is updated when a kilobyte of outbound data needs to be dropped due to congestion within the PHB class.
The counter is updated when an outbound packet The counter is updated when an needs to be dropped due to congestion within the outbound packet needs to be PHB class. dropped due to congestion within the PHB class. The counter is updated when a kilo-byte is transmitted over the plain IP interface within the PHB class.
The counter is updated when a kilobyte is transmitted over the plain IP interface within the PHB class.
The counter is updated when a packet is transmitted over the plain IP interface within the PHB class.
The counter is updated when a packet is transmitted over the plain IP interface within the PHB class.
The counter is updated when a kilo-byte of outbound data needs to be dropped due to congestion within the PHB class.
The counter is updated when a kilobyte of outbound data needs to be dropped due to congestion within the PHB class.
The counter is updated when an outbound packet The counter is updated when an needs to be dropped due to congestion within the outbound packet needs to be PHB class. dropped due to congestion within the PHB class. The counter is updated when a kilo-byte is transmitted over the plain IP interface within the PHB class.
The counter is updated when a kilobyte is transmitted over the plain IP interface within the PHB class.
The counter is updated when a packet is transmitted over the plain IP interface within the PHB class.
The counter is updated when a packet is transmitted over the plain IP interface within the PHB class.
The counter is updated when a kilo-byte of outbound data needs to be dropped due to congestion within the PHB class.
The counter is updated when a kilobyte of outbound data needs to be dropped due to congestion within the PHB class.
The counter is updated when an outbound packet The counter is updated when an needs to be dropped due to congestion within the outbound packet needs to be PHB class. dropped due to congestion within the PHB class.
The counter is updated when a kilo-byte is received on the plain IP interface within the PHB class.
The counter is updated when a kilobyte is received on the plain IP interface within the PHB class.
The counter is updated when a packet is received on the plain IP interface within the PHB class.
The counter is updated when a packet is received on the plain IP interface within the PHB class.
The counter is updated when a kilo-byte is received on the plain IP interface within the PHB class.
The counter is updated when a kilobyte is received on the plain IP interface within the PHB class.
The counter is updated when a packet is received on the plain IP interface within the PHB class.
The counter is updated when a packet is received on the plain IP interface within the PHB class.
The counter is updated when a kilo-byte is received on the plain IP interface within the PHB class.
The counter is updated when a kilobyte is received on the plain IP interface within the PHB class.
The counter is updated when a packet is received on the plain IP interface within the PHB class.
The counter is updated when a packet is received on the plain IP interface within the PHB class.
The counter is updated when a kilo-byte is received on the plain IP interface within the PHB class.
The counter is updated when a kilobyte is received on the plain IP interface within the PHB class.
The counter is updated when a packet is received on the plain IP interface within the PHB class.
The counter is updated when a packet is received on the plain IP interface within the PHB class.
The counter is updated when a kilo-byte is received on the plain IP interface within the PHB class.
The counter is updated when a kilobyte is received on the plain IP interface within the PHB class.
The counter is updated when a packet is received on the plain IP interface within the PHB class.
The counter is updated when a packet is received on the plain IP interface within the PHB class.
The counter is updated when a kilo-byte is received on the plain IP interface within the PHB class.
The counter is updated when a kilobyte is received on the plain IP interface within the PHB class.
The counter is updated when a packet is received on the plain IP interface within the PHB class.
The counter is updated when a packet is received on the plain IP interface within the PHB class.
The counter is incremented every second by the number of kilo-bytes received in valid Ethernet frames by the interface.
The counter is incremented every second by the number of kilo-bytes received in valid Ethernet frames by the interface.
The counter is incremented every second by the number of kilo-bytes transmitted in valid Ethernet frames by the interface.
The counter is incremented every second by the number of kilo-bytes transmitted in valid Ethernet frames by the interface.
The counter is incremented every second by the number of Ethernet frames received by the interface.
The counter is incremented every second by the number of Ethernet frames received by the interface.
The counter is incremented every second by the number of Ethernet frames transmitted by the interface.
The counter is incremented every second by the number of Ethernet frames transmitted by the interface.
The counter is incremented every second by the The counter is incremented every number of errored Ethernet frames received by the second by the number of errored interface. Ethernet frames received by the interface. The counter is incremented for every ingress Ethernet frames that is discarded due to rate limiting.
The counter is incremented for every ingress Ethernet frames that is discarded due to rate limiting.
The counter is incremented every second by the number of Ethernet packets to be received that were discarded due to frame's VID is not matching the VLAN membership configuration of that switchport. The counter is incremented every second by the
The counter is incremented every second by the number of Ethernet packets to be received that were discarded due to frame's VID is not matching theisVLAN membership The counter incremented every configuration of that switch-port. second by the number of Ethernet
number of Ethernet frames to be transmitted that were discarded due to egress shaping per queue per interface. The counter is incremented every second by the number of Ethernet frames to be transmitted that were discarded due to egress shaping per queue per interface. The counter is incremented every second by the number of Ethernet frames to be transmitted that were discarded due to egress shaping per queue per interface. The counter is incremented every second by the number of Ethernet frames to be transmitted that were discarded due to egress shaping per queue per interface. The counter is incremented every second by the number of Ethernet frames to be transmitted that were discarded due to egress shaping per queue per interface.
frames to be transmitted that were discarded due to egress shaping per per Thequeue counter is interface. incremented every second by the number of Ethernet frames to be transmitted that were discarded due to egress shaping per per Thequeue counter is interface. incremented every second by the number of Ethernet frames to be transmitted that were discarded due to egress shaping per per Thequeue counter is interface. incremented every second by the number of Ethernet frames to be transmitted that were discarded due to egress shaping per per Thequeue counter is interface. incremented every second by the number of Ethernet frames to be transmitted that were discarded due to egress shaping per queue per interface.
The counter is incremented every second by the number of Ethernet frames to be transmitted that were discarded due to egress shaping per queue per interface.
The counter is incremented every second by the number of Ethernet frames to be transmitted that were discarded due to egress shaping per per Thequeue counter is interface. incremented for
The counter is incremented for every ingress Ethernet 64-byte block that is discarded due to rate every ingress Ethernet 64-byte limiting. block that is discarded due to rate limiting. The counter is updated when an outbound packet related to a protect policy is transmitted successfully.
The counter is updated when an outbound packet related to a protect policy is transmitted successfully.
The counter is updated when an received ESP packets addressed to a local tunnel endpoint which where received with a SPI which is related to a known policy.
The counter is updated when an received ESP packets addressed to a local tunnel endpoint which where received with a SPI which is related to a known The counterpolicy. is updated when an
The counter is updated when an outbound packet matching a discard policy is transmitted successfully. NOTE: Discarded packet matching the default policy will notisbe counted with athis counter. The counter updated when packets not Note 2: The default policy is DISCARD IPSec addressed to an local tunnel endpoint oruntil packets policies are configured. which do not have an ESP or AH header which are matching a discard policy is received. The counter is updated for every packet that is bypassed in egress direction.
The counter is updated for every packet not addressed to an local tunnel endpoint or packets which do not have an ESP or AH header shall be counted which are matching a bypass policy. The counter is updated for every packet that is dropped due to ingress rate limiting.
outbound packet matching a discard policy is transmitted successfully. NOTE: Discarded packet matching The counter is updated when a the default policy will not be packets not addressed to an local counted with thisorcounter. tunnel endpoint packets which Note 2: The do not have default an ESPpolicy or AHisheader DISCARD until IPSec policies policy are which are matching a discard The counter is updated for every configured. is received. packet that is bypassed in egress direction. The counter is updated for every packet not addressed to an local tunnel endpoint or packets which do not have an ESP or AH header shall be counted which are The counter is updated for every matching a bypass policy. packet that is dropped due to ingress rate limiting.
The counter is updated for every packet that is discarded due to filter violations.
The counter is updated for every packet that is discarded due to filter violations.
The counter is updated when an inbound packet has been delivered to higher-layer protocols.
The counter is updated when an inbound packet has been delivered to higher-layer protocols.
The counter is updated whenever a kilo-octet is received on the VLAN IP interface.
The counter is updated whenever a kilo-octet is received on the VLAN IP interface.
The counter is updated whenever a packet has been transmitted successfully over the VLAN interface.
The counter is updated whenever a packet has been transmitted successfully over the VLAN interface.
The counter is updated whenever a kilo-byte is transmitted over the VLAN IP interface.
The counter is updated whenever a kilo-byte is transmitted over the VLAN IP interface.
The counter is updated whenever an erroneous packets is received on the VLAN IP interface.
The counter is updated whenever an erroneous packets is received on the VLAN IP interface.
The counter is updated when an outbound packet needs to be dropped due to congestion.
The counter is updated when an outbound packet needs to be dropped due to congestion.
The counter is updated when a kilo-byte of outbound data needs to be dropped due to congestion.
The counter is updated when a kilobyte of outbound data needs to be dropped due to congestion.
The counter is updated when an IP multicast packet or fragment has been received.
The counter is updated when an IP multicast packet or fragment has been received.
The counter is updated whenever a kilo-byte of data is received in IP Multicast packets or fragments at the IP network interface.
The counter is updated whenever a kilo-byte of data is received in IP Multicast packets or fragments at the IP network interface.
The counter is updated when an IP Multicast packet or fragment has been transmitted.
The counter is updated when an IP Multicast packet or fragment has been transmitted.
The counter is updated when a kilo-byte of an IP The counter is updated when a kiloMulticast packet or fragment has been transmitted. byte of an IP Multicast packet or fragment has been transmitted. The counter is updated when an IP multicast packet (unfragmented) or fragment (before reassembly) needs to be dropped due to one or more of the following reasons: -The Thecounter NE didisnot join thewhen corresponding updated a kilo-byteIP of IP multicast group on the interface on which multicast data that has been received hasthis been packet hasdue been discarded to received. one or more of the following -reasons: The destination MAC address does not match with the address calculated from -The Thecounter NEdestination didisnot joinMAC thewhen corresponding updated a kilo-byteIP is the IP multicast address. multicast group onthe thePHB interface transmitted within class.on which this packet has been received. - The destination MAC address does not match with the destination MAC address calculated from the IP multicast address.
The counter is updated when an IP multicast packet (unfragmented) or fragment (before reassembly) needs to be dropped due to one or more of the following reasons: The counter is updated when a kilo-byte TheofNE did not join the IP multicast data that has corresponding IP multicast group been received has been discarded on the interface on which this due to one or more of the following packet has been received. reasons: The counter is updated when a kilo-- The destination MAC address TheisNE did not join the byte transmitted within the PHB does not match with the destination corresponding IP multicast group class. MAC address calculated from on the interface on which this the IP multicast address. packet has been received. - The destination MAC address does not match with the destination MAC address calculated from the IP multicast address.
The counter is updated when a packet is transmitted within the PHB class.
The counter is updated when a packet is transmitted within the PHB class.
The counter is updated when a kilo-byte of outbound data needs to be dropped due to congestion within the PHB class.
The counter is updated when a kilobyte of outbound data needs to be dropped due to congestion within the PHB class.
The counter is updated when a packet needs to be The counter is updated when a dropped due to congestion within the PHB class. packet needs to be dropped due to congestion within the PHB class. The counter is updated when a kilo-byte is transmitted within the PHB class.
The counter is updated when a kilobyte is transmitted within the PHB class.
The counter is updated when a packet is transmitted within the PHB class.
The counter is updated when a packet is transmitted within the PHB class.
The counter is updated when a kilo-byte is dropped The counter is updated when a kilodue to congestion within the PHB class. byte is dropped due to congestion within the PHB class. The counter is updated when a packet needs to be The counter is updated when a dropped due to congestion within the PHB class. packet needs to be dropped due to congestion within the PHB class. The counter is updated when a kilo-byte is transmitted within the PHB class.
The counter is updated when a kilobyte is transmitted within the PHB class.
The counter is updated when a packet is transmitted within the PHB class.
The counter is updated when a packet is transmitted within the PHB class.
The counter is updated when a kilo-byte of outbound data needs to be dropped due to congestion within the PHB class.
The counter is updated when a kilobyte of outbound data needs to be dropped due to congestion within the PHB class.
The counter is updated when a packet needs to be The counter is updated when a dropped due to congestion within the PHB class. packet needs to be dropped due to congestion within the PHB class. The counter is updated when a kilo-byte is transmitted within the PHB class.
The counter is updated when a kilobyte is transmitted within the PHB class.
The counter is updated when a packet is transmitted within the PHB class.
The counter is updated when a packet is transmitted within the PHB class.
The counter is updated when a kilo-byte of outbound data needs to be dropped due to congestion within the PHB class.
The counter is updated when a kilobyte of outbound data needs to be dropped due to congestion within the PHB class.
The counter is updated when a packet needs to be The counter is updated when a dropped due to congestion within the PHB class. packet needs to be dropped due to congestion within the PHB class. The counter is updated when a kilo-byte is transmitted within the PHB class.
The counter is updated when a kilobyte is transmitted within the PHB class.
The counter is updated when a packet is transmitted within the PHB class.
The counter is updated when a packet is transmitted within the PHB class.
The counter is updated when a kilo-byte of outbound data needs to be dropped due to congestion within the PHB class.
The counter is updated when a kilobyte of outbound data needs to be dropped due to congestion within the PHB class.
The counter is updated when a packet needs to be The counter is updated when a dropped due to congestion within the PHB class. packet needs to be dropped due to congestion within the PHB class. The counter is updated when a kilo-byte is transmitted within the PHB class.
The counter is updated when a kilobyte is transmitted within the PHB class.
The counter is updated when a packet is transmitted within the PHB class.
The counter is updated when a packet is transmitted within the PHB class.
The counter is updated when a kilo-byte of outbound data needs to be dropped due to congestion within the PHB class.
The counter is updated when a kilobyte of outbound data needs to be dropped due to congestion within the PHB class.
The counter is updated when a packet needs to be The counter is updated when a dropped due to congestion within the PHB class. packet needs to be dropped due to congestion within the PHB class. The counter is updated when a kilo-byte is received within the PHB class.
The counter is updated when a kilobyte is received within the PHB class.
The counter is updated when a packet is received within the PHB class.
The counter is updated when a packet is received within the PHB class.
The counter is updated when a kilo-byte is received within the PHB class.
The counter is updated when a kilobyte is received within the PHB class.
The counter is updated when a packet is received within the PHB class.
The counter is updated when a packet is received within the PHB class.
The counter is updated when a kilo-byte is received within the PHB class.
The counter is updated when a kilobyte is received within the PHB class.
The counter is updated when a packet is received within the PHB class.
The counter is updated when a packet is received within the PHB class.
The counter is updated when a kilo-byte is received within the PHB class.
The counter is updated when a kilobyte is received within the PHB class.
The counter is updated when a packet is received within the PHB class.
The counter is updated when a packet is received within the PHB class.
The counter is updated when a kilo-byte is received within the PHB class.
The counter is updated when a kilobyte is received within the PHB class.
The counter is updated when a packet is received within the PHB class.
The counter is updated when a packet is received within the PHB class.
The counter is updated when a kilo-byte is received within the PHB class.
The counter is updated when a kilobyte is received within the PHB class.
The counter is updated when a packet is received within the PHB class.
The counter is updated when a packet is received within the PHB class.
The counter is incremented when a frame is received on the interface.
The counter is incremented when a frame is received on the interface.
The counter is incremented when a kilo-octet is received on the interface.
The counter is incremented when a kilo-octet is received on the interface.
The counter is incremented when a frame is transmitted over the interface.
The counter is incremented when a frame is transmitted over the interface.
The counter is incremented when a kilo-octet is transmitted over the interface.
The counter is incremented when a kilo-octet is transmitted over the interface.
The counter is updated when a frame is received on the interface.
The counter is updated when a frame is received on the interface.
The counter is updated when an octet is received on the interface.
The counter is updated when an octet is received on the interface.
The counter is updated when a frame is transmitted over the interface.
The counter is updated when a frame is transmitted over the interface.
The counter is updated when an octet is transmitted over the interface.
The counter is updated when an octet is transmitted over the interface.
The counter is incremented every second by the number of Ethernet frames received by the interface that were discarded due to no VLAN interface has been configured at that Ethernet MAC for the frame's VID. The counter is updated when a valid Ethernet The counter is in hardware implemented as 16 bit Multicast frame conveying IP payload is received counter, therefore it is possible that it rolls over that is addressed to one of the multicast MAC within 15 minutes. An indication of a possible addresses configured for IP applications of the NE. misconfiguration can be derived anyway. The counter is updated when a valid Ethernet Multicast frame generated by an IP application of the network element is transmitted at one of the NE link layer interfaces.
The counter is incremented every second by the number of Ethernet frames received by the interface that were discarded due to no VLAN interface has been The counter is updated when a configured at that Ethernet MAC for valid Ethernet Multicast frame the frame's VID. conveying IP payload is received The counter is in hardware that is addressed to one of the implemented asaddresses 16 bit counter, multicast MAC The counter updatedthat when a therefore it for isispossible it rolls configured IP applications valid Ethernet Multicast frameof the over within 15 minutes. An NE. generated byaan IP application of indication of possible the network element misconfiguration can is betransmitted derived at one of the NE link layer anyway. The counter is incremented every second by the The counter is incremented every number of Ethernet packets to be transmitted that interfaces. second by the number of Ethernet were discarded due to egress shaping (Buffer packets to be transmitted that were overflow). discarded due to egress shaping overflow). The counter is updated for every reply message to (Buffer The counter is updated for every a TWAMP initiator message that the BTS has sent reply message to a TWAMP initiator over this TWAMP session. message that the BTS has sent over this TWAMP session.
The counter is updated for every reply message to a TWAMP initiator message that the BTS has sent over this TWAMP session, for which a new maximum round trip time is detected.
The counter is updated for every reply message to a TWAMP initiator message that the BTS has sent over this TWAMP session, for a new is maximum trip The counter is updated for every reply message to which The counter updated round for every time is detected. a TWAMP initiator message that the BTS has sent reply message to a TWAMP initiator over this TWAMP session, for which a new message that the BTS has sent minimum round trip time is detected. over this TWAMP session, for which a new is minimum trip The counter is updated for every lost TWAMP The counter updatedround for every time is detected. message for the session. lost TWAMP message for the session. The counter is updated for every transmitted TWAMP message for the session.
The counter is updated for every transmitted TWAMP message for the session.
Counter is incremented with each successful normal setup request message.
Counter is incremented with each successful normal setup request message.
Counter is incremented with each successful handover setup request message.
Counter is incremented with each successful handover setup request message.
Counter is incremented with each successful handover setup request message.
Counter is incremented with each successful handover setup request message.
Counter is incremented with each rejected normal setup request.
Counter is incremented with each rejected normal setup request.
Counter is incremented with each rejected handover setup request.
Counter is incremented with each rejected handover setup request.
Counter is incremented with each rejected emergency setup request.
Counter is incremented with each rejected emergency setup request.
Total UL GBR rate is measured within sampling interval. At the end of the measurement period (e.g. 15 min.) the mean value is calculated and stored in the Totalperformance UL GBR ratemeasurement is measured file. within sampling
Total UL GBR rate is measured within sampling interval. At the end of the measurement period (e.g. 15 min.) the mean value is calculated and stored in Total UL GBR rate is measured the performance measurement file. within sampling interval.
interval. At the end of the measurement period (e.g. 15 min.) the max. value is stored in the performance measurement file
At the end of the measurement period (e.g. 15 min.) the max. value is stored in the performance measurement file
Total DL GBR rate is measured within sampling interval. At the end of the measurement period (e.g. 15 min.) the mean value is calculated and stored in the Totalperformance DL GBR ratemeasurement is measured file. within sampling interval. At the end of the measurement period (e.g. 15 min.) the max. value is stored in the performance measurement The counter is file. incremented every second by the number of received frequency synchronization messages. Calculated value is representing value of the last 15min period of time. Counter value using is cleared "The value is updated every minute the (set to value 0) in case of connection to master is lost following formula: or restarted and when counter is fetched by user. minValue = min (minValue, actualValue)" "The value is updated every minute using the following formula: aveValueNew = (aveValueOld * (actualIntervalLength - 1) + actualValue) / actualIntervalLength" "The value is updated every minute using the
Total DL GBR rate is measured within sampling interval. At the end of the measurement period (e.g. 15 min.) the mean value is calculated and stored in Total DL GBR rate is measured the performance measurement file. within sampling interval. At the end of the measurement period (e.g. 15 min.) the max. value is stored in the performanceevery The counter is incremented measurement file. second by the number of received frequency synchronization messages. Calculated is representing "The value value is updated every minute value of the last 15min period of using the following formula: time. Counter value is cleared (set minValue = min (minValue, to value 0) in case of connection to actualValue)" master is lost or restarted and when "The value is updated every minute counter is fetched by user. using the following formula: aveValueNew = (aveValueOld * (actualIntervalLength - 1) + actualValue) actualIntervalLength" "The value is/updated every minute
following formula: maxValue = max (maxValue, actualValue)"
using the following formula: maxValue = max (maxValue, actualValue)"
The number of seconds during this interval while the timing over packet frequency synchronisation service was in locked state.
The number of seconds during this interval while the timing over packet frequency synchronisation service was in locked state.
The counter is incremented every second by the number of received ToP sync event messages. Calculated value is representing value of the last 15min period of time. Counter value is cleared (set to value 0) in of connection to master is lost "The value is case updated every minute using the or restarted and when counter is fetched by user. following formula:
The counter is incremented every second by the number of received ToP sync event messages. Calculated value is representing value of theislast 15minevery periodminute of "The value updated time. Counter value is cleared using the following formula: (set to value 0)=inmin case of connection to minValue (minValue, master is lost or restarted and when actualValue)" counter is fetched by user. "The value is updated every minute using the following formula: aveValueNew = (aveValueOld * (actualIntervalLength - 1) + actualValue) actualIntervalLength" "The value is/updated every minute
minValue = min (minValue, actualValue)" "The value is updated every minute using the following formula: aveValueNew = (aveValueOld * (actualIntervalLength - 1) + actualValue) / actualIntervalLength" "The value is updated every minute using the following formula: maxValue = max (maxValue, actualValue)"
using the following formula: maxValue = max (maxValue, actualValue)"
The number of seconds during this interval while the timing over packet phase synchronisation service was in locked state.
The number of seconds during this interval while the timing over packet phase synchronisation service was in locked state.
The counter is updated at sampling intervals.
The counter is updated at sampling intervals.
The counter is updated at sampling intervals.
The counter is updated at sampling intervals.
The transmission of an S1AP:Initial Context Setup Response or an S1AP:E-RAB SETUP RESPONSE, or an S1AP:Initial Context Setup Failure message sent by the eNB to the MME with any cause except resources not Setup The RNL transmission of an "radio S1AP:Initial Context available". Response or an S1AP:E-RAB SETUP RESPONSE, or an S1AP:Initial Context Setup Failure message sent by the eNB to the MME. The transmission of an S1AP:Initial Context Setup Response or an S1AP:E-RAB SETUP RESPONSE, or an S1AP:Initial Context Setup Failure message sent by the eNB to the MME with RNL cause "radio of resources not available". The transmission an S1AP:Initial Context Setup Response or an S1AP:E-RAB SETUP RESPONSE, or an S1AP:Initial Context Setup Failure message sent by the eNB to the MME. The counter is updated if thewhen failurethe detected This counter is updated S1AP: does UE not match any other failure counter. CONTEXT RELEASE REQUEST message (eNB -> MME; 3GPP TS 36.413) is transmitted with release cause "User inactivity". This updated number This counter counter is is also updated whenwith the the S1AP: UE of released E-RABs. CONTEXT RELEASE REQUEST message (eNB -> MME; 3GPP TS 36.413) is transmitted with release cause "Radio Connection With UE Lost". This updated number of This counter counter is is also updated whenwith the the S1AP:E-RAB released E-RABs. RELEASE INDICATION message (eNB -> MME; 3GPP TS 36.413) or S1AP: UE CONTEXT RELEASE REQUEST message (eNB -> MME; 3GPP TS 36.413) is transmitted case that This counter is updated when theinS1AP: UE the used release cause does not match with any of CONTEXT RELEASE REQUEST message (eNB the following: -> MME; 3GPP TS 36.413) is transmitted in case -that Release E-UTRAN Generated one ofdue the to following release causesReason is used: -- Inter-RAT redirection Release due to E-UTRAN Generated Reason This counter updated -- Redirection towards when 1xRTTthe S1AP: UE Inter-RAT RELEASE redirection CONTEXT REQUEST message (eNB -- CS Fallback Triggered Redirection towards 1xRTTis transmitted with -> MME; 3GPP TS 36.413) -- Transport Resource Unavailable CS Fallback release cause Triggered "UserWith inactivity". -This Radio Connection UE with Lost the number of counter is also updated This counter is also updated with number -released User inactivity This counter is updated when the the S1AP: UE of E-RABs. released QCI1 E-RABs. -CONTEXT Radio resources not available RELEASE REQUEST message (eNB This counter is also updatediswith the number -> MME; 3GPP TS 36.413) transmitted withof released E-RABs. release cause "Radio Connection With UE Lost". This counter is also updated with the number of released QCI1 E-RABs.
This counter is updated when the S1AP:E-RAB RELEASE INDICATION message (eNB -> MME; 3GPP TS 36.413) or S1AP: UE CONTEXT RELEASE REQUEST message (eNB -> MME; 3GPP TS 36.413) is transmitted case that This counter is updated when theinS1AP: UE the used release cause does not match with any of CONTEXT RELEASE REQUEST message (eNB the following: -> MME; 3GPP TS 36.413) is transmitted in case -that Release E-UTRAN Generated one ofdue the to following release causesReason is used: -- Inter-RAT redirection Release due to E-UTRAN Generated Reason Transmission of an S1AP: E-RAB RELEASE -- Redirection towards 1xRTT Inter-RAT redirection INDICATION message (eNB -> MME; 3GPP TS -- CS Fallbacktowards Triggered Redirection 1xRTT 36.413) or transmission of an S1AP: UE -- Transport Resource Unavailable CS Fallback Triggered CONTEXT RELEASE REQUEST message (eNB -This Radio Connection With UE with Lost the counter is also updated number -> MME; 3GPP TS 36.413) in case that these of -released User inactivity Transmission ofE-RABs. an S1AP: E-RAB RELEASE QCI1 messages aremessage used toavailable release or more -INDICATION Radio resources not (eNB ->one MME; 3GPPGBR TS bearers with RNL cause "Radio resources notof This counter is also updated the UE number 36.413) or transmission of anwith S1AP: available". released QCI1 E-RABs. CONTEXT RELEASE REQUEST message (eNB The counter is updated withinthe number of -> MME; 3GPP TS 36.413) case that these Transmission ofbearers. S1AP E-RAB RELEASE released GBR messages areorused to UE release one or RELEASE more nonINDICATION S1AP CONTEXT GBR bearers with RNL cause "Radio resources not REQUEST message from eNB to MME due to user available". inactivity The counter is updated with the number of or Transmission of S1AP UE CONTEXT RELEASE released non-GBR bearers. reception S1AP UE CONTEXT REQUESTofmessage from eNB to RELEASE MME due to lost COMMAND or S1AP E-RAB RELEASE radio connection. COMMAND with release cause "normal" and not received as a procedure response to Releasefor message If the release is aexecuted Transmission oftoS1AP E-RAB RELEASEmore than previously sent the MME one Data Radio BearerUE (DRB) the counter is INDICATION or S1AP CONTEXT RELEASE or pegged for each released DRB. REQUEST eNB to RELEASE MME due to for reception ofmessage X2AP UEfrom CONTEXT example Transport Network failure or any reason message due to outgoing X2-Handover (also intra 3GPP TS36.413 ( S1AP UE CONTEXT RELEASE different to "user inactivity" or "lost radio eNB HO is included). Transmission of S1AP: UE CONTEXT RELEASE REQUEST) connection". REQUEST message from eNB to MME due to If the release is executed for'RNL moreE-than redirect. In thisprocedure case either RNL cause If theData release procedure is executed for more one Radio Bearer (DRB), the counter is than UTRAN Generated Reason' or 'RNL Inter-RAT one Data Radio Bearer (DRB) the counter is pegged for each released DRB. Redirection' are used. when a PDCP SDU is This counter is updated pegged for each released DRB. received from UE.(S1AP E-RAB RELEASE 3GPP TS36.413 If the release procedure is executed for more than 3GPP TS36.413 (S1AP(DRB), E-RABthe RELEASE INDICATION, one Data Radio Bearer counter is INDICATION, S1AP UE CONTEXT RELEASE S1AP UE CONTEXT RELEASE REQUEST, incremented for each released DRB. REQUEST) S1APcounter E-RABisRELEASE COMMAND, This updated when a PDCP SDU is S1AP CONTEXT RELEASE COMMAND) transmitted towards the UE. 3GPP UE TS36.413 (S1AP: UE CONTEXT RELEASE 3GPP TS36423 (X2AP UE CONTEXT RELEASE) REQUEST) An internal message from the RRM
The reception of an RRC Connection Request message sent by the UE to eNB. Note: If a UE (erroneously) sends this message several times in a row without waiting the proper time for the response from eNB (RRCConnectionSetup), only the last message will be counted.
Updated in release RL70
Logical Type
This counter is updated when eNB transmits an S1AP:S1 Setup Request message to MME.
Sum
This counter is updated when eNB receives an S1AP:S1 Setup Response message sent by MME.
Sum
This counter is updated when the timer expires.
Sum
This counter is updated when eNB Sum receives an S1AP:S1 Setup Failure message sent by MME. This counter is updated when eNB Sum receives an S1AP:Paging message sent by MME. Transmission of a global S1AP: RESET Message
Sum
Reception of a global S1AP:RESET Sum Message sent by MME to the eNB.
Transmission of a partial S1AP: RESET Message
Sum
Reception of a partial S1AP:RESET Sum Message sent by MME to the eNB.
Reception of an S1AP:UE CONTEXT MODIFICATION REQUEST message sent by MME to the eNB in case this message contains the UE-AMBR value.
Sum
The counter is incremented when an S1AP:WRITE-REPLACE WARNING RESPONSE message is sent to the MME and the Broadcast Completed Area List IE The counter is incremented when is not included. an S1AP:KILL RESPONSE message is sent to the MME and the Broadcast Cancelled Area List IE is counter not included. This is updated at the
Sum
Sum
Sum
transmission of an S1AP: UPLINK NAS TRANSPORT message to the MME. This counter is updated following the reception of an S1AP: DOWNLINK NAS TRANSPORT message sent by the MME to the eNB. Reception of the S1AP: E-RAB
Sum
Sum SETUP REQUEST message (eNB <- MME) in case that this message contains the ARP (Allocation and Retention Priority) Transmission of thepriority S1AP:level E-RAB Sum which is used for emergency SETUP RESPONSE message sessions (3GPPinTS 36.413) (eNB -> MME) case that this message contains the E-RAB ID of the IMS emergency in the Transmission of the session S1AP: E-RAB E-RAB Setup List AND was sent SETUP RESPONSE message in response to the in reception the (eNB -> MME) case thatofthis S1AP: E-RAB SETUP REQUEST message contains the E-RAB ID of message (eNB <- MME) containing the IMS emergency session in the Reception of an S1AP:LOCATION the ARP (Allocation and Retention E-RAB Failed to Setup List REPORTING CONTROL message Priority) priority level RB which is used (because of missing (Radio sent by MME tosessions the eNB.(3GPP for emergency TSin Bearer) resources) AND was sent 36.413). response to the reception of the Transmission an S1AP: E-RABof SETUP REQUEST S1AP:LOCATION REPORT message (eNB <- MME) containing message to the MME. the ARP (Allocation and Retention Priority) priority level which is used for emergency sessions (3GPP TS Reception of S1AP:MME 36.413). CONFIGURATION TRANSFER including 'SON Information Reply' with 'X2 TNL Configuration Info' -Transmission (3GPP TS 36.413) of S1AP:ENB
Sum
Sum
Sum
Sum
Sum CONFIGURATION TRANSFER including 'SON Information Request' for 'X2 TNL Configuration Info'. The counter is updated when an Sum -S1AP:WRITE-REPLACE (3GPP TS 36.413) WARNING REQUEST message is received from MME.
The counter is updated when an S1AP:WRITE-REPLACE WARNING RESPONSE message is sent to MME.
Sum
The counter is updated when an S1AP:KILL REQUEST message is received from MME.
Sum
The counter is updated when an S1AP:KILL RESPONSE message is sent to MME.
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
At the first transmission of a TB containing a segment of the SDU.
Min
At the first transmission of a TB containing a segment of the SDU.
Max
At the first transmission of a TB containing a segment of the SDU.
Average
The counter is updated if the Min current minimum is greater than the last detected delay value at the transmission of the SDU via S1 interface. The counter is updated if the Max current maximum is less than the last detected delay value at the transmission of the SDU via S1 interface.
The counter is updated based on currently calculated mean delay value at the transmission of the SDU via S1 interface.
Average
The reception of an RA preamble Sum group A sent by the UE to the eNB.
The reception of an RA preamble Sum group B sent by the UE to the eNB.
The transmission of a RA preamble Sum response sent by the eNB to the UE. The transmission of a TB on PCH.
Sum
The transmission of a TB on BCH.
Sum
The transmission of a TB for the first time on DL-SCH.
Sum
HARQ retransmission of a TB on DL-SCH.
Sum
A correctly received TB by original transmission
Sum
A correctly received TB with retransmission.
Sum
An erroneous TB reception
Sum
When MCS0 is used for transmission.
Sum
When MCS1 is used for transmission.
Sum
When MCS2 is used for transmission.
Sum
When MCS3 is used for transmission.
Sum
When MCS4 is used for transmission.
Sum
When MCS5 is used for transmission.
Sum
When MCS6 is used for transmission.
Sum
When MCS7 is used for transmission.
Sum
When MCS8 is used for transmission.
Sum
When MCS9 is used for transmission.
Sum
When MCS10 is used for transmission.
Sum
When MCS11 is used for transmission.
Sum
When MCS12 is used for transmission.
Sum
When MCS13 is used for transmission.
Sum
When MCS14 is used for transmission.
Sum
When MCS15 is used for transmission.
Sum
When MCS16 is used for transmission.
Sum
When MCS17 is used for transmission.
Sum
When MCS18 is used for transmission.
Sum
When MCS19 is used for transmission.
Sum
When MCS20 is used for transmission.
Sum
When MCS21 is used for transmission.
Sum
When MCS22 is used for transmission.
Sum
When MCS23 is used for transmission.
Sum
When MCS24 is used for transmission.
Sum
When MCS25 is used for transmission.
Sum
When MCS26 is used for transmission.
Sum
When MCS27 is used for transmission.
Sum
When MCS28 is used for transmission.
Sum
When MCS0 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS1 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS2 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS3 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS4 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS5 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS6 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS7 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS8 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS9 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS10 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS11 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS12 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS13 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS14 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS15 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS16 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS17 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS18 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS19 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS20 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS21 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS22 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS23 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS24 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS25 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS26 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS27 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS28 is used for transmission. SIB, Paging and RA response excluded.
Sum
When MCS0 is used for transmission.
Sum
When MCS1 is used for transmission.
Sum
When MCS2 is used for transmission.
Sum
When MCS3 is used for transmission.
Sum
When MCS4 is used for transmission.
Sum
When MCS5 is used for transmission.
Sum
When MCS6 is used for transmission.
Sum
When MCS7 is used for transmission.
Sum
When MCS8 is used for transmission.
Sum
When MCS9 is used for transmission.
Sum
When MCS10 is used for transmission.
Sum
When MCS11 is used for transmission.
Sum
When MCS12 is used for transmission.
Sum
When MCS13 is used for transmission.
Sum
When MCS14 is used for transmission.
Sum
When MCS15 is used for transmission.
Sum
When MCS16 is used for transmission.
Sum
When MCS17 is used for transmission.
Sum
When MCS18 is used for transmission.
Sum
When MCS19 is used for transmission.
Sum
When MCS20 is used for transmission.
Sum
When MCS21 is used for transmission.
Sum
When MCS22 is used for transmission.
Sum
When MCS23 is used for transmission.
Sum
When MCS24 is used for transmission.
Sum
When MCS25 is used for transmission.
Sum
When MCS26 is used for transmission.
Sum
When MCS27 is used for transmission.
Sum
When MCS28 is used for transmission.
Sum
When MCS0 is used for transmission.
Sum
When MCS1 is used for transmission.
Sum
When MCS2 is used for transmission.
Sum
When MCS3 is used for transmission.
Sum
When MCS4 is used for transmission.
Sum
When MCS5 is used for transmission.
Sum
When MCS6 is used for transmission.
Sum
When MCS7 is used for transmission.
Sum
When MCS8 is used for transmission.
Sum
When MCS9 is used for transmission.
Sum
When MCS10 is used for transmission.
Sum
When MCS11 is used for transmission.
Sum
When MCS12 is used for transmission.
Sum
When MCS13 is used for transmission.
Sum
When MCS14 is used for transmission.
Sum
When MCS15 is used for transmission.
Sum
When MCS16 is used for transmission.
Sum
When MCS17 is used for transmission.
Sum
When MCS18 is used for transmission.
Sum
When MCS19 is used for transmission.
Sum
When MCS20 is used for transmission.
Sum
When MCS21 is used for transmission.
Sum
When MCS22 is used for transmission.
Sum
When MCS23 is used for transmission.
Sum
When MCS24 is used for transmission.
Sum
When MCS25 is used for transmission.
Sum
When MCS26 is used for transmission.
Sum
When MCS27 is used for transmission.
Sum
When MCS28 is used for transmission.
Sum
The counter is updated when RLC SDU on DL DTCH is sent
Sum
The counter is updated when RLC SDU on DL DCCH is sent
Sum
The counter is updated when RLC SDU on UL DTCH is received
Sum
The counter is updated when RLC SDU on UL DCCH is received
Sum
The counter is updated when RLC Sum AM/UM data PDU is transmitted for the first time on the RLC level
The counter is updated when a Sum RLC AM data PDU is retransmitted on the RLC level. The counter is updated when a non-duplicate RLC AM/UM data PDU is received
Sum
The counter is updated when RLC Control PDU related to DCCH or DTCH is transmitted first time on RLC level.
Sum
The counter is updated when RLC Sum Data PDU related to DTCH is transmitted first time on the RLC level. The counter is updated when an UL Sum RLC PDU is received.
The counter is updated when a Sum duplicate UL RLC PDU is received. Valid for duplicate AMD PDU, AMD PDU segment and UMD PDU. This counter is updated when a retransmission is requested on the RLC level for a UL RLC PDU.
Sum
This counter is updated when a UL Sum RLC PDU has been discarded. Duplicate RLC PDU's received and RLC PDU's received outside of the reception window triggerwhen updates to Sum This counter is updated RLC this counter. SDU is received from the PDCP layer. The arithmetical average number of Average UE contexts per TTI with buffered DL RLC data is updated to this counter. DL RLC buffer status is sampled for each activeofTTI, The maximum number UE where Max data is in the DL RLC buffer at contexts with UP data on DLfor RLC least one UE. buffer is updated to this counter. DL RLC buffer status is sampled for each active TTI, where datawhen is in The aggregation is started Sum the DL RLC buffer for at least Control Plane enters Overloadone level UE. 1 and it is stopped when Overload level 1 is left.
This counter is updated based on Average the buffer status reports. The value is the arithmetical average of samples taken from the number of UE UL buffered Thiscontexts counter with is updated baseddata. on Max The UL buffer status is sampled for the buffer status reports. The each activenumber TTI, where is maximum of UEdata contexts scheduled for at least one UE. with UL buffered data is updated to this UL buffer status is The counter. aggregation is started when Sum sampled for each active TTI, where Control Plane enters Overload level data at least one 2 andisitscheduled is stoppedfor when Overload UE. level 2 is left. This counter is updated on the reception of an PDCP SDU from UE.
Sum
This counter is updated for successful PDCP SDU transmissions during the measurement period. RLC UM: Transmission an PDCP SDUa This counter isofupdated when towards the UE. RLC AM: When PDCP SDU is removed from the MAC layer informs a eNB without havingPDCP startedofthe successful SDU delivery to UE. transmission.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated by the Average number of UEs using UL intra-eNB CoMP in each TTI when PUSCH is scheduled. This counter is updated after each Average sampling interval with the arithmetical average of samples each representing the number of UEs RRC_CONNECTED This in counter is updated afterstate eachat Max that moment. sampling interval with the peak number of UEs in RRC_CONNECTED state during the period.when the Thismeasurement counter is updated
Sum
maximum number of HARQ retransmissions has been exceeded for the TB. This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
The counter is updated when the Min size of the RLC buffer changes, except when there is no data in the buffer.
The counter is updated when the Average size of the RLC buffer changes, except when there is no data in the buffer. The counter is updated when the Max size of the RLC buffer changes, except when there is no data in the buffer. The counter is updated when the Min size of the RLC buffer changes, except when there is no data in the buffer. The counter is updated when the Average size of the RLC buffer changes, except when there is no data in the buffer. The counter is updated when the Max size of the RLC buffer changes, except when there is no data in the buffer. The counter is updated each time the number of PRBs available for dynamic scheduling for non-GBR and GBR bearers is changed.
Average
The counter is updated each time the number of PRBs available for dynamic scheduling for non-GBR and GBR bearers is changed.
Average
This counter is updated on the transmission of an RLC data block on BCCH towards the UE.
Sum
This counter is updated on the transmission of an RLC SDU on CCCH towards the UE.
Sum
This counter is updated on the transmission of an RLC SDU on PCCH towards the UE.
Sum
This counter is updated on the Sum reception of an RLC SDU on CCCH from UE. The arithmetical average of samples taken from the number of active UEs.
Average
The maximum value of the samples Max of active UEs during a measurement period. The arithmetical average number of Average UE contexts per TTI with buffered DL RLC data for QCI1 bearer is updated to this counter. DL RLC buffer status is sampled each of Average The arithmetical averagefor number active TTI, where data is in the DL UE contexts per TTI with buffered RLC buffer for at least one UE. DL RLC data for QCI2 bearer is updated to this counter. DL RLC buffer status is sampled each of Average The arithmetical averagefor number active TTI, where data is in the DL UE contexts per TTI with buffered RLC buffer for at least one UE. DL RLC data for QCI3 bearer is updated to this counter. DL RLC buffer status is sampled each of Average The arithmetical averagefor number active TTI, where data is in the DL UE contexts per TTI with buffered RLC buffer for at least one UE. DL RLC data for QCI4 bearer is updated to this counter. DL RLC buffer status is is updated sampledwhen for each The counter the active TTI, where data is DL primary ETWS notificationinisthe sent RLC buffer for at least one UE. via SIB10. The counter is updated when the secondary ETWS notification is sent via SIB11. In case of segmented warning message contents the counter is The counter is updated when the updated when the last segment is CMAS notification is sent via sent. SIB12. In case of segmented warning message contents the counter is #N/A updated when the last segment is sent.
Sum
Sum
Sum
Average
The arithmetical average number of Average UE contexts per TTI with buffered DL RLC data for non-GBR bearer is updated to this counter. DL RLC buffer status is for each This counter is sampled updated after each Sum active TTI, where data is the DL sampling interval with theinsample RLC for at least one UE. takenbuffer from the number of Active UEs with buffered data in DL. This counter is updated by value 1 when the number of Active UEs is summed to counter SUM_ACTIVE_UE_DATA_DL.
Sum
This counter is updated after each sampling interval with the sample taken from the number of Active UEs with buffered data in UL.
Sum
This counter is updated by value 1 when the number of Active UEs is summed to counter SUM_ACTIVE_UE_DATA_UL.
Sum
The time starts at the reception of the PDCP SDU in the eNB. The time ends at the first transmission of a TB containing a segment the at SDU. The time of starts the reception of Discarded SDUs excluded the PDCP SDU inwill thebe eNB. from the measurement. The time ends at the first
Average
Average
transmission of a TB containing a segment the at SDU. The time of starts the reception of Discarded SDUs excluded the PDCP SDU inwill thebe eNB. from the measurement. The time ends at the first
Average
transmission of a TB containing a segment the at SDU. The time of starts the reception of Discarded SDUs excluded the PDCP SDU inwill thebe eNB. from the measurement. The time ends at the first
Average
transmission of a TB containing a segment the at SDU. The time of starts the reception of Discarded SDUs excluded the PDCP SDU inwill thebe eNB. from the measurement. The time ends at the first
Average
transmission of a TB containing a segment of theofSDU. The reception a dedicated RA Discarded SDUs preamble sent bywill thebe UEexcluded to the from the measurement. eNB.
Sum
(cf. 3GPP TS 36.300) This counter is updated in each TTI Sum with the number of active UEs that had data scheduled in UL. This counter is incremented by 1 in Sum each TTI when the eNB is "on air" in uplink. This counter is updated in each TTI Sum with the number of active UEs that had data scheduled in DL. This counter is incremented by 1 in Sum each TTI when the eNB is "on air" in downlink.
#N/A
Sum
#N/A
Sum
This counter is updated when a PDCP SDU for a QCI 1 bearer is delivered to higher layers.
Sum
This counter is updated when a PDCP SDU for a QCI 2 bearer is delivered to higher layers.
Sum
This counter is updated when a PDCP SDU for a QCI 3 bearer is delivered to higher layers.
Sum
This counter is updated when a PDCP SDU for a QCI 4 bearer is delivered to higher layers.
Sum
The time starts at the reception of the PDCP SDU in the eNB. The time ends at the first transmission of a TB containing a segment the at SDU. The time of starts the reception of Discarded SDUs excluded the PDCP SDU inwill thebe eNB. from the measurement. The time ends at the first
Average
Average
transmission of a TB containing a segment the at SDU. The time of starts the reception of Discarded SDUs excluded the PDCP SDU inwill thebe eNB. from the measurement. The time ends at the first
Average
transmission of a TB containing a segment the at SDU. The time of starts the reception of Discarded SDUs excluded the PDCP SDU inwill thebe eNB. from the measurement. The time ends at the first
Average
transmission of a TB containing a segment the at SDU. The time of starts the reception of Discarded SDUs excluded the PDCP SDU inwill thebe eNB. from the measurement. The time ends at the first
Average
transmission of a TB containing a segment of the SDU. The number of transmitted PDCP Discarded SDUs excluded SDUs in downlinkwill forbe QCI 1 from the measurement.
Sum
This counter is updated when a PDCP SDU of a QCI2 bearer is sent to the UE.
Sum
This counter is updated when a PDCP SDU of a QCI3 bearer is sent to the UE.
Sum
This counter is updated when a PDCP SDU of a QCI4 bearer is sent to the UE.
Sum
This counter is updated after each sampling interval with the sample taken from the number of UEs in RRC_CONNECTED state.
Sum
This counter is updated by value 1 when the number of RRC Connected UEs is summed to counter SUM_RRC_CONN_UE.
Sum
This counter is updated after each sampling interval with the sample taken from the number of Active UEs.
Sum
This counter is updated by value 1 when the number of Active UEs is summed to counter SUM_ACTIVE_UE.
Sum
#N/A
Sum
This counter is updated when a PDCP SDU of a QCI1 bearer is removed from the eNB without having started the transmission.
Sum
This counter is updated when a PDCP SDU of a QCI2 bearer is removed from the eNB without having started the transmission.
Sum
This counter is updated when a PDCP SDU of a QCI3 bearer is removed from the eNB without having started the transmission.
Sum
This counter is updated when a PDCP SDU of a QCI4 bearer is removed from the eNB without having started the transmission.
Sum
The value is the arithmetical average of samples taken from the number of UE contexts with buffered data in UL for logical channel group, has VOIP The value is thewhich arithmetical (QCI1) bearer that is mapped. average of samples taken fromThe the samples are fromwith each active number of UEtaken contexts TTI, where there is UL buffered data in UL for data logical scheduled for at least one UE. channel groups with non-GBR Transmission of a PDCCH order (QCI5...9) bearer that mapped. (eNB -> UE; 3GPP TSis36.321, TS The samples are taken from each 36.212) to initiate a UE Random active TTI, where there data Access. This counter is is notUL only scheduled for at least one UE. updated whenofthe (initial) Transmission anfirst initial PDCCH PDCCH order is transmitted order (eNB -> UE; 3GPP TS to a UE, but this counter to is initiate also updated 36.321, TS 36.212) a UE with PDCCH order transmission Random Access; that is this counter repetitions. is updated the firstwhen (initial) The counterwhen is updated the PDCCH order is transmitted to a -> Random Access Response (eNB UE; counter is not updated UE; this 3GPP TS 36.300) was sentwith to PDCCH transmission repetitions. a UE after transmission of the related PDCCH order (eNB -> UE; eNB-internal trigger 3GPP TS 36.321, TS 36.212) which initiated the Random Access of a UE.
Average
eNB-internal trigger
Sum
eNB-internal trigger
Sum
eNB-internal trigger
Sum
Average
Sum
Sum
Sum
Sum
eNB-internal average calculation of Average the number of UEs in Uplink-InSync; the average is calculated as the arithmetical average over the measurement period. calculation of Average eNB-internal average the number of RRC connected UEs which have set the "deviceType" in the "UE-EUTRA-Capability" to "noBenFromBatConsumpOpt" This counter is updated when the Sum (3GPP TS Uplink-Out-Of-Sync 36.331, TS 36.306);time the measured average calculated as the T of a UEiswas in the range arithmetical average over the 0 seconds < T <= 0.5 seconds. measurement period.
This counter is updated when the Sum measured Uplink-Out-Of-Sync time T of a UE was in the range 0.5 seconds < T <= 2.5 seconds. This counter is updated when the Sum measured Uplink-Out-Of-Sync time T of a UE was in the range 2.5 seconds < T <= 10 seconds. This counter is updated when the Sum measured Uplink-Out-Of-Sync time T of a UE was in the range 10 seconds < T <= 100 seconds. This counter is updated when the Sum measured Uplink-Out-Of-Sync time T of a UE was larger than 100 seconds. When 1st transmission on PUSCH is received for used MCS
Sum
When 1st transmission on PUSCH is received for used MCS
Sum
When 1st transmission on PUSCH is received for used MCS
Sum
When 1st transmission on PUSCH is received for used MCS
Sum
When 1st transmission on PUSCH is received for used MCS
Sum
When 1st transmission on PUSCH is received for used MCS
Sum
When 1st transmission on PUSCH is received for used MCS
Sum
When 1st transmission on PUSCH is received for used MCS
Sum
When 1st transmission on PUSCH is received for used MCS
Sum
When 1st transmission on PUSCH is received for used MCS
Sum
When 1st transmission on PUSCH is received for used MCS
Sum
When 1st transmission on PUSCH is received for used MCS
Sum
When 1st transmission on PUSCH is received for used MCS
Sum
When 1st transmission on PUSCH is received for used MCS
Sum
When 1st transmission on PUSCH is received for used MCS
Sum
When 1st transmission on PUSCH is received for used MCS
Sum
When 1st transmission on PUSCH is received for used MCS
Sum
When 1st transmission on PUSCH is received for used MCS
Sum
When 1st transmission on PUSCH is received for used MCS
Sum
When 1st transmission on PUSCH is received for used MCS
Sum
When 1st transmission on PUSCH is received for used MCS
Sum
When 1st transmission on PUSCH is received for used MCS
Sum
When 1st transmission on PUSCH is received for used MCS
Sum
When 1st transmission on PUSCH is received for used MCS
Sum
When 1st transmission on PUSCH is received for used MCS
Sum
When 1st transmission on PUSCH is nacked for used MCS
Sum
When 1st transmission on PUSCH is nacked for used MCS
Sum
When 1st transmission on PUSCH is nacked for used MCS
Sum
When 1st transmission on PUSCH is nacked for used MCS
Sum
When 1st transmission on PUSCH is nacked for used MCS
Sum
When 1st transmission on PUSCH is nacked for used MCS
Sum
When 1st transmission on PUSCH is nacked for used MCS
Sum
When 1st transmission on PUSCH is nacked for used MCS
Sum
When 1st transmission on PUSCH is nacked for used MCS
Sum
When 1st transmission on PUSCH is nacked for used MCS
Sum
When 1st transmission on PUSCH is nacked for used MCS
Sum
When 1st transmission on PUSCH is nacked for used MCS
Sum
When 1st transmission on PUSCH is nacked for used MCS
Sum
When 1st transmission on PUSCH is nacked for used MCS
Sum
When 1st transmission on PUSCH is nacked for used MCS
Sum
When 1st transmission on PUSCH is nacked for used MCS
Sum
When 1st transmission on PUSCH is nacked for used MCS
Sum
When 1st transmission on PUSCH is nacked for used MCS
Sum
When 1st transmission on PUSCH is nacked for used MCS
Sum
When 1st transmission on PUSCH is nacked for used MCS
Sum
When 1st transmission on PUSCH is nacked for used MCS
Sum
When 1st transmission on PUSCH is nacked for used MCS
Sum
When 1st transmission on PUSCH is nacked for used MCS
Sum
When 1st transmission on PUSCH is nacked for used MCS
Sum
When 1st transmission on PUSCH is nacked for used MCS
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
This counter is updated when the maximum number of HARQ retransmissions has been exceeded for the TB.
Sum
#N/A
Average
The arithmetical average of samples taken from the number of DL CA-capable UEs.
Average
The arithmetical average of samples taken from the number of UEs with a configured SCell.
Average
The arithmetical average of samples taken from the number of UEs with an activated SCell.
Average
The counter is updated by the arithmetical average of samples taken from those UEs that are DL CA-capable for 3 component carriers. This counter is updated by the
Average
Average
arithmetical average of samples taken from the number of UEs with two configured SCells. The arithmetical average of samples taken from the number of UEs with two activated SCells.
Average
This counter is updated when an X2AP message has been received from any source eNB.
Sum
This counter is updated when an X2AP message is transmitted towards any target eNB.
Sum
This counter is updated on the Sum reception of an DL Data Forwarding GTP-U: G-PDU from any source eNB This counter is updated on the Sum transmission of DL Data Forwarding GTP-U: G-PDU towards any target eNB The counter is updated when the UE-related RSSI for PUCCH minimum value is detected
Min
The counter is updated when the UE-related RSSI for PUCCH maximum value is detected
Max
The counter is updated with the average value of the UE-related RSSI for PUCCH over the measurement period.
Average
The counter is updated when the UE-related RSSI for PUSCH minimum value is detected
Min
The counter is updated when the UE-related RSSI for PUSCH maximum value is detected
Max
The counter is updated with the average value of UE-related RSSI for PUSCH over the measurement period.
Average
The counter is updated when a UE- Sum related RSSI for PUCCH value <= -120 dBm is detected. This counter is used for UE-related RSSI for the PUCCH histogram. The counter is updated when a UE- Sum related RSSI for PUCCH value in the range of -120 dBm < RssiPucchUe <= -118 dBm is detected. This usedafor The counter is counter updatediswhen UE- Sum UE-related RSSI for the PUCCH related RSSI for PUCCH value in histogram. the range of -118 dBm < RssiPucchUe <= -116 dBm is detected. This usedafor The counter is counter updatediswhen UE- Sum UE-related RSSI for the PUCCH related RSSI for PUCCH value in histogram. the range of -116 dBm < RssiPucchUe <= -114 dBm is detected. This usedafor The counter is counter updatediswhen UE- Sum UE-related RSSI for the PUCCH related RSSI for PUCCH value in histogram. the range of -114 dBm < RssiPucchUe <= -112 dBm is detected. This usedafor The counter is counter updatediswhen UE- Sum UE-related RSSI for the PUCCH related RSSI for PUCCH value in histogram. the range of -112 dBm < RssiPucchUe <= -110 dBm is detected. This usedafor The counter is counter updatediswhen UE- Sum UE-related RSSI for the PUCCH related RSSI for PUCCH value in histogram. the range of -110 dBm < RssiPucchUe <= -108 dBm is detected. This usedafor The counter is counter updatediswhen UE- Sum UE-related RSSI for the PUCCH related RSSI for PUCCH value in histogram. the range of -108 dBm < RssiPucchUe <= -106 dBm is detected. This usedafor The counter is counter updatediswhen UE- Sum UE-related RSSI for the PUCCH related RSSI for PUCCH value in histogram. the range of -106 dBm < RssiPucchUe <= -104 dBm is detected. This counter is used for UE-related RSSI for the PUCCH histogram.
The counter is updated when a UE- Sum related RSSI for PUCCH value in the range of -104 dBm < RssiPucchUe <= -102 dBm is detected. This usedafor The counter is counter updatediswhen UE- Sum UE-related RSSI for the PUCCH related RSSI for PUCCH value in histogram. the range of -102 dBm < RssiPucchUe <= -100 dBm is detected. This usedafor The counter is counter updatediswhen UE- Sum UE-related RSSI for the PUCCH related RSSI for PUCCH value in histogram. the range of -100 dBm < RssiPucchUe <= -98 dBm is detected. This usedafor The counter is counter updatediswhen UE- Sum UE-related RSSI for the PUCCH related RSSI for PUCCH value in histogram. the range of -98 dBm < RssiPucchUe <= -96 dBm is detected. This usedafor The counter is counter updatediswhen UE- Sum UE related RSSI for the PUCCH related RSSI for PUCCH value in histogram. the range of -96 dBm < RssiPucchUe <= -94 dBm is detected. This usedafor The counter is counter updatediswhen UE- Sum UE related RSSI for the PUCCH related RSSI for PUCCH value in histogram. the range of -94 dBm < RssiPucchUe <= -92 dBm is detected. This usedafor The counter is counter updatediswhen UE- Sum UE related RSSI for the PUCCH related RSSI for PUCCH value in histogram. the range of -92 dBm < RssiPucchUe <= -90 dBm is detected. This usedafor The counter is counter updatediswhen UE- Sum UE related RSSI for the PUCCH related RSSI for PUCCH value in histogram. the range of -90 dBm < RssiPucchUe <= -88 dBm is detected. This usedafor The counter is counter updatediswhen UE- Sum UE related RSSI for the PUCCH related RSSI for PUCCH value in histogram. the range of -88 dBm < RssiPucchUe <= -86 dBm is detected. This usedafor The counter is counter updatediswhen UE- Sum UE related RSSI for the PUCCH related RSSI for PUCCH value in histogram. the range of -86 dBm < RssiPucchUe <= -84 dBm is detected. This usedafor The counter is counter updatediswhen UE- Sum UE related RSSI for the PUCCH related RSSI for PUCCH value in histogram. the range of -84 dBm < RssiPucchUe <= -82 dBm is detected. This usedafor The counter is counter updatediswhen UE- Sum UE related RSSI for the PUCCH related RSSI for PUCCH value in histogram. the range of -82 dBm < RssiPucchUe <= -80 dBm is detected. This counter is used for UE related RSSI for the PUCCH histogram.
The counter is updated when a UE- Sum related RSSI for PUCCH value in the range of RssiPucchUe > -80 dBm is detected. This counter is used for UE related RSSI for the The counter is updated when a UE- Sum PUCCH histogram. related RSSI for PUSCH value <= -120 dBm is detected. This counter is used for UE related RSSI for the PUSCH histogram. The counter is updated when a UE- Sum related RSSI for PUSCH value in the range of -120 dBm < RssiPUSCHUe <= -118 dBm is detected. This usedafor The counter is counter updatediswhen UE- Sum UE related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -118 dBm < RssiPUSCHUe <= -116 dBm is detected. This usedafor The counter is counter updatediswhen UE- Sum UE related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -116 dBm < RssiPUSCHUe <= -114 dBm is detected. This usedafor a Sum The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -114 dBm < RssiPUSCHUe <= -112 dBm is detected. This usedafor a Sum The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -112 dBm < RssiPUSCHUe <= -110 dBm is detected. This usedafor a Sum The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -110 dBm < RssiPUSCHUe <= -108 dBm is detected. This usedafor a Sum The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -108 dBm < RssiPUSCHUe <= -106 dBm is detected. This usedafor a Sum The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -106 dBm < RssiPUSCHUe <= -104 dBm is detected. This usedafor a Sum The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -104 dBm < RssiPUSCHUe <= -102 dBm is detected. This usedafor a Sum The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -102 dBm < RssiPUSCHUe <= -100 dBm is detected. This counter is used for a UE-related RSSI for the PUSCH histogram.
The counter is updated when a UE- Sum related RSSI for PUSCH value in the range of -100 dBm < RssiPUSCHUe <= -98 dBm is detected. This usedafor a Sum The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -98 dBm < RssiPUSCHUe <= -96 dBm is detected. This usedafor a Sum The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -96 dBm < RssiPUSCHUe <= -94 dBm is detected. This usedafor a Sum The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -94 dBm < RssiPUSCHUe <= -92 dBm is detected. This usedafor a Sum The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -92 dBm < RssiPUSCHUe <= -90 dBm is detected. This usedafor a Sum The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -90 dBm < RssiPUSCHUe <= -88 dBm is detected. This usedafor a Sum The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -88 dBm < RssiPUSCHUe <= -86 dBm is detected. This usedafor a Sum The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -86 dBm < RssiPUSCHUe <= -84 dBm is detected. This usedafor a Sum The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -84 dBm < RssiPUSCHUe <= -82 dBm is detected. This usedafor a Sum The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of -82 dBm < RssiPUSCHUe <= -80 dBm is detected. This usedafor a Sum The counter is counter updatediswhen UEUE-related RSSI for the PUSCH related RSSI for PUSCH value in histogram. the range of RssiPUSCHUe > -80 dBm is detected. This counter is used UE-related RSSI for the Whenfor UEa Power Headroom value PUSCH histogram. in the range of -23dB <= PHR < -21dB is detected.
Sum
When UE Power Headroom value in the range of -21dB <= PHR < -19dB is detected.
Sum
When UE Power Headroom value in the range of -19dB <= PHR < -17dB is detected.
Sum
When UE Power Headroom value in the range of -17dB <= PHR < -15dB is detected.
Sum
When UE Power Headroom value in the range of -15dB <= PHR < -13dB is detected.
Sum
When UE Power Headroom value in the range of -13dB <= PHR < -11dB is detected.
Sum
When UE Power Headroom value in the range of -11dB <= PHR < -9dB is detected.
Sum
When UE Power Headroom value in the range of -9dB <= PHR < -7dB is detected.
Sum
When UE Power Headroom value in the range of -7dB <= PHR < -5dB is detected.
Sum
When UE Power Headroom value Sum in the range of -5dB <= PHR < -3dB is detected. When UE Power Headroom value in the range of -3dB <= PHR < -1dB is detected.
Sum
When UE Power Headroom value in the range of -1dB <= PHR < 1dB is detected.
Sum
When UE Power Headroom value Sum in the range of 1dB <= PHR < 3dB is detected.
When UE Power Headroom value Sum in the range of 3dB <= PHR < 5dB is detected. When UE Power Headroom value Sum in the range of 5dB <= PHR < 7dB is detected. When UE Power Headroom value Sum in the range of 7dB <= PHR < 9dB is detected. When UE Power Headroom value in the range of 9dB <= PHR < 11dB is detected.
Sum
When UE Power Headroom value in the range of 11dB <= PHR < 13dB is detected.
Sum
When UE Power Headroom value in the range of 13dB <= PHR < 15dB is detected.
Sum
When UE Power Headroom value in the range of 15dB <= PHR < 17dB is detected.
Sum
When UE Power Headroom value in the range of 17dB <= PHR < 19dB is detected.
Sum
When UE Power Headroom value in the range of 19dB <= PHR < 21dB is detected.
Sum
When UE Power Headroom value in the range of 21dB <= PHR < 23dB is detected.
Sum
When UE Power Headroom value in the range of 23dB <= PHR < 25dB is detected.
Sum
When UE Power Headroom value in the range of 25dB <= PHR < 27dB is detected.
Sum
When UE Power Headroom value in the range of 27dB <= PHR < 29dB is detected.
Sum
When UE Power Headroom value in the range of 29dB <= PHR < 31dB is detected.
Sum
When UE Power Headroom value in the range of 31dB <= PHR < 33dB is detected.
Sum
When UE Power Headroom value in the range of 33dB <= PHR < 35dB is detected.
Sum
When UE Power Headroom value in the range of 35dB <= PHR < 37dB is detected.
Sum
When UE Power Headroom value in the range of 37dB <= PHR < 39dB is detected.
Sum
When UE Power Headroom value in the range of 39 dB <= PHR is detected.
Sum
When the minimum UE power headroom value is detected.
Min
When the maximum UE power headroom value is detected.
Max
Updated for each TTI.
Average
The counter is updated when the Min signal-to-interference-and-noise ratio (SINR) minimum value for the PUCCH is detected The counter is updated when the Max signal-to-interference-and-noise ratio (SINR) maximum value for the PUCCH is detected
The counter is updated with the Average average value of signal-tointerference-and-noise ratio (SINR) over the measurement period. The counter is updated when the Min signal-to-interference-and-noise ratio (SINR) minimum value for the PUSCH is detected The counter is updated when the Max signal-to-interference-and-noise ratio (SINR) maximum value for the PUSCH is detected The counter is updated with the Average average value of signal-tointerference-and-noise ratio (SINR) over the measurement period. When SINR PUCCH value in the range of <= -10dB is detected
Sum
When SINR PUCCH value in the range of -10dB < SINR <= -8dB is detected
Sum
When SINR PUCCH value in the range of -8dB < SINR <= -6dB is detected
Sum
When SINR PUCCH value in the range of -6dB < SINR <= -4dB is detected
Sum
When SINR PUCCH value in the range of -4dB < SINR <= -2dB is detected
Sum
When SINR PUCCH value in the range of -2dB < SINR <= 0dB is detected
Sum
When SINR PUCCH value in the range of 0dB < SINR <= 2dB is detected
Sum
When SINR PUCCH value in the range of 2dB < SINR <= 4dB is detected
Sum
When SINR PUCCH value in the range of 4dB < SINR <= 6dB is detected
Sum
When SINR PUCCH value in the range of 4dB < SINR <= 6dB is detected
Sum
When SINR PUCCH value in the range of 8dB < SINR <= 10dB is detected
Sum
When SINR PUCCH value in the range of 10dB < SINR <= 12dB is detected
Sum
When SINR PUCCH value in the range of 12dB < SINR <= 14dB is detected
Sum
When SINR PUCCH value in the range of 14dB < SINR <= 16dB is detected
Sum
When SINR PUCCH value in the range of 16dB < SINR <= 18dB is detected
Sum
When SINR PUCCH value in the range of 18dB < SINR <= 20dB is detected
Sum
When SINR PUCCH value in the range of 20dB < SINR <= 22dB is detected
Sum
When SINR PUCCH value in the range of 22dB < SINR <= 24dB is detected
Sum
When SINR PUCCH value in the range of 24dB < SINR <= 26dB is detected
Sum
When SINR PUCCH value in the range of 26dB < SINR <= 28dB is detected
Sum
When SINR PUCCH value in the range of 28dB < SINR <= 30dB is detected
Sum
When SINR PUCCH value in the range of > 30dB is detected
Sum
When SINR PUSCH value in the range of <= -10dB is detected
Sum
When SINR PUSCH value in the range of -10dB < SINR <= -8dB is detected
Sum
When SINR PUSCH value in the range of -8dB < SINR <= -6dB is detected
Sum
When SINR PUSCH value in the range of -6dB < SINR <= -4dB is detected
Sum
When SINR PUSCH value in the range of -4dB < SINR <= -2dB is detected
Sum
When SINR PUSCH value in the range of -2dB < SINR <= 0dB is detected
Sum
When SINR PUSCH value in the range of 0dB < SINR <= 2dB is detected
Sum
When SINR PUSCH value in the range of 2dB < SINR <= 4dB is detected
Sum
When SINR PUSCH value in the range of 4dB < SINR <= 6dB is detected
Sum
When SINR PUSCH value in the range of 6dB < SINR <= 8dB is detected
Sum
When SINR PUSCH value in the range of 8dB < SINR <= 10dB is detected
Sum
When SINR PUSCH value in the range of 10dB < SINR <= 12dB is detected
Sum
When SINR PUSCH value in the range of 12dB < SINR <= 14dB is detected
Sum
When SINR PUSCH value in the range of 14dB < SINR <= 16dB is detected
Sum
When SINR PUSCH value in the range of 16dB < SINR <= 18dB is detected
Sum
When SINR PUSCH value in the range of 18dB < SINR <= 20dB is detected
Sum
When SINR PUSCH value in the range of 20dB < SINR <= 22dB is detected
Sum
When SINR PUSCH value in the range of 22dB < SINR <= 24dB is detected
Sum
When SINR PUSCH value in the range of 24dB < SINR <= 26dB is detected
Sum
When SINR PUSCH value in the range of 26dB < SINR <= 28dB is detected
Sum
When SINR PUSCH value in the range of 28dB < SINR <= 30dB is detected
Sum
When SINR PUSCH value in the range of > 30dB is detected
Sum
This counter is updated every time UL AMC recommended MCS is upgraded. Both Outer Loop AMC and Inner Loop AMC decisions are considered. This counter is updated every time
Sum
Sum UL AMC recommended MCS is downgraded. Both Outer Loop AMC and Inner Loop AMC decisions are considered. This counter is updated if the Min current cell-wide RSSI value on PUCCH is smaller than the last cellwide RSSI minimum. This counter is updated if the Max current cell-wide RSSI value on PUCCH is greater than the last cellwide RSSI maximum. The counter is updated after every TTI. Mean value is calculated as follows: conversion from dBm into mW, arithmetic mean computation in mW and conversion The counter is updatedback after to every dBm. TTI if the cell-wide RSSI value on
Average
Sum
PUCCH is <= -120 dBm. The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -120 dBm < x <= -118 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -118 dBm < x <= -116 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -116 dBm < x <= -114 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -114 dBm < x <= -112 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -112 dBm < x <= -110 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -110 dBm < x <= -108 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -108 dBm < x <= -106 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -106 dBm < x <= -104 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -104 dBm < x <= -102 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -102 dBm < x <= -100 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -100 dBm < x <= -98 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -98 dBm < x <= -96 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -96 dBm < x <= -94 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -94 dBm < x <= -92 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -92 dBm < x <= -90 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -90 dBm < x <= -88 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -88 dBm < x <= -86 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -86 dBm < x <= -84 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -84 dBm < x <= -82 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is -82 dBm < x <= -80 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUCCH is greater than -80 dBm.
Sum
This counter is updated if the Min current cell-wide RSSI value on PUSCH is smaller than the last cellwide RSSI minimum. This counter is updated if the Max current cell-wide RSSI value on PUSCH is greater than the last cellwide RSSI maximum. The counter is updated after every TTI. Mean value is calculated as follows: conversion from dBm into mW, arithmetic mean computation in mW and conversion The counter is updatedback after to every dBm. TTI if the cell-wide RSSI value on
Average
Sum
PUSCH is <= -120 dBm. The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -120 dBm < x <= -118 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -118 dBm < x <= -116 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -116 dBm < x <= -114 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -114 dBm < x <= -112 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -112 dBm < x <= -110 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -110 dBm < x <= -108 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -108 dBm < x <= -106 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -106 dBm < x <= -104 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -104 dBm < x <= -102 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -102 dBm < x <= -100 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -100 dBm < x <= -98 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -98 dBm < x <= -96 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -96 dBm < x <= -94 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -94 dBm < x <= -92 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -92 dBm < x <= -90 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -90 dBm < x <= -88 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -88 dBm < x <= -86 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -86 dBm < x <= -84 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -84 dBm < x <= -82 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is -82 dBm < x <= -80 dBm.
Sum
The counter is updated after every TTI if the cell-wide RSSI value on PUSCH is greater than -80 dBm.
Sum
This counter is updated if the Min current cell-wide SINR value on PUCCH is smaller than the last cellwide SINR minimum. This counter is updated if the Max current cell-wide SINR value on PUCCH is greater than the last cellwide SINR maximum. The counter is updated after every TTI. Mean value is calculated as follows: SINR mean value calculation must be done on dB (instead of linear ratio). after every The counter is updated
Average
Sum
TTI if the cell-wide SINR value on PUCCH is <= -10 dB. The counter is updated after every TTI if the cell-wide SINR value on PUCCH is -10 dB < x <= -8 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUCCH is -8 dB < x <= -6 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUCCH is -6 dB < x <= -4 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUCCH is -4 dB < x <= -2 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUCCH is -2 dB < x <= 0 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUCCH is 0 dB < x <= 2 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUCCH is 2 dB < x <= 4 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUCCH is 4 dB < x <= 6 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUCCH is 6 dB < x <= 8 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUCCH is 8 dB < x <= 10 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUCCH is 10 dB < x <= 12 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUCCH is 12 dB < x <= 14 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUCCH is 14 dB < x <= 16 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUCCH is 16 dB < x <= 18 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUCCH is 18 dB < x <= 20 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUCCH is 20 dB < x <= 22 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUCCH is 22 dB < x <= 24 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUCCH is 24dB < x <= 26 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUCCH is 26 dB < x <= 28 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUCCH is 28 dB < x <= 30 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUCCH is greater than 30 dB.
Sum
This counter is updated if the Min current cell-wide SINR value on PUSCH is smaller than the last cellwide SINR minimum. This counter is updated if the Max current cell-wide SINR value on PUSCH is greater than the last cellwide SINR maximum. The counter is updated after every TTI. Mean value is calculated as follows: SINR mean value calculation must be done on dB (instead of linear ratio). after every The counter is updated
Average
Sum
TTI if the cell-wide SINR value on PUSCH is <= -10 dB. The counter is updated after every TTI if the cell-wide SINR value on PUSCH is -10 dB < x <= -8 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUSCH is -8 dB < x <= -6 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUSCH is -6 dB < x <= -4 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUSCH is -4 dB < x <= -2 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUSCH is -2 dB < x <= 0 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUSCH is 0 dB < x <= 2 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUSCH is 2 dB < x <= 4 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUSCH is 4 dB < x <= 6 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUSCH is 6 dB < x <= 8 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUSCH is 8 dB < x <= 10 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUSCH is 10 dB < x <= 12 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUSCH is 12 dB < x <= 14 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUSCH is 14 dB < x <= 16 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUSCH is 16 dB < x <= 18 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUSCH is 18 dB < x <= 20 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUSCH is 20 dB < x <= 22 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUSCH is 22 dB < x <= 24 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUSCH is 24 dB < x <= 26 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUSCH is 26 dB < x <= 28 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUSCH is 28 dB < x <= 30 dB.
Sum
The counter is updated after every TTI if the cell-wide SINR value on PUSCH is greater than 30 dB.
Sum
This measurement is updated by accumulating the RTWP in milliwatts for Rx antenna 1 from every sample period and calculating the at the end of the by Thisaverage measurement is updated collection interval. accumulating the RTWP in To increase the milliwatts forthe Rx granularity, antenna 2 from counter is reported in 10* dBm every sample period and calculating units. the at the end of the by Thisaverage measurement is updated collection interval. accumulating the RTWP in To increase the milliwatts forthe Rx granularity, antenna 3 from counter is reported in 10* dBm every sample period and calculating units. the at the end of the by Thisaverage measurement is updated collection interval. accumulating the RTWP in To increase the milliwatts forthe Rx granularity, antenna 4 from counter is reported in 10* dBm every sample period and calculating units. the at the end of the by Thisaverage measurement is updated collection interval. accumulating the RTWP in To increase the milliwatts forthe Rx granularity, antenna 5 from counter is reported in 10* dBm every sample period and calculating units. the at the end of the by Thisaverage measurement is updated collection interval. accumulating the RTWP in To increase the milliwatts forthe Rx granularity, antenna 6 from counter is reported in 10* dBm every sample period and calculating units. the average at the end of the
Average
collection interval. To increase the granularity, the counter is reported in 10* dBm units.
Average
Average
Average
Average
Average
This measurement is updated by accumulating the RTWP in milliwatts for Rx antenna 7 from every sample period and calculating the at the end of the by Thisaverage measurement is updated collection interval. accumulating the RTWP in To increase the milliwatts forthe Rx granularity, antenna 8 from counter is reported in 10* dBm every sample period and calculating units. the at the end of the by Thisaverage measurement is updated collection interval. collecting the individual antenna To increase theingranularity, the RTWP values milliwatts every counter is reported in 10* dBm sample period and comparing to a units. stored maximum value. If any of This measurement is updated bythe new collected values are larger calculating the IoT every sample than the existing maximum value, period the noise measurement is the largest collected value replaces received as per the PUSCH RB the maximum The the 50 distribution binvalue. 0 and This measurement is taking updated by measurement is reported with the percentile value at every the end of the calculating the IoT sample maximum dBm value at the end of collection period theinterval. noise measurement is the collection interval. received as per the PUSCH RB distribution bin 1 and theby50 This measurement is taking updated percentile value at the end of the calculating the IoT every sample collection interval. period the noise measurement is
Average
Average
Max
Average
Average
Average
received as per the PUSCH RB distribution bin 2 and theby50 This measurement is taking updated percentile value at the end of the calculating the IoT every sample collection interval. period the noise measurement is
Average
received as per the PUSCH RB distribution bin 3 and theby50 This measurement is taking updated percentile value at the end of the calculating the IoT every sample collection interval. period the noise measurement is
Average
received as per the PUSCH RB distribution bin 4 and theby50 This measurement is taking updated percentile value at the end of the calculating the IoT every sample collection interval. period the noise measurement is
Average
received as per the PUSCH RB distribution bin 5 and theby50 This measurement is taking updated percentile value at the end of the calculating the IoT every sample collection interval. period the noise measurement is
Average
received as per the PUSCH RB distribution bin 6 and theby50 This measurement is taking updated percentile value at the end of the calculating the IoT every sample collection interval. period the noise measurement is
Average
received as per the PUSCH RB distribution bin 7 and theby50 This measurement is taking updated percentile value at the end of the calculating the IoT every sample collection interval. period the noise measurement is
Average
received as per the PUSCH RB distribution bin 8 and taking the 50 percentile value at the end of the collection interval.
This measurement is updated by Sum calculating the SIR for each of the in-use PUSCH PRBs every sample period and incrementing the corresponding bin having an by This measurement is updated Sum average SIR value less than 1.0 dB. calculating the SIR for each of the in-use PUSCH PRBs every sample period and incrementing the corresponding bin having an by This measurement is updated Sum average SIR value from 1.0 to calculating the SIR for each dB of the less than 4.0 dB. in-use PUSCH PRBs every sample period and incrementing the corresponding bin having an by This measurement is updated Sum average SIR value from 4.0 to calculating the SIR for each dB of the less than 7.0 dB. in-use PUSCH PRBs every sample period and incrementing the corresponding bin having an by This measurement is updated Sum average SIR value from 7.0 to calculating the SIR for each dB of the less than 10.0 dB. in-use PUSCH PRBs every sample period and incrementing the corresponding bin having an by This measurement is updated Sum average SIR value from 10.0 to calculating the SIR for each ofdB the less than 13.0 dB. in-use PUSCH PRBs every sample period and incrementing the corresponding bin having an by This measurement is updated Sum average SIR value from 13.0 to calculating the SIR for each ofdB the less than 16.0 dB. in-use PUSCH PRBs every sample period and incrementing the corresponding bin having an by This measurement is updated Sum average SIR value from 16.0 to calculating the SIR for each ofdB the less than 19.0 dB. in-use PUSCH PRBs every sample period and incrementing the corresponding bin having an by This measurement is updated Sum average SIR value from 19.0 to calculating the SIR for each ofdB the less than 22.0 dB. in-use PUSCH PRBs every sample period and incrementing the corresponding bin having an by This measurement is updated Sum average SIR value from 22.0 to calculating the SIR for each ofdB the less than 25.0 dB. in-use PUSCH PRBs every sample period and incrementing the corresponding binanhaving an The reception of S1AP:Initial Sum average SIR value equal or greater Context Setup Request or an than 25.0 dB. SETUP REQUEST S1AP:E-RAB message sent by MME to the eNB. The transmission of an S1AP:Initial Sum Context Setup Response or an S1AP:E-RAB SETUP RESPONSE message sent by the eNB to MME.
Reception of an S1AP:E-RAB RELEASE COMMAND or an S1AP:UE CONTEXT RELEASE COMMAND message sent by MME to the eNB.ofThe is not Reception an counter S1AP:E-RAB incremented in case that RELEASE COMMAND orthe an S1AP:UE S1AP:UE CONTEXT CONTEXT RELEASE RELEASE COMMAND receivedsent as aby MME COMMAND is message response to a previously sent to the eNB.ofThe is not Reception an counter S1AP:E-RAB S1AP:UE CONTEXT RELEASE incremented in case that the RELEASE COMMAND or an REQUEST. S1AP:UE S1AP:UE CONTEXT CONTEXT RELEASE RELEASE COMMAND receivedsent as aby MME COMMAND is message response to a previously sent to the eNB.ofThe is not Reception an counter S1AP:E-RAB S1AP:UE CONTEXT RELEASE incremented in case that the RELEASE COMMAND or an REQUEST. S1AP:UE S1AP:UE CONTEXT CONTEXT RELEASE RELEASE COMMAND receivedsent as aby MME COMMAND is message response to a previously sent to thecounter eNB. The counter when is not the This is updated S1AP:UE CONTEXT RELEASE incremented in case that the S1AP:E-RAB RELEASE REQUEST. S1AP:UE CONTEXT INDICATION messageRELEASE (eNB -> COMMAND received MME; 3GPPisTS 36.413)as oraS1AP: response to a previously sent UE RELEASE ThisCONTEXT measurement is RELEASE obtained by S1AP:UE CONTEXT REQUEST message -> MME; sampling the number (eNB of REQUEST. 3GPP TS 36.413) is transmitted simultaneous E-RABs with QCI 1 with release cause characteristics at a "Transport pre-defined The counter is updated if the Resource Unavailable". interval (1 sec) and then addingany release cause does not match This measurement is obtained byup counter isvalues also updated with these sample over the other failure counter. sampling theofnumber of E-RABs. the number released measurement period. simultaneous E-RABs with QCI 2 characteristics at a pre-defined interval (1 sec) and is then addingbyup This measurement obtained these sample values over sampling the number of the measurement period. with QCI 3 simultaneous E-RABs
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
characteristics at a pre-defined interval (1 sec) and is then addingbyup Sum This measurement obtained these sample values over sampling the number of the measurement period. with QCI 4 simultaneous E-RABs characteristics at a pre-defined interval (1 sec) and is then addingbyup Sum This measurement obtained these sample values over sampling the number of the measurement period. with QCI 5 simultaneous E-RABs characteristics at a pre-defined interval (1 sec) and is then addingbyup Sum This measurement obtained these sample values over sampling the number of the measurement period. with QCI 6 simultaneous E-RABs characteristics at a pre-defined interval (1 sec) and is then addingbyup Sum This measurement obtained these sample values over sampling the number of the measurement period. with QCI 7 simultaneous E-RABs characteristics at a pre-defined interval (1 sec) and then adding up these sample values over the measurement period.
This measurement is obtained by Sum sampling the number of simultaneous E-RABs with QCI 8 characteristics at a pre-defined interval (1 sec) and is then addingbyup Sum This measurement obtained these sample values over sampling the number of the measurement period. with QCI 9 simultaneous E-RABs characteristics at a pre-defined interval (1 sec) and then adding up Sum This counter is incremented when these sample values over the the check for the respective measurement period. sampling counters for the number of simultaneous E-RABs (SUM_SIMUL_ERAB_QCI_x) Reception of an S1AP:E-RAB is Sum done. MODIFY REQUEST message sent by MME to the eNB. The counter is incremented by the number of QCI1 bearers contained in the "E-RAB to Sum Reception of an S1AP:E-RAB be Modified List" IE TS sent MODIFY REQUEST(3GPP message 36.413). by MME to the eNB. The counter is incremented by the number of QCI2 bearers contained in the "E-RAB to Sum Reception of an S1AP:E-RAB be Modified List" IE TS sent MODIFY REQUEST(3GPP message 36.413). by MME to the eNB. The counter is incremented by the number of QCI3 bearers contained in the "E-RAB to Sum Reception of an S1AP:E-RAB be Modified List" IE TS sent MODIFY REQUEST(3GPP message 36.413). by MME to the eNB. The counter is incremented by the number of QCI4 bearers contained in the "E-RAB to Sum Reception of an S1AP:E-RAB be Modified List" IE TS sent MODIFY REQUEST(3GPP message 36.413). by MME to the eNB. The counter is incremented by the number of QCI5 bearers contained in the "E-RAB to Sum Reception of an S1AP:E-RAB be Modified List" IE TS sent MODIFY REQUEST(3GPP message 36.413). by MME to the eNB. The counter is incremented by the number of QCI6 bearers contained in the "E-RAB to Sum Reception of an S1AP:E-RAB be Modified List" IE TS sent MODIFY REQUEST(3GPP message 36.413). by MME to the eNB. The counter is incremented by the number of QCI7 bearers contained in the "E-RAB to Sum Reception of an S1AP:E-RAB be Modified List" IE TS sent MODIFY REQUEST(3GPP message 36.413). by MME to the eNB. The counter is incremented by the number of QCI8 bearers contained in the "E-RAB to Sum Reception of an S1AP:E-RAB be Modified List" IE TS sent MODIFY REQUEST(3GPP message 36.413). by MME to the eNB. The counter is incremented by the number of QCI9 bearers contained in the "E-RAB to be Modified List" IE (3GPP TS 36.413).
Transmission of an S1AP:E-RAB Sum MODIFY RESPONSE message sent by eNB to the MME. The counter is incremented by the number of QCI1 bearers contained Sum Transmission of an S1AP:E-RAB in the "E-RAB Modify List". MODIFY RESPONSE message sent by eNB to the MME. The counter is incremented by the number of QCI2 bearers contained Sum Transmission of an S1AP:E-RAB in the "E-RAB Modify List". MODIFY RESPONSE message sent by eNB to the MME. The counter is incremented by the number of QCI3 bearers contained Sum Transmission of an S1AP:E-RAB in the "E-RAB Modify List". MODIFY RESPONSE message sent by eNB to the MME. The counter is incremented by the number of QCI4 bearers contained Sum Transmission of an S1AP:E-RAB in the "E-RAB Modify List". MODIFY RESPONSE message sent by eNB to the MME. The counter is incremented by the number of QCI5 bearers contained Sum Transmission of an S1AP:E-RAB in the "E-RAB Modify List". MODIFY RESPONSE message sent by eNB to the MME. The counter is incremented by the number of QCI6 bearers contained Sum Transmission of an S1AP:E-RAB in the "E-RAB Modify List". MODIFY RESPONSE message sent by eNB to the MME. The counter is incremented by the number of QCI7 bearers contained Sum Transmission of an S1AP:E-RAB in the "E-RAB Modify List". MODIFY RESPONSE message sent by eNB to the MME. The counter is incremented by the number of QCI8 bearers contained Sum Transmission of an S1AP:E-RAB in the "E-RAB Modify List". MODIFY RESPONSE message sent by eNB to the MME. The counter is incremented by the number of QCI9 bearers contained Sum Transmission of an S1AP:E-RAB in the "E-RAB Modify List". MODIFY RESPONSE message sent by eNB to the MME. The counter is incremented by the number of bearers in the Sum Transmission of an contained S1AP:E-RAB "E-RAB Failed To Modify List" with MODIFY RESPONSE message the RNL cause "Failure in the Radio sent by eNB to the MME. The Interface (3GPP counter isProcedure" incremented by theTS 36.413). number of bearers in the Sum Transmission of an contained S1AP:E-RAB "E-RAB Failed To Modify List" with MODIFY RESPONSE message the RNL cause "Not supported sent by eNB to the MME. The QCI Value" TS 36.413). counter(3GPP is incremented by the number of bearers contained in the "E-RAB Failed To Modify List" with the RNL cause "Unspecified" (3GPP TS 36.413).
The reception of an S1AP:E-RAB Sum Release Command or an S1AP:UE Context Release Command message sent by the MME to eNB. The reception of an S1AP:E-RAB Sum Release Command or an S1AP:UE Context Release Command message sent by the MME to eNB. The reception of an S1AP:E-RAB Sum Release Command or an S1AP:UE Context Release Command message sent by the MME to eNB. The reception of an S1AP:E-RAB Sum Release Command or an S1AP:UE Context Release Command message sent by the MME to eNB.The counter is updated the Sum This counter is updated whenif the release request detected does not S1AP:E-RAB RELEASE match any other failure counter. INDICATION message (eNB -> MME; 3GPP TS 36.413) or S1AP: UE RELEASE TheCONTEXT counters must be updated in Sum REQUEST message (eNB -> MME; case that user data are buffered 3GPP TSfor36.413) is transmitted (UL/DL) an E-RAB with QCI1 with release cause characteristics and "Transport the "S1AP UE Resource Unavailable". Context Release Request" The counters be updated in Sum This counter ismust also updated with message is sent by eNB to the case that user data are buffered the number of releasedcause QCI1"RNL EMME with (UL/DL) forthe anrelease E-RAB with QCI2 RABs. Radio Connection lost". characteristics andwith the UE "S1AP UE Context Release Request" The counters must be updated in Sum message sent by are eNBbuffered to the case that is user data MME with "RNL (UL/DL) forthe anrelease E-RAB cause with QCI3 Radio Connection with UE lost". characteristics and the "S1AP UE Context Release Request" The counters must be updated in message is sent by eNBbuffered to the case that user data are MME with the release cause "RNL (UL/DL) for an E-RAB with QCI4 Radio Connection with UE lost". characteristics and the "S1AP UE
Sum
Context Release Request" The counters must be updated in Sum message is sent by eNBbuffered to the case that user data are MME with "RNL (UL/DL) forthe anrelease E-RAB cause with nonRadio Connection with UE lost". GBR characteristics (QCI5...9) and the "S1AP Context Release the Sum When userUE data are transferred Request" message is sent in-session activity time is by eNB to the MME during with thethe release aggregated E-RABcause "RNL Radio Connection lifetime. At the end of thewith UE lost". measurement period and when EWhen user data are transferred the Sum RAB is released the sum in-session activity time is counter for all E-RABs with the QCI1 aggregated during E-RAB characteristics shall updated. lifetime. At the end ofbethe measurement period and when ERAB is released the sum counter for all E-RABs with QCI2 characteristics shall be updated.
When user data are transferred the Sum in-session activity time is aggregated during the E-RAB lifetime. At the end of the measurement period and when EWhen user data are transferred the Sum RAB is released the sum in-session activity time is counter for all E-RABs with the QCI3 aggregated during E-RAB characteristics shall updated. lifetime. At the end ofbethe measurement period and when EWhen user data are transferred the Sum RAB is released the sum in-session activity time is counter for all E-RABs with the QCI4 aggregated during E-RAB characteristics shall updated. lifetime. At the end ofbethe measurement period and when E- Sum The reception of an S1AP:INITIAL RAB is released the sum counter CONTEXT SETUP message or of for all E-RABs with non-GBR an S1AP:E-RAB SETUP characteristics (QCI5..9) shallthat be REQUEST message in case updated. these messages contain an ARP The transmission of the S1AP:ESum (Allocation and Retention RAB SETUP RESPONSEPriority) or priority level value that is used to S1AP:INITIAL CONTEXT indicate a high priority (3GPP RESPONSE message call in case their TS 36.413). "E-RAB Setup List" IEs contain Reception of an S1AP:INITIAL E- Sum RAB IDs of SETUP bearersREQUEST for high priority CONTEXT calls. message sent by the MME to the eNB. The counter is updated with the numberofofan QCI1 bearers Reception S1AP:INITIAL contained in the "E-RAB to Be CONTEXT SETUP REQUEST Setup List" IE. message sent by the MME to the
Sum
eNB. The counter is updated with the numberofofan QCI2 bearers Reception S1AP:INITIAL contained in the "E-RAB to Be CONTEXT SETUP REQUEST Setup List" IE. message sent by the MME to the
Sum
eNB. The counter is updated with the numberofofan QCI3 bearers Reception S1AP:INITIAL contained in the "E-RAB to Be CONTEXT SETUP REQUEST Setup List" IE. message sent by the MME to the
Sum
eNB. The counter is updated with the numberofofan QCI4 bearers Reception S1AP:INITIAL contained in the "E-RAB to Be CONTEXT SETUP REQUEST Setup List" IE. message sent by the MME to the
Sum
eNB. The counter is updated with the numberofofan QCI5 bearers Reception S1AP:INITIAL contained in the "E-RAB to Be CONTEXT SETUP REQUEST Setup List" IE. message sent by the MME to the
Sum
eNB. The counter is updated with the numberofofan QCI6 bearers Reception S1AP:INITIAL contained in the "E-RAB to Be CONTEXT SETUP REQUEST Setup List" IE. message sent by the MME to the
Sum
eNB. The counter is updated with the number of QCI7 bearers contained in the "E-RAB to Be Setup List" IE.
Reception of an S1AP:INITIAL CONTEXT SETUP REQUEST message sent by the MME to the eNB. The counter is updated with the numberofofan QCI8 bearers Reception S1AP:INITIAL contained in the "E-RAB to Be CONTEXT SETUP REQUEST Setup List" IE. message sent by the MME to the eNB. The counter is updated with the numberofofan QCI9 bearers Reception S1AP:E-RAB contained in the "E-RAB to Besent SETUP REQUEST message Setup List" IE. by the MME to the eNB. The
Sum
Sum
Sum
counter is updated with the number of QCI1 bearers contained in the Reception of an S1AP:E-RAB Sum "E-RAB to Be Setup List" IE. sent SETUP REQUEST message by the MME to the eNB. The counter is updated with the number of QCI2 bearers contained in the Reception of an S1AP:E-RAB Sum "E-RAB to Be Setup List" IE. sent SETUP REQUEST message by the MME to the eNB. The counter is updated with the number of QCI3 bearers contained in the Reception of an S1AP:E-RAB Sum "E-RAB to Be Setup List" IE. sent SETUP REQUEST message by the MME to the eNB. The counter is updated with the number of QCI4 bearers contained in the Reception of an S1AP:E-RAB Sum "E-RAB to Be Setup List" IE. sent SETUP REQUEST message by the MME to the eNB. The counter is updated with the number of QCI5 bearers contained in the Reception of an S1AP:E-RAB Sum "E-RAB to Be Setup List" IE. sent SETUP REQUEST message by the MME to the eNB. The counter is updated with the number of QCI6 bearers contained in the Reception of an S1AP:E-RAB Sum "E-RAB to Be Setup List" IE. sent SETUP REQUEST message by the MME to the eNB. The counter is updated with the number of QCI7 bearers contained in the Reception of an S1AP:E-RAB Sum "E-RAB to Be Setup List" IE. sent SETUP REQUEST message by the MME to the eNB. The counter is updated with the number of QCI8 bearers contained in the Reception of an S1AP:E-RAB Sum "E-RAB to Be Setup List" IE. sent SETUP REQUEST message by the MME to the eNB. The counter is updated with the number of QCI9 bearers contained in the Transmission of an S1AP:INITIAL Sum "E-RAB to Be Setup List" IE. CONTEXT SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI1 bearers contained in the "E-RAB Setup List" IE.
Transmission of an S1AP:INITIAL Sum CONTEXT SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI2 bearers contained Sum Transmission of an S1AP:INITIAL in the "E-RAB Setup List" IE. CONTEXT SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI3 bearers contained Sum Transmission of an S1AP:INITIAL in the "E-RAB Setup List" IE. CONTEXT SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI4 bearers contained Sum Transmission of an S1AP:INITIAL in the "E-RAB Setup List" IE. CONTEXT SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI5 bearers contained Sum Transmission of an S1AP:INITIAL in the "E-RAB Setup List" IE. CONTEXT SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI6 bearers contained Sum Transmission of an S1AP:INITIAL in the "E-RAB Setup List" IE. CONTEXT SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI7 bearers contained Sum Transmission of an S1AP:INITIAL in the "E-RAB Setup List" IE. CONTEXT SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI8 bearers contained Sum Transmission of an S1AP:INITIAL in the "E-RAB Setup List" IE. CONTEXT SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI9 bearers contained Sum Transmission of an S1AP:E-RAB in the "E-RAB Setup List" IE. sent SETUP RESPONSE message by eNB to the MME. The counter is updated with the number of QCI1 bearers contained the "E-RAB Transmission of aninS1AP:E-RAB Sum Setup List" IE. SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI2 bearers contained the "E-RAB Transmission of aninS1AP:E-RAB Sum Setup List" IE. SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI3 bearers contained the "E-RAB Transmission of aninS1AP:E-RAB Sum Setup List" IE. SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI4 bearers contained in the "E-RAB Setup List" IE.
Transmission of an S1AP:E-RAB Sum SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI5 bearers contained the "E-RAB Transmission of aninS1AP:E-RAB Sum Setup List" IE. SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI6 bearers contained the "E-RAB Transmission of aninS1AP:E-RAB Sum Setup List" IE. SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI7 bearers contained the "E-RAB Transmission of aninS1AP:E-RAB Sum Setup List" IE. SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI8 bearers contained the "E-RAB Transmission of aninS1AP:E-RAB Sum Setup List" IE. SETUP RESPONSE message sent by eNB to the MME. The counter is updated with the number of QCI9 bearers contained inis the "E-RAB This measurement obtained by Max Setup List" IE. sampling the number of simultaneous E-RABs with QCI1 characteristics at a pre-defined interval (1 sec). Theiscounter is by This measurement obtained updated if the current number of sampling the number of simultaneous E-RABs is higher simultaneous E-RABs with QCI2 than the storedat maximum. characteristics a pre-defined
Max
interval (1 sec). Theiscounter is by This measurement obtained updated if the current number of sampling the number of simultaneous E-RABs is higher simultaneous E-RABs with QCI3 than the storedat maximum. characteristics a pre-defined
Max
interval (1 sec). Theiscounter is by This measurement obtained updated if the current number of sampling the number of simultaneous E-RABs is higher simultaneous E-RABs with QCI4 than the storedat maximum. characteristics a pre-defined
Max
interval (1 sec). Theiscounter is by This measurement obtained updated if the current number of sampling the number of simultaneous E-RABs is higher simultaneous E-RABs with QCI5 than the storedat maximum. characteristics a pre-defined
Max
interval (1 sec). Theiscounter is by This measurement obtained updated if the current number of sampling the number of simultaneous E-RABs is higher simultaneous E-RABs with QCI6 than the storedat maximum. characteristics a pre-defined
Max
interval (1 sec). Theiscounter is by This measurement obtained updated if the current number of sampling the number of simultaneous E-RABs is higher simultaneous E-RABs with QCI7 than the storedat maximum. characteristics a pre-defined
Max
interval (1 sec). The counter is updated if the current number of simultaneous E-RABs is higher than the stored maximum.
This measurement is obtained by sampling the number of simultaneous E-RABs with QCI8 characteristics at a pre-defined interval (1 sec). Theiscounter is by This measurement obtained updated if the current number of sampling the number of simultaneous E-RABs is higher simultaneous E-RABs with QCI9 than the storedat maximum. characteristics a pre-defined
Max
interval (1 sec). The counter is The counter is updated by the updated if the current number ofat arithmetic mean of the samples simultaneous E-RABs is higher the pre-defined interval (1 sec). than the stored maximum.
Average
The counter is updated by the arithmetic mean of the samples at the pre-defined interval (1 sec).
Average
The counter is updated by the arithmetic mean of the samples at the pre-defined interval (1 sec).
Average
The counter is updated by the arithmetic mean of the samples at the pre-defined interval (1 sec).
Average
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Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
Max
#N/A
Sum
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Sum
#N/A
Sum
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Sum
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Sum
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Sum
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Sum
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Sum
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Sum
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Sum
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Sum
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Sum
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Sum
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Sum
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Sum
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Sum
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Sum
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Sum
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Sum
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Sum
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Sum
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Sum
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Sum
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Sum
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Sum
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Sum
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Sum
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Sum
Transmission of an RRC Sum CONNECTION RECONFIGURATION message sent by eNB to the UE during the Data RadioofBearer (DRB) setup Reception an RRC Sum procedure. For incoming Handover CONNECTION the counter is pegged in case of a RECONFIGURATION COMPLETE successful handover preparation message sent from the UE to the procedure example by eNB duringindicated the Datafor Radio Bearer the transmission of the (DRB) setup procedure. HANDOVER REQUEST ACKNOWLEDGE message. If the RRC Reconfiguration procedure is executed for more If theone DRBDRB setup than theprocedure counter isis executed for more than one DRB pegged for each successfully set up the counter is pegged for each DRB DRB. attempted to set up. RRC CONNECTION RRC CONNECTION
Expiration of RRC Guard timer Sum used for the supervision of the RRC Connection Reconfiguration procedure for Data Radio Bearer (DRB) setup. of an RRC Transmission Sum CONNECTION RELEASE message For Handover the counter due incoming to reception of S1AP:UE is pegged in case of a not CONTEXT RELEASE COMMAND. successfully completed Handover This counter is updated on theeNB Sum Execution phase at the target transmission of an RRC (for example expiration of CONNECTION SETUP message TS1Relocexec/Tx2Relocexec). sent by eNB to the UE, containing SRB1-specific If thecounter RRC Reconfiguration This is configurations. updated on the Sum Note: If a UE (erroneously) sends procedure is executed reception of an RRC for more RRC CONNECTION REQUEST than one DRB the counter is CONNECTION SETUP message several times in a by rowUE pegged for each DRB sent with COMPLETE message without waiting the proper time for unsuccessful setup. to eNB on SRB1/DCCH (carrying This counter isfrom updated upon the Sum the response eNB the initial NAS message). expiration of the RRC Guard Timer (RRCConnectionSetup), only the RRC Guard Timer expirations of used for the supervision of RRC last of RRC procedures RRCmessage Reconfiguration Connection Setup procedure the CONNECTION SETUP beat for other purposes than will DRB setup eNB. The RRC Guard Timer is counted. (that is DRB release, DRB This counter is updated at the Sum stopped whenof the configuration changes, transmission an RRC RRC CONNECTION transmission of SETUP security CONNECTION COMPLETE message is received information) will not bemessage counted. RECONFIGURATION from the UE. sent eNB to the UE, containing This by counter is updated at the Sum SRB2-specific configurations. reception of an RRC CONNECTION RECONFIGURATION COMPLETE message sent by UEexample to eNB upon on Internal trigger - for Sum SRB1/DCCH. expiration of RRC Guard timer used for the supervision of the RRC Reconfiguration procedure. This measurement is obtained by The expirationthe during accumulating timeRRC intervals for Reconfiguration procedure used every successfully established E-for other purposes than bearer setup RAB between the reception of an (that is DRB release, DRB or E-RAB SETUP REQUEST This measurement is obtained by configuration changes, INITIAL CONTEXT SETUP monitoring theoftime intervals for transmission security information REQUEST message and the Eevery established in casesuccessfully of HO) will not be counted. transmission of the corresponding RAB between the reception of an E-RAB SETUP RESPONSE E-RAB REQUEST oror Also theSETUP expiration bearer The transmission ofduring an RRC INITIAL CONTEXT SETUP INITIAL CONTEXT SETUP setup due toRe-establishment incoming HO willeNB not Connection RESPONSE messageand by the the REQUEST message be counted. Reject message, sent by the eNB over the granularity period. The end transmission of the corresponding to UE.of this time value will then beor E-RAB SETUP RESPONSE divided by the number of record of UpdatedCONTEXT for each paging INITIAL SETUP successfully established an RRC paging message RESPONSE message byE-RABs the eNBin the granularity period to give the (excluding pure SysInfo message) over the granularity period. The arithmetic mean. The accumulator from S1 interface. high tide mark of this time will be is reinitialized at the beginning of is stored in a gauge and the gauge each granularity period. reinitialized at the beginning of Note: each granularity period. The Note:measurement is initialized with "0" the beginningisofinitialized each Theatmeasurement with granularity period. A measurement "0" at the beginning of each result "0" atperiod. the endA of the granularity measurement granularity period (for example, 15 result "0" at the end of the minutes) means that no E-RAB granularity period (for example, 15 setup occurred theno cellE-RAB during the minutes) meansinthat whole granularity period and that
Average
Max
Sum
Sum
This counter is updated when the Sum maximum number of paging records is reached for the next paging occasion that corresponds to the paging request Transmission of an RRC: Paging Sum => UU (RRC upto toUE. 16 paging message sentallows by eNB records per paging occasion) This counter is updated following Sum the reception of an RRC: RRCConnectionReestablishmentRe quest message from the UE This counter is updated following Sum the reception of an RRC: RRCConnectionReestablishmentCo mplete message from the UE Updated when an Sum RRCConnectionReestablishmentRe quest message is received with cause "handoverFailure". Updated when an Sum RRCConnectionReestablishmentCo mplete message is received in case that the preceeding RRCConnectionReestablishmentRe Updated when an Sum quest indicates the cause RRCConnectionReestablishmentRe "handoverFailure". quest message is received with cause "otherFailure". Updated when an Sum RRCConnectionReestablishmentCo mplete message is received in case that the preceeding RRCConnectionReestablishmentRe Transmission of Sum quest indicates the cause RRCConnectionReconfiguration "otherFailure". including 'reportCGI' measurement configuration to the UE. -Reception (3GPP TSof36.331) RRC: Measurement
Sum
Report message including a 'reportCGI' measurement result. - (3GPP TS 36.331) Transmission of RRCConnectionReconfiguration message including a "reportCGI" measurement configuration to the UE for a UTRAN according to Reception of RRCcell Measurement 3GPP TS 36.331. Report message including a "reportCGI" measurement result for a UTRAN cell according to 3GPP TS 36.331. The "reportCGI" measurement result contains all necessary IEs needed for a unique cell identification, which are: the CGI, the RNC-Id, the LAC and the RAC.
Sum
Sum
Reception of RRC Measurement Report message including a "reportCGI" measurement result for a UTRAN cell according to 3GPP TS "reportCGI" This36.331. counterThe is updated following measurement result does not the transmission of an RRC contain the necessary IEs needed Connection Release message for a unique cell identification like (source eNB -> UE) in case that the LAC or RAC. this The message counter iscontains updatedthe when a RedirectedCarrierInfo parameter for paging campaign for the broadcast a Home eNB (3GPP TS 36.331). of ETWS/CMAS warning messages is started. A paging campaign is started once after aisnew broadcast This measurement obtained by or the replacement of an existing accumulating the time intervals for broadcast message is received via every successful RRC connection an S1AP:WRITE-REPLACE establishment between the WARNING message. reception ofREQUEST an This measurement is obtainedisby Note that a paging campaign not RRCConnectionRequest andfor the monitoring the time intervals started, for example when the corresponding each successful connection Warning Area ListRRC IE does not apply RRCConnectionSetupComplete establishment between the for the cell or when the eNB message by the eNB over the reception of S1AP:WRITEan receives an The reception of anThe RRC granularity period. end value of RRCConnectionRequest and the REPLACE WARNING REQUEST Measurement Report message sent this time will then be divided by the corresponding message Message by the UE to eNB and RRC ofIdentifier the RRMIE number ofwith successful RRCConnectionSetupComplete and Serial Number IE which decision not to execute a handover. connections observed in the message bythe the eNB over the correspond to one of the warning Updated to source cell. granularity period to give thetide The reception of an RRC granularity period. The high messages already being broadcast arithmetic mean. Thebe accumulator Measurement Report message mark this time will stored insent a in the of eNB. is reinitialized at the beginning of by the UE eNB and isofreinitialized an RRM gauge andtothe gauge each period. decision to execute a handover. at thegranularity beginning of each granularity Note: Updated to the source cell. period. An internal eNB trigger. The eNB The measurement is initialized with Note: MM receives a list with the target "0" at the beginning of each The measurement isdecides initialized cells from RRM and onwith an granularity period. A of measurement "0" at the beginning each to Intra-eNB Handover. Updated result "0" at the end of the granularity A measurement the source period. cell. granularity (forofexample, An internal eNB trigger. The eNB15 result "0" atperiod the end the minutes) means that no RRC MM receives a list with the target15 granularity period (for example, connection setup occurred in or the cells from the RRM. The MM minutes) means that no RRC cell during the whole granularity RRM AC decides not to execute connection setup occurred in thean period andHandover. thatwhole the measurement Intra-eNB Updated to cellinternal during the granularity An eNB trigger. The eNB does not contain a valid the source cell. period and that the measurement MM receives aresult. list with the target measurement does not contain a valid cells from RRM. The MM or RRM measurement AC decides notresult. to execute an IntraeNB Handover. The counter The transmission of an RRC is updated if the failure detected Connection Reconfiguration does not matchsent any by other message thefailure eNB tocounter. UE, Updated to the source cell. which indicates a Handover
Sum
Command to the UE.internal Updated The reception of an UEto the source cell. Context Release Request for the
Sum
handover on the source side. Updated to the source cell.
Sum
Sum
Average
Max
Sum
Sum
Sum
Sum
Sum
Sum
The counter is updated to the source cell when timer THOoverall expires.
Sum
The counter is updated when CQI value 0 is received from the UE.
Sum
The counter is updated when CQI value 1 is received from the UE.
Sum
The counter is updated when CQI value 2 is received from the UE.
Sum
The counter is updated when CQI value 3 is received from the UE.
Sum
The counter is updated when CQI value 4 is received from the UE.
Sum
The counter is updated when CQI value 5 is received from the UE.
Sum
The counter is updated when CQI value 6 is received from the UE.
Sum
The counter is updated when CQI value 7 is received from the UE.
Sum
The counter is updated when CQI value 8 is received from the UE.
Sum
The counter is updated when CQI value 9 is received from the UE.
Sum
The counter is updated when CQI value 10 is received from the UE.
Sum
The counter is updated when CQI value 11 is received from the UE.
Sum
The counter is updated when CQI value 12 is received from the UE.
Sum
The counter is updated when CQI value 13 is received from the UE.
Sum
The counter is updated when CQI value 14 is received from the UE.
Sum
The counter is updated when CQI value 15 is received from the UE.
Sum
The counter is updated when the minimum assumed CQI in LA process is obtained from CQI reports and corrected by Outer Loop QualityisControl. The counter updated when the
Min
maximum assumed CQI in LA process is obtained from CQI reports and corrected by Outer Loop QualityisControl. The counter updated when the
Max
Average
mean assumed CQI in LA process is obtained from CQI reports and corrected by Outer Loop Quality Control. The counter is updated when
Sum diversity MIMO mode is selected for the transmission. It counts the number of MIMO Open Loop Actual Diversity mode usage for both new Sum The counter is updated when transmissions and retransmissions. spatial multiplexing MIMO mode is selected for the transmission. It counts the number of MIMO Open Loop Actual Spatial Multiplexing The counter is updated when MIMO Sum mode usage for both new Closed Loop Single Codeword transmissions andfor retransmissions. mode is selected the transmission. It counts the number of MIMO Closed Loop Actual The counter is updated when Single MIMO Sum Codeword mode usage for both Closed Loop Double Codeword new modetransmissions is selected forand the retransmissions. transmission. It counts the number of MIMO Closed Loop Actual Double Codeword mode usage for both new transmissions and retransmissions.
This counter is updated when MIMO mode control is changed between the diversity mode and the spatial multiplexing mode transmission. counts selected The counter isItupdated when MIMO transmission mode changes only mode control is changed between on the basis of the new CQI / the single codeword mode andRIthe value according doubledecisions codeword mode to MIMO algorithm. However, thisselected counter transmission. counts The counter isItupdated when does not these mode changes transmission mode changes only PDCCH is allocated for PDSCH count ifbasis transmission mode on the of the new CQI / RI transmission. changes in caseaccording of retransmissions value decisions to MIMO or transmissions not needing MIMO algorithm. However, this counter due to small amount of data. The counter is updated when DTX does not count these mode is receivedif for PDSCH mode changes transmission transmission. changes in case of retransmissions or transmissions not needing MIMO due to small is amount of data. The counter updated in each TTI by the average amount of PDCCH power as specified in the counter description.
Sum
Sum
Sum
Sum
Average
This measurement calculates the Average estimated transmitted power (in milliwatts) every sample period and averages the values at the end of the interval. Thiscollection measurement calculates the Max estimated transmitted power (in milliwatts) every sample period and determines the maximum value at the end of the collection interval. #N/A Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
Updated per TTI.
Sum
Updated per TTI.
Sum
Updated per TTI.
Sum
Updated per TTI.
Sum
Updated per TTI.
Sum
Updated per TTI.
Sum
Updated per TTI.
Sum
Updated per TTI.
Sum
Updated per TTI.
Sum
Updated per TTI.
Sum
Updated per TTI.
Min
Updated per TTI.
Max
Updated per TTI.
Average
Updated per TTI.
Sum
Updated per TTI.
Sum
Updated per TTI.
Sum
Updated per TTI.
Sum
Updated per TTI.
Sum
Updated per TTI.
Sum
Updated per TTI.
Sum
Updated per TTI.
Sum
Updated per TTI.
Sum
Updated per TTI.
Sum
Updated when the minimum value Min of an allocated DL PRB is detected.
Updated when the maximum value Max of an allocated DL PRB is detected.
Updated with the average rate value of an allocated DL PRB over the measurement period.
Average
In PDCCH scheduling over the measurement period.
Sum
When Aggregation Group1 is used for PDCCH scheduling.
Sum
When Aggregation Group2 is used for PDCCH scheduling.
Sum
When Aggregation Group4 is used for PDCCH scheduling.
Sum
When Aggregation Group8 is used for PDCCH scheduling.
Sum
When Aggregation Group1 is blocked for PDCCH scheduling. A DCI with required AGG1, which cannot be scheduled at all or cannot be scheduled with required When Aggregation Group2 is power for finally allocated AGG, is blocked for PDCCH scheduling. A considered as blocked. DCI with required AGG2, which
Sum
Sum
cannot be scheduled at all or cannot be scheduled with required When Aggregation Group4 is power for finally allocated AGG, is blocked for PDCCH scheduling. A considered as blocked. DCI with required AGG4, which
Sum
cannot be scheduled at all or cannot be scheduled with required This counter is updated when power for finally allocated AGG, is Aggregation Group8 is blocked for considered as blocked. PDCCH scheduling. A DCI with
Sum
required AGG8, which cannot be scheduled at is allupdated or cannot This counter in be each Sum scheduled with required power for scheduling for the measurement finally period.allocated AGG, is considered as blocked. This counter is updated in each scheduling for the measurement period.
Sum
This counter is updated in each scheduling for the measurement period.
Sum
This counter is updated in each scheduling for the measurement period.
Sum
This counter is updated in each scheduling for the measurement period.
Sum
The mean value over the Average measurement period is updated to this counter. The mean value is the arithmetical average of all TTI measured in is a granularity period. This counter updated when the Max maximum value of the served UEs in UL per TTI has been reached. The mean value over the Average measurement period is updated to this counter. The mean value is the arithmetical average of all TTI measured in is a granularity period. This counter updated when the Max maximum value of the served UEs Note: TheTTI number of TTIs to in DL per has been reached. calculate the mean value includes all DL and special subframes (TDD This is updated with only).counter It also includes TTIs in every which Sum subframe which only 1 OFDM no PDSCHforcan be scheduled, for symbol is the allocated the PDCCH. example, specialtosubframes in This counter is notofupdated for and the configuration normal CP subframes foriswhich the with number special subframe configuration 5 of Sum This counter updated every allocated PDCCH OFDM symbols (TDD only), the subframes with subframe for which 2 OFDM is different 1 (for example PRS, MBMS subframes, ABS 2). symbols arefrom allocated to the subframes, and so on. PDCCH. This counter is not updated for subframes which This counter is updatedfor with every Sum the number of allocated PDCCH subframe for which 3 OFDM OFDM is different symbolssymbols are allocated to thefrom 2 (for example 3). PDCCH. This counter is not updated for subframes which This counter is updatedfor after each the number of allocated PDCCH sampling interval with the OFDM symbols is different from 3 arithmetical average of samples (for example 2). each representing the number of
Average
UEs in TTI Bundling mode ateach that The counter is incremented Sum moment. time a UE is entitled a grant to send a "TTI Bundle".
The counter is incremented when the UE is switched back from TTI Bundling mode earlier than t1 seconds after switching to TTI Bundling. Termination by leaving The counter is incremented when the cell (HO) is also counted. the UE is switched back from TTI
Sum
Sum
Bundling mode within this time span. Termination by leaving the cell is also counted. when The (HO) counter is incremented
Sum the UE is switched back from TTI Bundling later than t2 seconds after switching to TTI Bundling mode. Termination the cell (HO) Sum Transmissionbyofleaving an is also counted. RRC:RRCConnectionReconfigurati on message, which includes a "SCellToAddModList-r10" parameter. Reception of an
Sum RRC:RRCConnectionReconfigurati onComplete message related to a preceding RRC:RRCConnectionReconfigurati Every 1 second the eNB checks Sum on message, which a whether the cell is inincluded the active "SCellToAddModList-r10" Load Balancing state; the counter is parameter andresult addressed the is updated if the of thisto check same UE. that cell isis in the active Load a Sum The the counter updated whenever Balancing state (that is the UL TTI is assigned to CRG Load 1. Balancing algorithm tries to shift cell load to neighbor cells). The counter is updated whenever a Sum UL TTI is assigned to CRG 2.
The counter is updated whenever a Sum UL TTI is assigned to CRG 3.
The counter is updated whenever a Sum UL TTI is assigned to CRG 4.
The counter is updated whenever a Sum TTI could potentially be used for PUSCH data. (In case no data is present, there is no need to actually use TTI for data transfer.) The this counter is updated whenever a Sum DL TTI is assigned to CRG 1.
The counter is updated whenever a Sum DL TTI is assigned to CRG 2.
The counter is updated whenever a Sum DL TTI is assigned to CRG 3.
The counter is updated whenever a Sum DL TTI is assigned to CRG 4.
The counter is updated whenever a Sum TTI could potentially be used for PDSCH data. (In case no data is present, there is no need to actually use this TTI forthe data transfer.) Every second Cell DL Sum Composite Available Capacity (CAC) is measured by an eNB internal measurement. This counter is updated if the Every second themeasured Cell DL cell DL Sum CAC was zero (DL CAC = 0). Composite Available Capacity (CAC) is measured by an eNB internal measurement. This counter is updated if the Every second themeasured Cell DL cell DL Sum CAC was in the range 0 < DL CAC Composite Available Capacity <= 20. (CAC) is measured by an eNB internal measurement. This counter is updated if the Every second themeasured Cell DL cell DL Sum CAC was in the range 20 < DL CAC Composite Available Capacity <= 40. (CAC) is measured by an eNB internal measurement. This counter is updated if the Every second themeasured Cell DL cell DL Sum CAC was in the range 40 < DL CAC Composite Available Capacity <= 60. (CAC) is measured by an eNB internal measurement. This counter is updated if the Every second themeasured Cell DL cell DL Sum CAC was in the range 60 < DL CAC Composite Available Capacity <= 80. (CAC) is measured by an eNB internal measurement. This counter is updated theupdated measured cell DL The counterif is in every TTI Sum CAC was in the range 80 < DL is CAC when the interference shaping <= 100. applied. The counter is updated in every TTI Sum when the interference shaping is applied.
The counter is incremented when the preferred resources are changed.
Sum
Every second the Cell DL Available Sum Capacity (AC) for PDCCH is measured by an eNB internal measurement. This counter is updated if the the measured Every second Cell DLcell Available Sum PDCCH AC was zero (DL AC Capacity (AC) for PDCCH is = 0). measured by an eNB internal measurement. This counter is updated if the the measured Every second Cell DLcell Available Sum PDCCH AC was in the range Capacity (AC) for PDCCH is 0 < PDCCH AC <= 20. measured by an eNB internal measurement. This counter is updated if the the measured Every second Cell DLcell Available Sum PDCCH AC was in the range Capacity (AC) for PDCCH is 20 < PDCCH AC <= 40. measured by an eNB internal measurement. This counter is updated if the the measured Every second Cell DLcell Available Sum PDCCH AC was in the range Capacity (AC) for PDCCH is 40 < PDCCH AC <= 60. measured by an eNB internal measurement. This counter is updated if the the measured Every second Cell DLcell Available Sum PDCCH AC was in the range Capacity (AC) for PDCCH is 60 < PDCCH AC <= 80. measured by an eNB internal measurement. This counter is updated if the the measured Every second Cell DLcell Available Sum PDCCH AC was in the range 80is< Capacity (AC) for GBR bearers PDCCH AC <= 100. measured by an eNB internal measurement. This counter is updated if the the measured DL Every second Cell DLcell Available Sum GBR AC was zero (DL AC = 0). Capacity (AC) for GBR bearers is measured by an eNB internal measurement. This counter is updated if the the measured DL Every second Cell DLcell Available Sum GBR AC was in the range 0 < Capacity (AC) for GBR bearersDL is GBR AC <=by20. measured an eNB internal measurement. This counter is updated if the the measured DL Every second Cell DLcell Available Sum GBR AC was in the range 20 < DL Capacity (AC) for GBR bearers is GBR AC <=by40. measured an eNB internal measurement. This counter is updated if the the measured DL Every second Cell DLcell Available Sum GBR AC was in the range 40 < DL Capacity (AC) for GBR bearers is GBR AC <=by60. measured an eNB internal measurement. This counter is updated if the measured cell DL GBR AC was in the range 60 < DL GBR AC <= 80.
Every second the Cell DL Available Sum Capacity (AC) for GBR bearers is measured by an eNB internal measurement. This counter is updated if the the measured DL Every second Cell DLcell Available Sum GBR AC was in the range 80 < DL Capacity (AC) for non-GBR bearers GBR AC <= 100. is measured by an eNB internal measurement. This counter is updated if the the measured DL Every second Cell DLcell Available Sum non-GBR AC was zero (DL AC Capacity (AC) for GBR bearers=is0). measured by an eNB internal measurement. This counter is updated if the the measured DL Every second Cell DLcell Available Sum non-GBR AC was in the range Capacity (AC) for GBR bearers0is< DL non-GBR <= 20. measured by AC an eNB internal measurement. This counter is updated if the the measured DL Every second Cell DLcell Available Sum non-GBR AC was in the range 20 < Capacity (AC) for non-GBR bearers DL non-GBR by ACan <=eNB 40. internal is measured measurement. This counter is updated if the the measured DL Every second Cell DLcell Available Sum non-GBR AC was in the range 40 < Capacity (AC) for non-GBR bearers DL non-GBR by ACan <=eNB 60. internal is measured measurement. This counter is updated if the the measured DL Every second Cell DLcell Available Sum non-GBR AC was in the range 60 < Capacity (AC) for non-GBR bearers DL non-GBR by ACan <=eNB 80. internal is measured measurement. This counter is updated if theismeasured cell DL This counter updated every 500 Sum non-GBR AC was in the range 80 < ms when the muting pattern 1 is DL non-GBR AC <= 100. active. This counter is updated every 500 ms when the muting pattern 2 is active.
Sum
This counter is updated every 500 ms when the muting pattern 3 is active.
Sum
This counter is updated every 500 ms when the muting pattern 4 is active.
Sum
This counter is updated every 500 ms when the muting pattern 5 is active.
Sum
This counter is updated every 500 ms when the muting pattern 6 is active.
Sum
This counter is incremented per ABS sub-frame if there is no user plane traffic, that is, the PRB utilization of the CRE UE is 0 %.
Sum
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 0 % < x <= 10 %.
Sum
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 10 % < x <= 20 %.
Sum
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 20 %. < x <= 30 %.
Sum
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 30 % < x <= 40 %.
Sum
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 40 % < x <= 50 %.
Sum
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 50 % < x <= 60 %.
Sum
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 60 % < x <= 70 %.
Sum
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 70 % < x <= 80 %.
Sum
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 80 % < x <= 90 %.
Sum
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 90 % < x <= 100 %.
Sum
This counter is incremented per ABS sub-frame if there is no user tplane traffic, that is, the PRB utilization of the CRE UE is 0 %.
Sum
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 0 % < x <= 10 %.
Sum
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 10 % < x <= 20 %.
Sum
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 20 % < x <= 30 %.
Sum
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 30 % < x <= 40 %.
Sum
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 40 % < x <= 50 %.
Sum
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 50 % < x <= 60 %.
Sum
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 60 % < x <= 70 %.
Sum
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 70 % < x <= 80 %.
Sum
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 80 % < x <= 90 %.
Sum
This counter is incremented per ABS sub-frame if the PRB utilization of the CRE UE is in the range 90 % < x <= 100 %.
Sum
This measurement is determined by Average accumulating the number of uplink PRBs (i.e. the sum of complete PRBs and fractions of PRBs) used for DTCH traffic for SAEB QoS level 1 and the number of available uplink PRBs for DTCH traffic every sample period. At the end of the collection interval the accumulated used PRBs is divided by the accumulated available PRBs to obtain the measurement percentage value.
This measurement is determined by accumulating the number of uplink PRBs (i.e. the sum of complete PRBs and fractions of PRBs) used for traffic for is SAEB QoS by ThisDTCH measurement determined level 2 and the number of available accumulating the number of uplink uplink PRBs DTCH traffic every PRBs (i.e. theforsum of complete sample period. At the end of the PRBs and fractions of PRBs) used collection interval the accumulated for DTCH traffic for SAEB QoS This measurement is determined by used is divided byofthe level 3PRBs and the number available accumulating the number of uplink accumulated available PRBs to uplink PRBs DTCH traffic every PRBs (i.e. theforsum of complete obtain the measurement sample period. At the end of the PRBs and fractions PRBs) used percentage value.theofaccumulated collection interval for DTCH traffic for SAEB QoS This measurement is determined by used is divided byofthe level 4PRBs and the number available accumulating the number of uplink accumulated available PRBs to uplink PRBs DTCH traffic every PRBs (i.e. theforsum of complete obtain the measurement sample period. At the end of the PRBs and fractions PRBs) used percentage value.theofaccumulated collection interval for DTCH traffic for SAEB QoS This measurement is determined by used is divided byofthe level 5PRBs and the number available accumulating the number of uplink accumulated available PRBs to uplink PRBs DTCH traffic every PRBs (i.e. theforsum of complete obtain the measurement sample period. At the end of the PRBs and fractions PRBs) used percentage value.theofaccumulated collection interval for DTCH traffic for SAEB QoS This measurement is determined by used is divided byofthe level 6PRBs and the number available accumulating the number of uplink accumulated available PRBs to uplink PRBs DTCH traffic every PRBs (i.e. theforsum of complete obtain the measurement sample period. At the end of the PRBs and fractions PRBs) used percentage value.theofaccumulated collection interval for DTCH traffic for SAEB QoS This measurement is determined by used is divided byofthe level 7PRBs and the number available accumulating the number of uplink accumulated available PRBs to uplink PRBs DTCH traffic every PRBs (i.e. theforsum of complete obtain the measurement sample period. At the end of the PRBs and fractions PRBs) used percentage value.theofaccumulated collection interval for DTCH traffic for SAEB QoS This measurement is determined by used is divided byofthe level 8PRBs and the number available accumulating the number of uplink accumulated available PRBs to uplink PRBs DTCH traffic every PRBs (i.e. theforsum of complete obtain the measurement sample period. At the end of the PRBs and fractions PRBs) used percentage value.theofaccumulated collection interval for DTCH traffic for SAEB QoS This measurement is determined by used is divided byofthe level 9PRBs and the number available accumulating the number of uplink accumulated available PRBs every to uplink PRBsis,for DTCH PRBs (that the sum traffic of complete obtain the measurement sample period. At the end of the PRBs and fractions PRBs) used percentage value.theofaccumulated collection interval for DTCH traffic for currently This measurement is determined used PRBsSAEB is divided by the withinby supported levels accumulating the QoS number of uplink accumulated available PRBs the range of 10-255 the to PRBs (i.e. the sum ofand complete obtain the measurement number of fractions available of uplink PRBs for PRBs and PRBs) used percentage value. DTCH traffic every sample period. for DCCH and CCCH data and theby This is determined At themeasurement end of the collection interval number of available uplink for accumulating the used number ofPRBs the accumulated PRBs are DCCH and CCCH data every downlink PRBs (i.e. the sum of divided by the accumulated sample period. thefractions end of the complete PRBsAt and available PRBs to obtain the of collection interval the accumulated PRBs) used for DTCH traffic for by measurement percentage value. This measurement is determined used PRBs is divided bythe the SAEB QoS level 1 and number accumulating available the number of to accumulated PRBs of available downlink PRBs downlink PRBs (i.e. the sumfor of obtain the percentage value. DTCH traffic every period. complete PRBs andsample fractions of At the end theDTCH collection PRBs) usedoffor trafficinterval for the accumulated is SAEB QoS level 2used andPRBs the number divided by the accumulated of available downlink PRBs for available PRBs to obtain the DTCH traffic every sample period. measurement percentage At the end of the collectionvalue. interval the accumulated used PRBs is divided by the accumulated available PRBs to obtain the measurement percentage value.
Average
Average
Average
Average
Average
Average
Average
Average
Average
Average
Average
Average
This measurement is determined by accumulating the number of downlink PRBs (i.e. the sum of complete PRBs and fractions of PRBs) used for DTCH traffic for by This measurement is determined SAEB QoS level 3 and theofnumber accumulating the number of available downlink PRBs downlink PRBs (i.e. the sumfor of DTCH traffic every period. complete PRBs andsample fractions of At the end offor theDTCH collection interval PRBs) used traffic for This measurement is determined the accumulated is by SAEB QoS level 4used andPRBs theofnumber accumulating the number divided by the accumulated of available downlink PRBs for downlink PRBs (i.e. the sum of available to obtain the DTCH traffic every sample period. complete PRBspercentage and fractions of measurement value. At the end offor theDTCH collection interval PRBs) used traffic for Thisaccumulated measurement is determined the is by SAEB QoS level 5used andPRBs theofnumber accumulating the number divided by the accumulated of available downlink PRBs for downlink PRBs (i.e. the sum of available to obtain the DTCH traffic every sample period. complete PRBspercentage and fractions of measurement value. At the end offor theDTCH collection interval PRBs) used traffic for This measurement is determined the accumulated is by SAEB QoS level 6used andPRBs theofnumber accumulating the number divided by the accumulated of available downlink PRBs for downlink PRBs (i.e. the sum of available to obtain the DTCH traffic every sample period. complete PRBspercentage and fractions of measurement value. At the end offor theDTCH collection interval PRBs) used traffic for Thisaccumulated measurement is determined the is by SAEB QoS level 7used andPRBs theofnumber accumulating the number divided by the accumulated of available downlink PRBs for downlink PRBs (i.e. the sum of available to obtain the DTCH traffic every sample period. complete PRBspercentage and fractions of measurement value. At the end offor theDTCH collection interval PRBs) used traffic for This measurement is determined the accumulated is by SAEB QoS level 8used andPRBs theofnumber accumulating the number divided by the accumulated of available downlink PRBs for downlink PRBs (i.e. the sum of available to obtain the DTCH traffic every sample period. complete PRBspercentage and fractions of measurement value. At the end offor theDTCH collection interval PRBs) used traffic for Thisaccumulated measurement is determined the is by SAEB QoS level 9used andPRBs theofnumber accumulating the number divided by the accumulated of available downlink PRBs for of downlink PRBs (that is, the sum available to obtain the DTCH traffic every sample period. complete PRBspercentage and fractions of measurement value. At the end offor theDTCH collection interval PRBs) used traffic for This measurement is determined the accumulated used PRBs is by currently supported SAEB QoS accumulating the number of divided by the accumulated levels within the range 10-255 downlink PRBs (i.e. theofsum available to obtain the of and the number of available complete PRBspercentage and fractions of measurement value. downlink PRBs for DTCH traffic PRBs) used for DCCH and CCCH #N/A every sample period. At the end of data and the number of available the collection interval the downlink PRBs for DCCH and accumulated usedsample PRBs are CCCH data every period. At divided by the accumulated the end of the collection interval the available PRBs to obtain the This counter is updated 500 accumulated used PRBsevery is divided measurement percentage value. ms when the muting pattern 0PRBs is by the accumulated available active, i.e. when no muting is to obtain the percentage value. applied.
Average
#N/A
Sum
Average
Average
Average
Average
Average
Average
Average
Average
Sum
Sum
#N/A
Average
#N/A
Average
The transmission of a MAC PDU for Sum the first time
A correctly received MAC PDU with Sum retransmission.
Th re-transmission of a MAC PDU
Sum
A correctly received MAC PDU by original transmission
Sum
This counter is updated on the Sum transmission of an RLC SDU on DL DCCH towards the UE This counter is updated on the Sum reception of an RLC SDU on DCCH from UE This counter is updated when RLC PDU is received from UE
Sum
This counter is updated when RLC PDU is transmitted to UE
Sum
This counter is updated when a PDCP SDU is received from UE.
Sum
This counter is updated when a PDCP SDU is transmitted towards the UE.
Sum
This counter is updated when a PDCP SDU is received from UE.
Max
This counter is updated when a PDCP SDU is received from UE.
Average
This counter is updated when a PDCP SDU is transmitted towards the UE.
Max
This counter is updated when a PDCP SDU is transmitted towards the UE.
Average
This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included.
This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included.
This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included.
This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. The counter is updated when MAC Sum SDU is received. The size of received MAC SDU data is added to this counter over the measurement The counter is period. updated when MAC Sum Retransmissions in the SDU is received. are Sizeincluded of received counter. MAC SDU data is added to this counter over the measurement period. Retransmissions are included to counter.
The counter is updated when MAC Sum SDU is received. Size of received MAC SDU data is added to this counter over the measurement period. Retransmissions are MAC Sum The counter is updated when included to counter. SDU is sent. Size of sent MAC SDU data is added to this counter over the measurement period. Retransmissions are included to The counter is updated when MAC Sum counter. SDU is sent. Size of sent MAC SDU data is added to this counter over the measurement period. Retransmissions are included to The counter is updated when MAC Sum counter. SDU is sent. Size of sent MAC SDU data is added to this counter over the measurement period. Retransmissions are included to The counter is updated when an counter. RRC data block from UE is
Sum
received. Size of UL RLC PDU's mapped to SRB0, SRB1 and SRB2 are Thecounted. counter is updated when an Sum RRC data block is transmitted towards the UE. Size of DL RLC PDU's mapped to SRB0, SRB1 and SRB2 are counted. The counter is updated on the Sum reception of an RLC SDU on ULDTCH from UE The counter is updated on the transmission of an RLC SDU on DL-DTCH towards the UE
Sum
This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included.
This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is incremented with Sum every TTI, in which at least one UE is scheduled to transmit user plane data. This counter is incremented with Sum every TTI, in which at least one UE is scheduled to receive user plane data. The volume of a data burst excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolUl is the data volume on PDCP The timecounted to transmit a dataSDU burst level in bits received in UL for one excluding the data transmitted in E-RAB a sample of emptied. the TTI during when the buffer is ThpTimeUl. must exclude A sample of (It "ThpTimeUl" for the each volume of the last piece time the UL buffer for one E-RAB is The volume of a data burst of data emptying the buffer). emptied. excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolUl is the data volume on PDCP The timecounted to transmit a dataSDU burst level in bits received in UL for one excluding the data transmitted in E-RAB a sample of emptied. the TTI during when the buffer is ThpTimeUl. must exclude A sample of (It "ThpTimeUl" for the each volume of the last piece time the UL buffer for one E-RAB is The volume of a data burst of data emptying the buffer). emptied. excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolUl is the data volume on PDCP The timecounted to transmit a dataSDU burst level in bits received in UL for one excluding the data transmitted in E-RAB a sample of emptied. the TTI during when the buffer is ThpTimeUl. must exclude A sample of (It "ThpTimeUl" for the each volume of the last piece time the UL buffer for one E-RAB is of data emptying the buffer). emptied.
Sum
Sum
Sum
Sum
Sum
Sum
The volume of a data burst excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolUl is the data volume on PDCP The timecounted to transmit a dataSDU burst level in bits received in UL for one excluding the data transmitted in E-RAB a sample of emptied. the TTI during when the buffer is ThpTimeUl. must exclude A sample of (It "ThpTimeUl" for the each volume of the last piece time the UL buffer for one E-RAB is The volume of a data burst of data emptying the buffer). emptied. excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolUl is the data volume on PDCP The timecounted to transmit a dataSDU burst level in bits received in UL for one excluding the data transmitted in E-RAB a sample of emptied. the TTI during when the buffer is ThpTimeUl. must exclude A sample of (It "ThpTimeUl" for the each volume of the last piece time the UL buffer for one E-RAB is The volume of a data burst of data emptying the buffer). emptied. excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolUl is the data volume on PDCP The timecounted to transmit a dataSDU burst level in bits received in UL for one excluding the data transmitted in E-RAB a sample of emptied. the TTI during when the buffer is ThpTimeUl. must exclude A sample of (It "ThpTimeUl" for the each volume of the last piece time the UL buffer for one E-RAB is The volume of a data burst of data emptying the buffer). emptied. excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolUl is the data volume on PDCP The timecounted to transmit a dataSDU burst level in bits received in UL for one excluding the data transmitted in E-RAB a sample of emptied. the TTI during when the buffer is ThpTimeUl. must exclude A sample of (It "ThpTimeUl" for the each volume of the last piece time the UL buffer for one E-RAB is The volume of a data burst of data emptying the buffer). emptied. excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolUl is the data volume on PDCP The timecounted to transmit a dataSDU burst level in bits received in UL for one excluding the data transmitted in E-RAB a sample of emptied. the TTI during when the buffer is ThpTimeUl. must exclude A sample of (It "ThpTimeUl" for the each volume of the last piece time the UL buffer for one E-RAB is The volume of a data burst of data emptying the buffer). emptied. excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolUl is the data volume on PDCP The timecounted to transmit a dataSDU burst level in bits received in UL for one excluding the data transmitted in E-RAB a sample of emptied. the TTI during when the buffer is ThpTimeUl. must exclude A sample of (It "ThpTimeUl" for the each volume of the last piece time the UL buffer for one E-RAB is of data emptying the buffer). emptied.
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Reception of a PDCP data block from UE
Average
The volume of a data burst excluding the data transmitted in the TTI when the buffer is emptied. A sample for ThpVolDl is the data volume, on PDCP The timecounted to transmit a data SDU burst level, in bits successfully excluding the last piece of data transmitted transmitted (acknowledged in the TTI when by the UE) in DL for one E-RAB during a buffer is emptied. sample of of ThpTimeDl. It must A sample "ThpTimeDl" for each The volume of a data burst exclude the volume of the last piece time the DL buffer for one E-RAB excluding the data transmitted in is of data emptying emptied. the TTI when the buffer is emptied. buffer. A sample for ThpVolDl is the data volume, on PDCP The timecounted to transmit a data SDU burst level, in bits successfully excluding the last piece of data transmitted transmitted (acknowledged in the TTI when by the UE) in DL for one E-RAB during a buffer is emptied. sample of of ThpTimeDl. It must A sample "ThpTimeDl" for each The volume of a data burst exclude the volume of the last piece time the DL buffer for one E-RAB excluding the data transmitted in is of data emptying emptied. the TTI when the buffer is emptied. buffer. A sample for ThpVolDl is the data volume, on PDCP The timecounted to transmit a data SDU burst level, in bits successfully excluding the last piece of data transmitted transmitted (acknowledged in the TTI when by the UE) in DL for one E-RAB during a buffer is emptied. sample of of ThpTimeDl. It must A sample "ThpTimeDl" for each The volume of a data burst exclude the volume of the last piece time the DL buffer for one E-RAB excluding the data transmitted in is of data emptying emptied. the TTI when the buffer is emptied. buffer. A sample for ThpVolDl is the data volume, on PDCP The timecounted to transmit a data SDU burst level, in bits successfully excluding the last piece of data transmitted transmitted (acknowledged in the TTI when by the UE) in DL for one E-RAB during a buffer is emptied. sample of of ThpTimeDl. It must A sample "ThpTimeDl" for each The volume of a data burst exclude the volume of the last piece time the DL buffer for one E-RAB excluding the data transmitted in is of data emptying emptied. the TTI when the buffer is emptied. buffer. A sample for ThpVolDl is the data volume, on PDCP The timecounted to transmit a data SDU burst level, in bits successfully excluding the last piece of data transmitted transmitted (acknowledged in the TTI when by the UE) in DL for one E-RAB during a buffer is emptied. sample of of ThpTimeDl. It must A sample "ThpTimeDl" for each The volume of a data burst exclude the volume of the last piece time the DL buffer for one E-RAB excluding the data transmitted in is of data emptying emptied. the TTI when the buffer is emptied. buffer. A sample for ThpVolDl is the data volume, counted on PDCP SDU level, in bits successfully transmitted (acknowledged by UE) in DL for one E-RAB during a sample of ThpTimeDl. It must exclude the volume of the last piece of data emptying the buffer.
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
The time to transmit a data burst Sum excluding the last piece of data transmitted in the TTI when the buffer is emptied. A sample of of "ThpTimeDl" for each Sum The volume a data burst time the DL buffer for one E-RAB excluding the data transmitted in is emptied. the TTI when the buffer is emptied. A sample for ThpVolDl is the data volume, on PDCP The timecounted to transmit a data SDU burst level, in bits successfully excluding the last piece of data transmitted transmitted (acknowledged in the TTI when by the UE) in DL for one E-RAB during a buffer is emptied. sample of of ThpTimeDl. It must A sample "ThpTimeDl" for each The volume of a data burst exclude the volume of the last piece time the DL buffer for one E-RAB excluding the data transmitted in is of data emptying emptied. the TTI when the buffer is emptied. buffer. A sample for ThpVolDl is the data volume, on PDCP The timecounted to transmit a data SDU burst level, in bits successfully excluding the last piece of data transmitted transmitted (acknowledged in the TTI when by the UE) in DL for one E-RAB during a buffer is emptied. sample of of ThpTimeDl. It must A sample "ThpTimeDl" for each The volume of a data burst exclude the volume of the last piece time the DL buffer for one E-RAB excluding the data transmitted in is of data emptying emptied. the TTI when the buffer is emptied. buffer. A sample for ThpVolDl is the data volume, on PDCP The timecounted to transmit a data SDU burst level, in bits successfully excluding the last piece of data transmitted transmitted (acknowledged in the TTI when by the UE) in DL for one E-RAB during a buffer is emptied. sample of of ThpTimeDl. It must A sample "ThpTimeDl" for each Transmission of an PDCP data exclude the volume of the last piece time the DL buffer for one E-RAB is block towards the UE of data emptying emptied. the buffer.
Sum
Sum
Sum
Sum
Sum
Average
This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included. This counter is updated when MAC Sum PDU is scheduled. Retransmissions are included.
Transmission of an RLC PDU towards the UE.
Sum
The time to transmit a data burst excluding the last piece of data transmitted in the TTI when the buffer for a QCI 1 E-RAB is emptied. excluded are burst those The time Also to transmit a data TTIs in that there was data in the excluding the last piece of data buffer but the UE was not transmitted in the TTI when the scheduled. buffer for a QCI 2 E-RAB is
Sum
emptied. excluded are burst those The time Also to transmit a data TTIs in that there was data in the excluding the last piece of data buffer but the UE was not transmitted in the TTI when the scheduled. buffer for a QCI 3 E-RAB is
Sum
emptied. excluded are burst those The time Also to transmit a data TTIs in that there was data in the excluding the last piece of data buffer but the UE was not transmitted in the TTI when the scheduled. buffer for a QCI 4 E-RAB is
Sum
emptied. excluded are burst those The time Also to transmit a data TTIs in that there was data in the excluding the last piece of data buffer but the UE was not transmitted in the TTI when the scheduled. buffer for a QCI 5 E-RAB is
Sum
emptied. excluded are burst those The time Also to transmit a data TTIs in that there was data in the excluding the last piece of data buffer but the UE was not transmitted in the TTI when the scheduled. buffer for a QCI 6 E-RAB is
Sum
emptied. excluded are burst those The time Also to transmit a data TTIs in that there was data in the excluding the last piece of data buffer but the UE was not transmitted in the TTI when the scheduled. buffer for a QCI 7 E-RAB is
Sum
emptied. excluded are burst those The time Also to transmit a data TTIs in that there was data in the excluding the last piece of data buffer but the UE was not transmitted in the TTI when the scheduled. buffer for a QCI 8 E-RAB is
Sum
emptied. excluded are burst those The time Also to transmit a data TTIs in that there was data in the excluding the last piece of data buffer but the UE was not transmitted in the TTI when the scheduled. buffer for a QCI 9 E-RAB is
Sum
emptied. excluded are burst those The time Also to transmit a data TTIs in that there was data in the excluding the last piece of data buffer but the UE was not transmitted in the TTI when the scheduled. buffer for a QCI 1 E-RAB is
Sum
emptied. excluded are burst those The time Also to transmit a data TTIs in that there was data in the excluding the last piece of data buffer but the UE was not transmitted in the TTI when the scheduled. buffer for a QCI 2 E-RAB is
Sum
emptied. Also excluded are those TTIs in that there was data in the buffer but the UE was not scheduled.
Sum
The time to transmit a data burst excluding the last piece of data transmitted in the TTI when the buffer for a QCI 3 E-RAB is emptied. excluded are burst those The time Also to transmit a data TTIs in that there was data in the excluding the last piece of data buffer but the UE was not transmitted in the TTI when the scheduled. buffer for a QCI 4 E-RAB is
Sum
emptied. excluded are burst those The time Also to transmit a data TTIs in that there was data in the excluding the last piece of data buffer but the UE was not transmitted in the TTI when the scheduled. buffer for a QCI 5 E-RAB is
Sum
emptied. excluded are burst those The time Also to transmit a data TTIs in that there was data in the excluding the last piece of data buffer but the UE was not transmitted in the TTI when the scheduled. buffer for a QCI 6 E-RAB is
Sum
emptied. excluded are burst those The time Also to transmit a data TTIs in that there was data in the excluding the last piece of data buffer but the UE was not transmitted in the TTI when the scheduled. buffer for a QCI 7 E-RAB is
Sum
emptied. excluded are burst those The time Also to transmit a data TTIs in that there was data in the excluding the last piece of data buffer but the UE was not transmitted in the TTI when the scheduled. buffer for a QCI 8 E-RAB is
Sum
emptied. excluded are burst those The time Also to transmit a data TTIs in that there was data in the excluding the last piece of data buffer but the UE was not transmitted in the TTI when the scheduled. buffer for a QCI 9 E-RAB is
Sum
emptied. Also excluded are those The reception of an RRC TTIs in that there was data Connection Setup Completein the buffer but sent the UE wasUE notto eNB. message by the scheduled.
Sum
Timer expiration
Sum
Sum
The reception of an erroneous or Sum incomplete RRC Connection Setup Complete message. The reception of an S1AP:UE Sum Context Release Command message sent by the MME to eNB. The reception of an S1AP:UE Sum Context Release Command message sent by the MME to eNB.
The reception of an S1AP:UE Context Release Command message sent by the MME to the eNB.
Sum
The reception of an S1AP:UE Sum Context Release Command message sent by the MME to eNB. The counter is updated if the failure detected does notofmatch any other The transmission an S1AP: UE Sum failure counter Context Release Request from the eNB to MME with the following release causes: -The RNL User Inactivity transmission of an S1AP: UE Sum -Context RNL E-UTRAN Release Generated Request from the Reason in case Redirect to cause LTE eNB to the MMEofwith release -"RNL RNLRadio Inter-RAT Redirection. Connection with UE Lost". The transmission of an S1AP: UE Context Release Request from the eNB to MME. The counter is updated if the use case does not match "User Inactivity", This counter is updated "Redirect" following and "Lost Radio Connection". the reception of an RRC Connection Request message sent by the UE to eNB. Note: If a UE (erroneously) The reception of an RRC sends this message several times in asent row Connection Request message without waiting the proper time for by the UE to eNB. the response from eNB Note: If a UE (erroneously) sends (RRCConnectionSetup), only this message several times in the a row The reception will of an RRC last message be counted. without waiting the proper time for Connection Request message sent the response from eNB by the UE to eNB. (RRCConnectionSetup), only the Note: If a UE (erroneously) sends last message will be counted. this message several Reception of the RRC:times in a row without waiting the propermessage time for RRCConnectionRequest the response from eNB (eNB <- UE) in case that this (RRCConnectionSetup), message contains the only the last message will be counted. EstablishmentCause setattoeach This counter is updated emergency (3GPP TS 36.331). subframe when UE is DRX Active. Note: If a UE (erroneously) sends this message several times in a row without waiting the proper time for This counter isfrom updated the response eNB at each subframe when UE is DRX Sleep (RRCConnectionSetup), only the (that is not DRX Active). last message will be counted.
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Reception of the Sum RRC:RRCConnectionSetupComple te message (eNB <- UE) in case that this message was received from the UE after the reception of the RRC:RRCConnectionRequest message (eNB <-UE) with EstablishmentCause set to emergency (3GPP TS 36.331)
Transmission of the RRC:RRCConnectionReject message (eNB -> UE) because of missing RB (Radio Bearer) resources in case this Transmission of anthat S1AP:UE message is sent in response to the CONTEXT RELEASE REQUEST reception of the previous message (eNB -> MME; 3GPP TS RRC:RRCConnectionRequest 36.413) with RNL cause "Radio message (eNB <- UE) with resources not of available". Transmission an set to EstablishmentCause RRCConnectionReject message emergency (3GPP TS 36.331). (eNB -> UE) in case that this message is sent in response to the reception of the Transmission of previous an RRC:RRCConnectionRequest RRCConnectionReject message message (UEin->case eNB) with (eNB -> UE) that this EstablishmentCause set to any message is sent in response to the other cause than "emergency" reception of the previous The reception of an (3GPP TS 36.331). RRC:RRCConnectionRequest RRCConnectionRequest message message (UE -> eNB) with with highPriorityAccess EstablishmentCause EstablishmentCause set senttoby the "emergency" (3GPP TS 36.331). UE eNB. of the Thetoreception RRCConnectionSetupComplete Note: If a (UE UE (erroneously) sends message -> eNB) in case that this message several times in a row this message was received from the without waiting the proper time for UE after the reception of the The transmission an the response fromofeNB RRCConnectionRequest message RRCConnectionReject message (RRCConnectionSetup), only the (UE -> eNB) with (eNBmessage -> UE) inwill case this last be that counted. EstablishmentCause set to to the message is sent in response highPriorityAccess (3GPP TS reception of the The reception ofprevious an 36.331). RRCConnectionRequest RRCConnectionRequest message message (UE eNB) with with -> delayTolerantAccess EstablishmentCause EstablishmentCause set senttoby the "highPriorityAccess" (3GPP TS UE toreception eNB. of the The 36.331). RRCConnectionSetupComplete Note: If a UE (erroneously) sends message, which was received as a this message several times consequence of a precedingin a row without waiting the proper time for reception of the Theresponse reception of the the from eNB message RRCConnectionRequest RRCConnectionSetupComplete (RRCConnectionSetup), only the with EstablishmentCause set to message, which was received as a last message will be counted. mo-Signalling (3GPP TS 36.331). consequence of a preceding
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
reception of the The reception of the Sum Note: If a UE (erroneously) sends RRCConnectionRequest message RRCConnectionSetupComplete this message several times in a row with EstablishmentCause set toas a message, whichthe was received without waiting proper time for mo-Data (3GPP TS 36.331). consequence of a preceding the response from eNB reception of the (RRCConnectionSetup), only the The reception of the Sum Note: If a UE (erroneously) sends RRCConnectionRequest message last message will be counted. RRCConnectionComplete this message several times in a row with EstablishmentCause set toasmtmessage, whichthe was received without waiting proper time fora Access (3GPP TS 36.331). consequence of a preceding the response from eNB reception of the (RRCConnectionSetup), only the Note: If a UE (erroneously) sends RRCConnectionRequest message last message will be counted. this several times into a row with message EstablishmentCause set without waiting the proper time delayTolerantAccess (3GPP TSfor the response from eNB 36.331). (RRCConnectionSetup), only the last message will be counted. Note: If a UE (erroneously) sends this message several times in a row without waiting the proper time for the response from eNB
The transmission of an RRCConnectionReject message (eNB -> UE) in case that this message is sent in response to the reception of the previous The transmission of an RRCConnectionRequest message RRCConnectionReject message (UE -> eNB) with (eNB -> UE) in case that this EstablishmentCause set to "momessage is sent in response to the Signalling" (3GPP TS 36.331). reception of the previous The transmission of an RRCConnectionRequest message RRCConnectionReject message (UE -> eNB) with (eNB -> UE) in case that this EstablishmentCause set to "momessage is sent in response to the Data" (3GPP TS 36.331). reception of the previous The transmission of an RRCConnectionRequest message RRCConnectionReject message (UE -> eNB) with (eNB -> UE) in case that this EstablishmentCause set to "mtmessage is sent in response to the Access" (3GPP TS 36.331). reception of the previous Transmission of an S1AP:INITIAL RRCConnectionRequest message UE message (eNB->MME) that (UE -> eNB) with contains the first NAS signaling EstablishmentCause to TS message to the MMEset (3GPP "delayTolerantAccess" (3GPP TS 36.413). Reception of the first S1AP 36.331). message (MME->eNB) containing NAS signaling, which was received as a consequence of a preceding transmission S1AP:INITIAL Reception of of anthe S1AP:INITIAL UE message (3GPP TS 36.413). CONTEXT SETUP REQUEST
Sum
Sum
Sum
Sum
Sum
Sum
Sum
message sent by MME to the eNB. The counter is updated irrespective of the UE Context being subject to Sum Reception of an S1AP:INITIAL CS Fallback (3GPP TS 36.413). CONTEXT SETUP REQUEST message sent by MME to the eNB. The counter is updated only in case that this message the CS Sum Transmission of ancontains S1AP:INITIAL Fallback Indicator IE that is, the CONTEXT SETUP RESPONSE UE is subject to CS Fallback (3GPP message sent by eNB to the MME. TS The36.413). counter is updated irrespective of the UE Context subject to Transmission of anbeing S1AP:INITIAL CS Fallback (3GPP TS 36.413). CONTEXT SETUP RESPONSE
Sum
message sent by eNB to the MME. The counter is updated only in case that the preceding Transmission of anreceived S1AP:INITIAL Sum S1AP:INITIAL CONTEXT SETUP CONTEXT SETUP FAILURE REQUEST message has contained message sent by eNB to the MME. the Fallback Indicator (3GPP TheCS counter is updated in IE case that TS 36.413). the failure cause is equal to Reception of an S1AP:UE Sum "RNL:Failure in the Radio Interface CONTEXT MODIFICATION Procedure" (3GPP TSsent 36.413). REQUEST message by MME to the eNB. The counter is updated irrespective of the UE Context being subject to CS Fallback (3GPP TS 36.413).
Reception of an S1AP:UE Sum CONTEXT MODIFICATION REQUEST message sent by MME to the eNB. The counter is updated only in case that thisS1AP:UE message Transmission of an Sum contains the CS Fallback Indicator CONTEXT MODIFICATION IE - that is, the UE is subject toeNB CS RESPONSE message sent by Fallback (3GPP TS 36.413). to the MME. The counter is updated irrespective ofof the Context Transmission anUE S1AP:UE Sum being subject to CS Fallback CONTEXT MODIFICATION (3GPP TS 36.413). message sent by eNB RESPONSE to the MME. The only by in case The counter counter is is updated incremented one that the preceding received upon the transmission of an S1AP: S1AP:UE CONTEXT UE CONTEXT RELEASE MODIFICATION REQUEST REQUEST message sent by the mesage has contained the CS is eNB to the MME. The counter The counter is incremented by one Fallback Indicator IE (3GPP TS updated for all radio network layer upon the transmission of an S1AP: 36.413). causes used byRELEASE the eNB initiated UE CONTEXT UE CONTEXT RELEASE REQUEST message sent like by the "Unspecified", "User inactivity", eNB to the MME with the release The counter is incremented one "Radio Connection With UE by Lost", cause "RNL User Inactivity" (3GPP upon the transmission of an S1AP: "Failure in the Radio Interface TS UE 36.413). CONTEXT RELEASE Procedure", "TX2RELOCOverall REQUEST message sent byExpiry", the Expiry", "TS1RELOCoverall eNB to the MME with the release "Release dueistoincremented E-UTRAN by one The counter cause "RNL Radio Connection With Generated Reason", "Inter-RAT upon the transmission of an S1AP: UE Lost". The trigger "expiration of redirection", "Radio resources not UE CONTEXT RELEASE THOOverall " must be excluded available", "Invalid QoS REQUEST message sent by the because in MME case of a failed intra combination", "CS Fallback eNB to the with the cause The counter iscounter incremented by one eNB HO, the Triggered", "Redirection towards "RNL Failure in the Radio Interface upon the transmission of an S1AP: UE_CTX_REL_ENB_TIMER_HO 1xRTT", and(3GPP "UE Not Procedure" TSAvailable 36.413). Foris UE CONTEXT RELEASE updated (3GPP TS 36.413). PS Service" (3GPP TS 36.413). REQUEST sent The countermessage is updated forby allthe eNB to the MME with the cause transport network layer causes The counter is incremented by one "RNL Release due to E-UTRAN used by the eNB initiated UES1AP: upon the transmission of an generated reason" (3GPP CONTEXT RELEASE like TS UE CONTEXT RELEASE 36.413). "Transport Resource Unavailable" REQUEST message sent by the and "Unspecified" (3GPP TS eNB to the MME with the cause The counter is incremented by one 36.413). "RNL Radio resources of notan S1AP: upon the transmission available" (3GPP TS 36.413). UE CONTEXT RELEASE
Sum
Sum
Sum
Sum
Sum
Sum
Sum
REQUEST message sent by the eNB to the MME with the cause The counter is incremented by one Sum "RNL Unspecified" (3GPP TSS1AP: upon the transmission of an 36.413). UE CONTEXT RELEASE REQUEST message sent by the eNB #N/Ato the MME due to a failed handover. In case of an X2 handover, the release cause "RNL TX2RELOCoverall Expiry" is used. In case of an S1 handover, the release cause "RNL TS1RELOCoverall Expiry" is used. In case of an intra eNB handover, the release cause "RNL Radio Connection With UE Lost" is used (3GPP TS 36.413).
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
The transmission of an X2AP: Handover Request to the target eNB.
Sum
The expiration of timer TX2RELOCprep
Sum
The reception of an X2AP: Handover Preparation Failure message from the target eNB.
Sum
The counter is updated if the failure Sum detected does not match any other failure counter. The reception of an X2AP: Handover Request Acknowledge message from the target eNB.
Sum
The reception of an X2AP:Release Sum Resource message sent by the target eNB. The expiration of timer TX2RELOCoverall.
Sum
This counter is updated following Sum the transmission of an S1AP: HANDOVER REQUIRED message from the source eNB to the MME if this Thismessage counter isprepares updatedan at Inter the Sum eNB Handover. expiry of the guarding timer TS1RELOCprep if the timer was started because of the preparation of ancounter Inter eNB Handover. This is updated following
Sum the reception of an S1AP: HANDOVER PREPARATION FAILURE message from MME to source eNB with cause following "No Radio Sum This counter is updated Resources Available in Target Cell" the reception of an S1AP: ifHANDOVER this message is received in PREPARATION response the preparation an FAILURE to message from the of MME Inter eNB Handover. to thecounter sourceiseNB with any other This updated following Sum cause than "No Radio Resources the reception of an S1AP: Available in Target Cell" inmessage case that HANDOVER COMMAND this message is received in from the MME to the source eNB in response to the preparation of an case that this received This counter ismessage updated is following Sum Inter eNB Handover. in theresponse receptiontoofthe anpreparation S1AP: UE of an Inter eNB Handover. CONTEXT RELEASE COMMAND message from the MME to the source eNB with the cause value This counter is updated following Sum Radio Network Layer (Successful the expiry of the guarding timer Handover) in case that this that this TS1RELOCoverall in case message is received for anof Inter timer was started because an eNB Handover. Inter eNB Handover. #N/A Sum
This counter is updated when an Sum Intra-eNB Handover preparation fails for any reason. This counter is updated in the source side of the handover. This counter is updated when an Sum RRC CONNECTION RECONFIGURATION message is sent by the eNB to the UE, indicating a Handover This counter is updatedCommand when an to Sum the UE. This counter is updated in Intra-eNB Handover succeeds. This the source side of the handover. counter is updated in the source side of the handover. This counter is updated following Sum any failure in the HO preparation phase in the target cell apart from a HANDOVER PREPARATION FAILURE message (from target side) or expiration of the respective guarding timer in the source cell
HO via X2: This counter is updated Sum following the expiration of the guarding timer TX2RELOCprep. HO via S1: This counter is updated following theThis expiration HO via X2: counterofisthe updated Sum guarding timer TS1RELOCprep. following the reception of an X2AP:HANDOVER PREPARATION FAILURE message from the target eNB with the cause "No Radio HO via X2: Resources in Target cell" This counterAvailable is updated following HO via S1: This counter is updated the reception of an following the reception of an X2AP:HANDOVER REQUEST S1AP:HANDOVER PREPARATION ACKNOWLEDGE message from HO via X2:message This counter updated FAILURE from is the MME the target eNB following the reception of an with the cause "No Radio X2AP:UE CONTEXT RELEASE Resources Available in Target cell" HO via S1:sent message by the target eNB. This counter is updated following This counter isofupdated following the reception an HO via S1:ofThis counter timer, is updated the expiry a guarding either S1AP:HANDOVER COMMAND following the reception of an TX2RELOCoverall or message from the MME S1AP:UE CONTEXT TS1RELOCoverall, inRELEASE case that one COMMAND message from the of these timers was started This counter iscause updated following MME with the value Radio because of an Inter-eNB Handover. the expiration a guarding timer Network Layerof(Successful THOoverall casethat thatthis the timer Handover) inincase has been is started duefor to Intra-eNB message received an Inter Handover. eNB Handover. Reception of X2AP:RLF INDICATION message satisfying the following conditions: - C-RNTI corresponds to an available ReceptionUE of context -RRCConnectionReestablishmentRe shortMAC-I is included -quest shortMAC-I the local has after thematches "HO command" security calculation (successful been sent to the UE. The early HO authentication) Type 1 condition is met only in case Reception of X2AP:HANDOVER -that Tstore_UE_cntxt timer associated the HO supervision is REPORT message authenticated with timer Handover with corresponding running and the ShortMAC-I is Report Typeis="HO too early". shortMAC-I not running known. source cell: The neighbor the cell is equals the cell X2AP:RLF The receiving counter is updated inHandover. cell A target cell of the ongoing X2AP:HANDOVER REPORT INDICATION message is received when a UEoffinally returns to the cell Reception message cellperiod of attempted (source of missed HO attempt A within cell a (source short time (defined RRCConnectionReestablishmentRe HO) and optional recoverable RLF on by the parameter tPingPong). quest satisfying the following targetside) cell: eNB conditions: #N/A cell sending target cell: the X2AP:HANDOVER -REPORT reestablishment cause is equal message (target cell of to cell sending X2AP:RLF "HOfailure" attempted HO) INDICATION messageto (cell -The C-RNTI corresponds an at the counter isreestablishment incremented receiving the available UE context for which source cell per neighbor (target request after missed HO cell attempt) #N/A outgoing HO preparation is ongoing cell) The counter is incremented at the -Notes: shortMAC-I is included source cell per neighbor cell (target -"short shortMAC-I thetime local time" ismatches defined as cell) security calculation (successful period no longer than expiration Notes: authentication) value of Tstore_UE_cntxt timer up The case of reestablishment source cell: from HO completion. causes that "ReconfigFailure" is cell receiving the reestablishment For the sequence of Case2 the excluded from counting. The case request (source cell of failed HO reestablishment request (with of reestablishment causes that attempt) cause "handoverFailure") received "HOfailure" is excluded from target at cell cell: prepared for incoming HO or counting when re-establishment target of failed attemptfrom at HO cell source cell isHO excluded target cell is prepared for incoming The counter is incremented at the counting. HO, as cell this per means HO has source neighbor cellbeen (target attempted, not missed. In case of cell) reestablishment request to cell
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
This counter is updated following the transmission of an RRC:RRCConnectionRelease message (source eNB -> UE) in case that thisismessage sent This counter updated was following because the source eNB received the transmission of an an S1AP:UE CONTEXT RRC:RRCConnectionRelease MODIFICATION message (sourceREQUEST eNB -> UE) in message (source eNB UE) in or message (source eNB for UE)an in message to source MME 23.272). MODIFICATION REQUEST case System that thisHandover. message was Inter Thissent message (source eNB <- received MME) because the source eNB counter iswhen updated for the source Updated Inter System with the CS Fallback Indicator set is to the S1AP:INITIAL CONTEXT cell of the handover. This counter Handover preparation fails(3GPP due toTS CS Fallback High Priority SETUP REQUEST message updated inofcase of PS-HO to expiration guarding 36.331, TS 36.413, TStimer 23.272) (source eNB <-System MME) with the CS UTRAN, Inter Handover to TS1RELOCprep_InterRAT. or Fallback Indicator with (3GPP TSThisand WCDMA/GERAN SRVCC counter iswhen updated source following the transmission of an 36.331, TS 36.413, TSthe 23.272). Updated an for in case of CS Fallback to UTRAN cell of the handover. This counter is RRC:RRCConnectionRelease S1AP:HANDOVER PREPARATION with PS-HO. updated in case of PS-HO to message (source eNB -> UE) in FAILURE message is received from UTRAN, System Handover case that this message was sent to MME withInter cause "No radio WCDMA/GERAN with SRVCC and because the source eNB received resources available in target cell" Updated when an CONTEXT in case of CS Fallback to UTRAN the S1AP:INITIAL for an Inter System Handover. This S1AP:HANDOVER PREPARATION with PS-HO. SETUP REQUEST message counter is updated for the source FAILURE message is received from (source eNB <- MME) withcounter the CS cell ofwith the handover. This is MME other cause than "No Fallback Indicator set to CSto updated in case of PS-HO radio resources available in target Fallback High Priority (3GPP TSto Updated whenSystem an UTRAN, Inter Handover cell" for an Inter System Handover. 36.331, TS 36.413, TS 23.272). S1AP:HANDOVER COMMAND WCDMA/GERAN with SRVCC This counter is updated forMME the and message isCS received from for in case of Fallback to UTRAN source cell the handover. This is a PS-HO toofUTRAN. This counter with PS-HO. counter isforupdated in case updated thean source cell of of PSthe Updated when S1AP:UE HO to UTRAN, Inter System handover. CONTEXT COMMAND Handover toRELEASE WCDMA/GERAN with message is received from SRVCC and in case of CSMME Fallback with Causewith value "Radio Network to UTRAN PS-HO. Layer" (Successful Handover) for a Updated when PS-HO to UTRAN PS-HO to UTRAN. This counter fails due to expiration of guardingis updated for the source cell of the timer TS1RELOCoverall. This handover. counter is updated for the source
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
cell of the handover. Transmission of the RRC: Sum MobilityFromEUTRANCommandme ssage (with cell change order to GSM; 3GPP TS 36.331) from the serving eNB UE indicates the Sum Reception of to anthe S1AP:HANDOVER attempt of a Network Cell COMMAND messageAssisted (source eNB Change (NACC) from LTE to GSM. <- MME; 3GPP TS 36.413) in case that this message is received in response to the preparation of an Inter System Handover to UTRAN with SRVCC (Single Radio Voice Call Continuity, 3GPP TS 23.216).
Reception of an S1AP:UE CONTEXT RELEASE COMMAND message (source eNB <- MME; 3GPP TS 36.413) with Cause value "Radio Network (Successful Expiration of theLayer guarding timer Handover)" in case that this TS1RELOCoverall (3GPP TS message received for an Inter 36.413) iniscase that this timer was System Handover to UTRAN with started because of an Inter System SRVCC (Single Radiowith Voice Call Handover to UTRAN SRVCC Transmission of an Continuity, 3GPP TS 23.216). (Single Radio Voice Call Continuity, RRC:MobilityFromEUTRAComman 3GPP TS d message23.216). (source eNB -> UE; 3GPP TS36.331) in case that this message for a CS Receptionisoftransmitted an S1AP:HANDOVER Fallback to UTRAN with PS eNB COMMAND message (source handover (3GPP TS 36.331, <- MME; 3GPP TS 36.413) inTS case 23.272). this message is received in
Sum
Sum
Sum
Sum
response Receptiontoofthe an preparation S1AP:UE of an Sum Inter System Handover to GERAN CONTEXT RELEASE COMMAND with SRVCC (Single Radio Voice message (source eNB <- MME; Call Continuity, 3GPP TS 23.216). 3GPP TS 36.413) with Cause value "Radio Network (Successful Expiration of theLayer guarding timer Sum Handover)" in case this message is TS1RELOCoverall (3GPP TS received an Inter System 36.413) inforcase this timer was Handover to GERAN started because of anwith InterSRVCC System (Single Radio Voice Call Continuity, Handover to GERAN with SRVCC #N/A Sum 3GPP 23.216). (SingleTS Radio Voice Call Continuity, 3GPP TS 23.216). #N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
Updated when Inter System Handover preparation to UTRAN fails due to expiration of guarding timer TS1RELOCprep_InterRAT. This counter is an updated for the Updated when source cell of the handover. This S1AP:HANDOVER PREPARATION counter is updated in case of FAILURE message is receivedPSfrom HO towith UTRAN, MME causeInter "NoSystem radio Handover to WCDMA SRVCC resources available in with target cell" Updated when an Fallback and in case of CS to This for an Inter System Handover. S1AP:HANDOVER PREPARATION UTRAN with PS-HO. counter is updated for the source FAILURE message is received from cell of the handover. This counter MME with other cause than "No is updated in case available of PS-HOintotarget radio resources Updated whenSystem an UTRAN, Inter Handover to cell" for an Inter System Handover. S1AP:HANDOVER COMMAND WCDMA with SRVCC and in case This counter is updated forMME the for message is received from of CS Fallback to handover. UTRAN with PSsource cell of the This a PS-HO. This counter is updated HO. counter is updated case of PSfor the source cell ofinthe handover. HO to UTRAN, Inter System Handover to WCDMA with SRVCC and in case of CS Fallback to UTRAN with PS-HO.
Sum
Sum
Sum
Sum
Updated when an S1AP:UE Sum CONTEXT RELEASE COMMAND message is received from MME with Cause value "Radio Network Layer" (Successful Handover) for a Sum Updated when a PS-HO to UTRAN PS-HO to UTRAN. This counter fails due to expiration of guardingis updated for the source cell of the timer TS1RELOCoverall. This handover. counter is updated for the source cell of the handover. Transmission of an S1AP:HANDOVER REQUIRED message to source MME for an Inter System Handover. This counter is updated for the source Reception of an S1AP:HANDOVER cell of the handover. counter COMMAND messageThis (source eNBis updated in case of PS-HO to <- MME; 3GPP TS 36.413) in case UTRAN, Inter System Handover that this message is received in to WCDMA with SRVCC and in case response toofthe of an Reception antopreparation S1AP:UE of CSSystem Fallback UTRAN with PSInter Handover to UTRAN CONTEXT RELEASE COMMAND HO. with SRVCC (Single Radio Voice message (source eNB <- MME; Call Continuity, 3GPP TS 23.216). 3GPP TS 36.413) with Cause value "Radio Network (Successful Expiration of theLayer guarding timer Handover)" in case that this TS1RELOCoverall (3GPP TS message received for an Inter 36.413) iniscase that this timer was System Handover to UTRAN with started because of an Inter System SRVCC (Single Radiowith Voice Call Handover to UTRAN SRVCC The arithmetical average of Continuity, 3GPP TS 23.216). (Single Continuity, samplesRadio takenVoice from Call the number of 3GPP TS 23.216). UEs, having one SRB and at least one DRB established.
Sum
Sum
Sum
Sum
Average
The maximum value of the samples Max of UEs having one SRB and at least one DRB established during a measurement period. Transmission of an S1AP:RESET Message (partial or global).
Sum
Transmission of an S1AP:RESET Message (partial or global).
Sum
Reception of an S1AP:RESET Message (partial or global) sent by MME to the eNB.
Sum
Reception of an S1AP:RESET Message (partial or global) sent by MME to the eNB.
Sum
This counter is updated after each sampling interval with the sample taken from the number of Active UEs.
Sum
This counter is updated by value 1 when the number of Active UEs is summed to counter SUM_ACTIVE_UE_ENB.
Sum
Transmission of the Sum RRC:MobilityFromEUTRANComma nd message (with cell change order to GSM; 3GPP TS 36.331) from the serving eNB UE indicates the Sum Reception of to anthe S1AP:HANDOVER attempt of a Network Cell COMMAND messageAssisted (source eNB Change (NACC) from LTE to GSM. <- MME; 3GPP TS 36.413) in case this message is received in response Receptiontoofthe an preparation S1AP:UE of an Sum Inter System Handover to GERAN CONTEXT RELEASE COMMAND with SRVCC (Single Radio Voice message (source eNB <- MME; Call Continuity, 3GPP TS 23.216). 3GPP TS 36.413) with Cause value "Radio Network (Successful Expiration of theLayer guarding timer Sum Handover)" in case this message is TS1RELOCoverall (3GPP TS received an Inter System 36.413) inforcase this timer was Handover to GERAN started because of anwith InterSRVCC System (Single Radio Voice Call Continuity, Handover to GERAN with SRVCC The counter is updated with value 1 Sum 3GPP TS 23.216). (Single Radio Call to Continuity, when cell stateVoice changes Cell 3GPP TS 23.216). Operational is enabled. The counter is updated with value 1 Sum when cell state changes to Administrative State is locked or Local State is blocked. The counter is updated with value 1 Sum when cell state changes to Operational State is disabled and Administrative State is unlocked and State is unblocked. The Local counter is incremented by 1 Sum approximately every 10 seconds when "Cell Operational State is enabled". The counter is incremented by 1 Sum approximately every 10 seconds when "Cell Administrative State is locked" or "Local State is blocked". The counter is incremented by 1 Sum approximately every 10 seconds when "Cell Operational State is disabled" and "Cell Administrative State is unlocked" and "Local State is unblocked".
The counter is updated with value 1 Denominator approximately every 10 seconds.
#N/A
Sum
#N/A
Sum
intra-eNB HO: This counter is updated following the transmission of an RRC Connection Reconfiguration message sent by the eNB toHO: the This UE, which indicates intra-eNB counter is a Handover Command to the UE in updated following the transmission case message is sent in of an that RRCthis Connection response to the of an Reconfiguration preparation message sent by inter-frequency Intra eNB the eNB to the UE, which indicates intra-eNB HO: This counter is Handover. a Handover Command to the UEofin updated following inter-eNB HO message - viathe X2:reception This counter case that this is sent in it an internal following message the in case that is updated reception response to the preparation of an is received for an inter-frequency of an X2AP:HANDOVER inter-frequency Intra eNB Handover Intra eNB Handover. REQUEST ACKNOWLEDGE intra-eNB This counter is are and when HO: measurement gaps message from the target eNB inof updated following the reception configured for -the UE. inter-eNB HO via X2: This counter case that this message is received an internal message in case that it is updated following the reception in response to-an the preparation of an is received for inter-frequency inter-eNB HO via X2: This counter of an X2AP:UE CONTEXT inter-frequency Inter eNB Intra eNB HO: Handover when is updated following the reception intra eNB Expiration of timer RELEASE message from the target Handover. measurement gaps are configured of an X2AP:HANDOVER THOoverall in case that theInter timer eNB for an inter-frequency for the UE. ACKNOWLEDGE REQUEST was started an intereNB Handover. inter-eNB HObecause -the via target S1:ofThis counter message from eNB in frequency Intra eNB the Handover. is updated following reception inter-eNB HO message - via via X2: X2: Expiration This counter case that this is received inter eNB HO of inter-eNB S1: counter of aneNB S1AP:HANDOVER intra HO: counter is is updated following theThis reception in response to This the preparation of an the timer TX2RELOCoverall (3GPP is updated following the reception COMMAND message fromHandover the of updated following theeNB expiration of an X2AP:UE CONTEXT inter-frequency Inter TS36.423) in case that thethat timer of an S1AP:UE CONTEXT MME in case that this message is timer THOoverall in case the RELEASE message from the target and when measurement gaps are was started because ofmessage an interRELEASE COMMAND received in response to the timer was started because of an eNB for an inter-frequency Inter configured for the UE. frequency Inter eNB Handover. from the MME with the cause value preparation of an inter-frequency inter-frequency Intra eNB Handover eNB Handover when measurement intra HO: inter eNB HO via S1: Expiry of the Radio Network Layer (Successful Inter eNB Handover. when measurement gaps gaps are configured for thewere UE. inter-eNB HO via S1: This counter Internal eNB trigger. At eNB MM guarding timer TS1RELOCoverall Handover) in that this configured forcase the UE. is updated following reception receives ais36.413) list with target cells from (3GPP TS inthe case that the message received for an interinter eNB HO via X2: This counter inter-eNB S1: of an S1AP:HANDOVER RRM and decides to perform an timer was started because of an frequency Inter eNB Handover. expiration is updated following reception COMMAND message from the Intra eNB Handover for IMS inter-frequency Inter the eNB This counter is updated following of the timer TX2RELOCoverall an S1AP:UE CONTEXT MME in case that this message is emergency session. Handover. the transmission ofifan (3GPP TS36.423) the timer was RELEASE message received in COMMAND response toRRC the Connection Reconfiguration started of an interfrom thebecause MME with the cause value preparation of inter-frequency inter eNB HO -an via X2: message (sent by the eNB to the frequency Inter eNB Handover Radio Network Layer (Successful Inter eNB Handover and when Transmission of the a Handover UE), which indicates when measurement gaps were Handover) in case measurement Intra-eNB HO: gaps Thisthat counter are this configured is X2AP:HANDOVER REQUEST Command to the case thisof configured for theUE UE.in message is received for an interfor the UE. updated following the reception message (source eNB -> target message is sent because of a inter eNB HO via S1: This counter frequency Inter eNB Handover an eNB-internal message case eNB; 3GPP TShandover. 36.423) in in case that service-based is updated following expiration when measurement gaps are that this message is the received for a this message prepares an Inter of theHandover guarding timer configured for the UE. successful service-based eNB for an IMSintra-eNB TS1RELOCoverall handover. emergency session.(3GPP TS 36.413) in case that the timer was started because ofS1: an interInter-eNB HO -- via via X2: This counter inter eNB HO frequency Inter eNB Handover is updated following reception Transmission of the the when measurement gaps were of an X2AP:UE CONTEXT S1AP:HANDOVER REQUIRED configured for the eNB UEfrom . -> MME; RELEASE message the target message (source eNB in case that this message is 3GPP TS 36.413) in case that this received a successful servicemessagefor prepares an Inter eNB based inter-eNB handover. Handover for an IMS emergency
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
intra eNB HO: Sum eNB MM receives a list with target cells from RRM. MM or RRM decides not to execute an Intra eNB Intra-eNB HO:Handover for any Sum reason. Trigger Event: Transmission of an RRC:RRCConnectionReconfigurati Inter eNB HO(source via X2:eNB -> UE; on message Trigger Event: 3GPP TS 36.331) in case that this Intra eNB HO: -message Expiry ofis the guardingto timer transmitted Trigger Event: eNB-internal TX2RELOCprep in case that the command ancase Intra-eNB Handover message in that this message timer was started because of for an IMSa emergency session. indicates successful Intra eNB transmission of the Handover for an IMS emergency X2AP:HANDOVER REQUEST Intra-eNB HO HO:via Trigger Inter-eNB X2: Event: session. message (source target Transmission of aneNB -> of Trigger Event: Reception the eNB; 3GPP TS 36.423) for the RRC:RRCConnectionReconfigurati X2AP:HANDOVER REQUEST Inter eNB HO via preparation of(source an X2: Inter eNB on message eNB -> (source UE; ACKNOWLEDGE message Trigger Event: Reception of thethis Handover for an IMS emergency 3GPP TS 36.331) in case that eNB time' target case that this Note: is updated following the reception no longer than expiration value of The case of reestablishment cause message is received for an intraThe Intra-eNB HO: This counter isfrom of an X2AP: UE CONTEXT Tstore_UE_cntxt timer up from HO 'ReconfigFailure' is excluded eNB handover preparation. RRCConnectionReestablishmentRe updated following reception of RELEASE message the target completion. counting. The casethe offrom quest after a failed HO is (source an eNB-internal message eNB in case that this message is For the sequence of Case2 the reestablishment cause 'HOfailure' is Inter-eNB HO -reestablishment via This counter recognized by cell -> target inX2: case that this received for acell) successful load reestablishment request (cause excluded from counting when reis updated following the reception cause 'HOfailure'. message is received forcell an balancing inter-eNB 'HOfailure') received at establishment target Handover. cell is intraof anhandover X2AP: HANDOVER eNB preparation with prepared formessage incoming(source HO HO HO,or asat this REQUEST eNB handover cause Time Critical Inter-eNB HO via S1: This counter source cell is excluded from means HO has been attempted, -> target eNB) in case that this Handover. is the counting. notupdated missed. In case of message isfollowing received for reception an interof an S1AP: UE CONTEXT reestablishment request to cell eNB handover preparation. Inter-eNB HO - via X2: HO, This counter RELEASE COMMAND message prepared for incoming the case is updated following the reception from the MME with cause value of received PCI different from Inter-eNB HO via S1: This counter of an X2AP: HANDOVER Radio Network Layer (Successful source cell following PCI of prepared HO is is updated the reception REQUEST message (source eNB Handover) in case that this excluded from counting. of an S1AP: HANDOVER -> target eNB) in case that this message is received for a In the source cell of missed HO REQUEST message (MME ->
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Intra-eNB HO: This counter is updated following the reception of an eNB-internal message (source cell -> target cell) in case that this message received for an intraIntra-eNB is HO: This counter is eNB handover preparation with of updated following the reception handover cause message Handover(source an eNB-internal desirable for Radio cell -> target cell) inReasons. case that this
Sum
message is receivedcounter for an intraIntra-eNB HO: is Inter-eNB HO -This via X2: Thiswith counter eNB handover preparation updated following the reception of is updated following the reception handover cause message Reduce Load in anan eNB-internal (source of X2AP: HANDOVER Serving Cell. cell) in case that this cell -> target REQUEST message (source eNB message is received for an intra-> target eNB) case that Intra-eNB HO HO: This counter is Inter-eNB -in via X2: Thisthis counter eNB handover preparation message is received for an with interupdated following thethe transmission is updated following reception handover causepreparation Resource eNB of anhandover eNB-internal messagewith (target X2AP: HANDOVER Optimization Handover. handover cause Handover cell -> source cell) in thateNB this REQUEST message case (source desirable for Radio Reasons. message is sent for a successful -> target eNB) case that Intra-eNB HO: This counter is Inter-eNB HO -in via X2: Thisthis counter handover preparation. message is received for an interupdated following the transmission is updatedHO following theThis reception Inter-eNB via S1: counter eNB preparation with of anhandover eNB-internal message (target X2AP: HANDOVER is updated following the reception Inter-eNB HO cell) - via X2: This counter handover cause Reduce Load in cell -> source in case that this REQUEST message (source eNB of an S1AP: HANDOVER is updated following the Serving Cell. message is sent for a successful -> target eNB) in case that this REQUEST message (MME -> Intra-eNB HO:ofThis counter is transmission an X2AP: handover preparation with message is received for an intertarget eNB) in case that this updated following the transmission HANDOVER REQUEST Inter-eNB HO -preparation via S1: This counter handover cause Time Critical eNB handover message is received for an with interof an eNB-internal message (target ACKNOWLEDGE message (target is updated following the reception Handover. handover cause Resource eNB preparation with cell ->handover source cell) in in case that this eNB -> source eNB) case that of an S1AP: HANDOVER Optimization Handover. handover cause Handover message is sent for a successful this message is sent for a -> REQUEST message (MME Intra-eNB HO: counter is Inter-eNB HO -This via X2: This counter desirable for Radio Reasons. handover preparation with successful inter-eNB handover target eNB) in case that this updated following the transmission is updated following the Inter-eNB HO via S1: This counter handover cause Handover preparation. message is received for reception an interof an eNB-internal message (target transmission of an X2AP: is updated following the desirable for Radio Reasons. eNB handover preparation with cell -> source cell) in case that this HANDOVER REQUEST of an S1AP: HANDOVER Inter-eNB HO - via S1: This counter handover cause Reduce Load in message is sent for a successful ACKNOWLEDGE message (target REQUEST message (MME Intra-eNB HO: counter is Inter-eNB HO -This via X2: This -> counter is updated following the Serving Cell. handover preparation with eNB ->eNB) source eNB) intransmission case that target in case that this updated following the is updated following the transmission of an S1AP: handover cause Reduce Load in this message is sent for a message is received an interof an eNB-internal transmission of an message X2AP: (target HANDOVER REQUEST Serving Cell. successful inter-eNB handover eNB preparation with cell ->handover source cell) in case that this HANDOVER REQUEST ACKNOWLEDGE message (target preparation with handover cause handover cause Resource message is sent for a successful ACKNOWLEDGE message (target eNB -> MME) case that Intra-eNB HO: This counter is Inter-eNB HOHandover. -in via X2: Thisthis counter Time Critical Optimization handover preparation with eNB -> source eNB) in case that message is sent for a successful updated following the transmission is updatedcause following the handover Resource this message is sent for a inter-eNB handover preparation. of an eNB-internal (target transmission of- via an message X2AP: Inter-eNB HO S1: This counter Optimization Handover. successful inter-eNB handover cell -> source cell) in case that this HANDOVER REQUEST is updated following the cause preparation with handover Inter-RAT HO: This counter is message is sent for a handover ACKNOWLEDGE message (target transmission of-This an S1AP: Intra-eNB HO: counter is Inter-eNB HO via X2: This counter Handover desirable for Radio updated following the preparation failure with failure eNB -> source eNB) intransmission case that HANDOVER REQUEST updated following the transmission is updated following the Reasons. of anmessage S1AP: HANDOVER cause No Radio Resources this is sent for a ACKNOWLEDGE message (target of an eNB-internal (target transmission of an message X2AP: REQUEST ACKNOWLEDGE Available Ininter-eNB Target Cell. successful handover eNB ->source MME) invia case that this cell -> cell) in case that this HANDOVER REQUEST Inter-eNB HO S1: This counter message (target eNB -> MME) in preparation with handover cause successful message is sent for a handover ACKNOWLEDGE message (target is updated following theThis #N/A case that this message is sent for a Inter-eNB HO via X2: counter Reduce Load in Serving Cell. inter-eNB handover preparation preparation failure failurethat eNB -> source in case transmission ofeNB) an with S1AP: successful inter-RAT handover is updated following the with handover Time cause Transport Resources this message iscause sent for a Critical HANDOVER REQUEST preparation. transmission of an X2AP: Inter-eNB HO - via S1: This counter Handover. Unavailable. successful inter-eNB handover ACKNOWLEDGE message (target HANDOVER PREPARATION is updated following the preparation with handover cause eNB -> MME) in case that this FAILURE message (target eNB -> transmission of- via an S1AP: #N/A Inter-eNB HO This counter Resource Optimization Handover. message is sent forX2: athat successful source eNB) in case this HANDOVER REQUEST is updatedhandover following preparation the inter-eNB message is sent formessage an inter-eNB ACKNOWLEDGE (target transmission of an X2AP: Inter-eNB HO via S1: This counter with handover cause Handover handover preparation failure with eNB -> MME) in case that this HANDOVER PREPARATION is updated following theResources desirable for Radio Reasons. failure cause No Radio message is sent for a successful FAILURE message (target eNB -> transmission of an S1AP: Available In Target Cell. inter-eNB handover preparation source eNB) in case that this HANDOVER REQUEST with handover cause Reduce Load message is sent for an inter-eNB ACKNOWLEDGE message (target Inter-eNB HO - via S1:failure This counter in Serving Cell. handover preparation with eNB -> MME) in casethe that this is updated following failure cause Transport Resources message is sent for a successful transmission of an S1AP: Unavailable. inter-eNB handover preparation HANDOVER FAILURE message with handover Resource (target eNB -> -cause MME) casecounter that Inter-eNB HO via S1:inThis Optimization Handover. this message is sent for an interis updated following the eNB handover transmission ofpreparation an S1AP: failure with failure cause No Radio
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Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
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Sum
Transmission of X2AP: X2 SETUP REQUEST message to the neighbor eNB (3GPP TS 36.423)
Sum
Reception of X2AP: X2 SETUP FAILURE message or expiration of Timer (wait for X2 SETUP RESPONSE) -This (3GPP TS 36.423) counter is updated when a
Sum
Sum
PDCP SDU is received from a UE assigned to QCI Counter Group 1. This counter is updated when a PDCP SDU is received from a UE assigned to QCI Counter Group 2.
Sum
This counter is updated when a PDCP SDU is received from a UE assigned to QCI Counter Group 3.
Sum
This counter is updated when a PDCP SDU is received from a UE assigned to QCI Counter Group 4.
Sum
This counter is updated when a PDCP SDU is received from a UE assigned to QCI Counter Group 5.
Sum
This counter is updated when a PDCP SDU is received from a UE assigned to QCI Counter Group 6.
Sum
This counter is updated when a PDCP SDU is transmitted towards a UE assigned to QCI Counter Group 1.
Sum
This counter is updated when a PDCP SDU is transmitted towards a UE assigned to QCI Counter Group 2.
Sum
This counter is updated when a PDCP SDU is transmitted towards a UE assigned to QCI Counter Group 3.
Sum
This counter is updated when a PDCP SDU is transmitted towards a UE assigned to QCI Counter Group 4.
Sum
This counter is updated when a PDCP SDU is transmitted towards a UE assigned to QCI Counter Group 5.
Sum
This counter is updated when a PDCP SDU is transmitted towards a UE assigned to QCI Counter Group 6.
Sum
The average of samples taken from Average the number of active UEs, having one SRB and at least one DRB established. The SPID assigned to the has toofbesamples mappedtaken to from Average TheUE average Mobility Profile 1 according to the the number of active UEs, having SPID Mapping Table. one SRB and at least one DRB established. The SPID assigned to the has toofbesamples mappedtaken to from Average TheUE average Mobility Profile 2 according to the the number of active UEs, having SPID Mapping Table. one SRB and at least one DRB established. The SPID assigned to the has toofbesamples mappedtaken to from Average TheUE average Mobility Profile 3 according to the the number of active UEs, having SPID Mapping Table. one SRB and at least one DRB established. The SPID assigned to the has toofbesamples mappedtaken to from Average TheUE average Mobility Profile 4 according to the the number of active UEs, having SPID Mapping Table. one SRB and at least one DRB established. The SPID assigned to the has toofbesamples mappedtaken to from Average TheUE average Mobility Profile 5 according to the the number of active UEs, having SPID Mapping Table. one SRB and at least one DRB established. The SPID assigned to the has toofbesamples mappedtaken to from Average TheUE average Mobility Profile 6 according to the the number of active UEs, having SPID Mapping Table. one SRB and at least one DRB established. The SPID assigned to the has toofbesamples mappedtaken to from Average TheUE average Mobility Profile 7 according to the the number of active UEs, having SPID Mapping Table. one SRB and at least one DRB established. The SPID assigned to the has toofbesamples mappedtaken to from Average TheUE average Mobility Profile 8 according to the the number of active UEs, having SPID Mapping Table. one SRB and at least one DRB established. The Default Mobility Profile is assigned to the UE The arithmetical average of when Average either an SPID value is not samples taken from the number of assigned to having the UE one or when active UEs, SRBthe and at SPID cannot be mapped to any of least one DRB established. At least the 16 dedicated Mobility profiles. the operator-specific QCI of one DRB has to be assigned to the Counter Group 1 according to the QCI Translation Table.
The arithmetical average of Average samples taken from the number of active UEs, having one SRB and at least one DRB established. At least the QCI of of one Theoperator-specific arithmetical average Average DRB has to be assigned to the of samples taken from the number Counter Group 2 according theat active UEs, having one SRBtoand QCI Translation Table. least one DRB established. At least the QCI of of one Theoperator-specific arithmetical average Average DRB has to be assigned to the of samples taken from the number Counter Group 3 according theat active UEs, having one SRBtoand QCI Translation Table. least one DRB established. At least the QCI of of one Theoperator-specific arithmetical average Average DRB has to be assigned to the of samples taken from the number Counter Group 4 according theat active UEs, having one SRBtoand QCI Translation Table. least one DRB established. At least the QCI of of one Theoperator-specific arithmetical average Average DRB has to be assigned to the of samples taken from the number Counter Group 5 according theat active UEs, having one SRBtoand QCI Translation Table. least one DRB established. At least the QCI of one Thisoperator-specific counter is incremented if the Sum DRB has to be assigned the operator-specific QCIs ofto the DRBs Counter according to the for a UE Group do not 6share the same QCI Translation Table. QCI Counter Group that is when a unique assignment of a UE The arithmetical average of context Average to a QCI Counter Group is not of samples taken from the number possible. active UEs, having one SRB and at least one DRB established. The SPID assigned toaverage the UE of has to be Average The arithmetical mapped to Mobility Profile 9 samples taken from the number of according to the SPID Mapping active UEs, having one SRB and at Table. least one DRB established. The SPID assigned toaverage the UE of has to be Average The arithmetical mapped to Mobility Profile 10 of samples taken from the number according to the SPID Mapping active UEs, having one SRB and at Table. least one DRB established. The SPID assigned toaverage the UE of has to be Average The arithmetical mapped to Mobility Profile 11 samples taken from the number of according to the SPID Mapping active UEs, having one SRB and at Table. least one DRB established. The SPID assigned toaverage the UE of has to be Average The arithmetical mapped to Mobility Profile 12 of samples taken from the number according to the SPID Mapping active UEs, having one SRB and at Table. least one DRB established. The SPID assigned toaverage the UE of has to be Average The arithmetical mapped to Mobility Profile 13 of samples taken from the number according to the SPID Mapping active UEs, having one SRB and at Table. least one DRB established. The SPID assigned to the UE has to be mapped to Mobility Profile 14 according to the SPID Mapping Table.
The arithmetical average of Average samples taken from the number of active UEs, having one SRB and at least one DRB established. The SPID assigned toaverage the UE of has to be Average The arithmetical mapped to Mobility Profile 15 of samples taken from the number according to the SPID Mapping active UEs, having one SRB and at Table. least one DRB established. The SPID assigned to the UEfollowing has to be Sum This counter is updated mapped to Mobility Profile 16 the transmission of an according to the SPID Mapping RRC:HandoverFromEUTRAPrepar Table. ationRequest message by the eNB to thecounter UE (3GPP TS 36.331) in This is updated following Sum case that this message is sent to the expiration of the guarding timer prepare a Inter System Handover TUlHoPrepTransferHrpd in case to eHRPD. that this timer was started because of a Inter System Handover This counter is updated following Sum preparation to eHRPD. the expiration of the guarding timer TC2KRelocPrepHrpd in case that this timer was started because of a Inter System is Handover This counter updated preparation following Sum to eHRPD. the reception of an S1AP:DOWNLINK S1 CDMA2000 TUNNELING (3GPP TS 36.413) message by the eNB from the MME Sum This counter is updated following in case that this message indicates the reception of an a failed Handover preparation to S1AP:DOWNLINK S1 CDMA2000 eHRPD (CDMA2000 HO Status TUNNELING (3GPP TS 36.413) is set to HO by Failure). message the eNB from the MME Sum This counter is updated following in case that this message indicates the transmission of an a successful Handover preparation RRC:MobilityFromEUTRAComman to eHRPD (CDMA2000 HO Status d message by the eNB to the UE is set to HO Success). (3GPP TS 36.331) in case that this Sum This counter is updated following message is sent for a Inter System the expiration of the guarding timer Handover to eHRPD. TC2KRelocOverallHRPD in case that this timer was started because of a Inter System Handover to This counter is updated following Sum eHRPD. the reception of an S1AP:UE CONTEXT RELEASE COMMAND message by the eNB from the MME (3GPP TS 36.413) with cause The counter is updated when avalue Sum Radio Network Layer (Successful missing UL PDCP sequence Handover) in case that this number is detected. message is received for a Inter System Handover to eHRPD. The counter is updated when a Sum missing UL PDCP sequence number is detected.
The counter is updated when a missing UL PDCP sequence number is detected.
Sum
The counter is updated when a missing UL PDCP sequence number is detected.
Sum
The counter is updated when a missing UL PDCP sequence number is detected.
Sum
The counter is updated when a part of that PDCP SDU has been transmitted over the air but not positively acknowledged, and it was decided that is noupdated more transmission The counter when a part attempts will be done. of that PDCP SDU has been If the transmission a packet transmitted over theofair but not might positively acknowledged, and it was continue in another cell, it shall not decided that noupdated more transmission The counter is when part be included in this count. (HO acase) attempts will be done. of that PDCP SDU has been If the transmission a packet transmitted over theofair but not might positively acknowledged, and it was continue in another cell, it shall not decided that noupdated more transmission The counter is when part be included in this count. (HO acase) attempts will be done. of that PDCP SDU has been If the transmission a packet transmitted over theofair but not might positively acknowledged, and it was continue in another cell, it shall not decided that noupdated more transmission The counter is when part be included in this count. (HO acase) attempts will be done. of that PDCP SDU has been If the transmission a packet transmitted over theofair but not might positively acknowledged, and it was continue in another cell, it shall not decided that no more transmission This counter isthis updated when be included in count. (HO a case) attempts willofbea done. PDCP SDU QCI 5 bearer is If thetotransmission of a packet sent the UE. might continue in another cell, it shall not This counterinisthis updated be included count.when (HO a case) PDCP SDU of a QCI 6 bearer is sent to the UE.
Sum
This counter is updated when a PDCP SDU of a QCI 7 bearer is sent to the UE.
Sum
This counter is updated when a PDCP SDU of a QCI 8 bearer is sent to the UE.
Sum
Sum
Sum
Sum
Sum
Sum
Sum
This counter is updated when a PDCP SDU of a QCI 9 bearer is sent to the UE.
Sum
This counter is updated when a PDCP SDU for a QCI 5 bearer is delivered to higher layers.
Sum
This counter is updated when a PDCP SDU for a QCI 6 bearer is delivered to higher layers.
Sum
This counter is updated when a PDCP SDU for a QCI 7 bearer is delivered to higher layers.
Sum
This counter is updated when a PDCP SDU for a QCI 8 bearer is delivered to higher layers.
Sum
This counter is updated when a PDCP SDU for a QCI 9 bearer is delivered to higher layers.
Sum
The counter is incremented when the eNB received feedback (ACK/NACK) from the UE for an HARQ transmission of QCI 1 data. Round trip times for PDCP SDUs The counter is incremented when (or parts thereof), which could not the eNB received feedback be completelyfrom sent,the must (ACK/NACK) UEnot for be an included in the calculation. HARQ transmission of QCI 2 data.
Average
Average
Round trip times for PDCP SDUs The counter is incremented when Average (or parts thereof), which could not the eNB received feedback be completelyfrom sent,the must (ACK/NACK) UEnot for be an included in the calculation. HARQ transmission of QCI 3 data. Round trip times for PDCP SDUs The counter is incremented when (or parts thereof), which could not the eNB received feedback be completelyfrom sent,the must (ACK/NACK) UEnot for be an included in the calculation. HARQ transmission of QCI 4 data.
Average
Round trip times for PDCP SDUs The counter is incremented when (or parts thereof), which could not the eNB received feedback be completelyfrom sent,the must (ACK/NACK) UEnot for be an included in the calculation. HARQ transmission of QCI 5 data.
Average
Round trip times for PDCP SDUs The counter is incremented when (or parts thereof), which could not the eNB received feedback be completelyfrom sent,the must (ACK/NACK) UEnot for be an included in the calculation. HARQ transmission of QCI 6 data.
Average
Round trip times for PDCP SDUs (or parts thereof), which could not be completely sent, must not be included in the calculation.
The counter is incremented when the eNB received feedback (ACK/NACK) from the UE for an HARQ transmission of QCI 7 data. Round trip times for PDCP SDUs The counter is incremented when (or parts thereof), which could not the eNB received feedback be completelyfrom sent,the must (ACK/NACK) UEnot for be an included in the calculation. HARQ transmission of QCI 8 data.
Average
Round trip times for PDCP SDUs The counter is incremented when (or parts thereof), which could not the eNB received feedback be completelyfrom sent,the must (ACK/NACK) UEnot for be an included in the calculation. HARQ transmission of QCI 9 data.
Average
Round trip times for PDCP SDUs The counter is updated when a (or parts thereof), which could missing UL PDCP sequence not be completely sent, must not be number is detected. included in the calculation.
Sum
The counter is updated when a missing UL PDCP sequence number is detected.
Sum
The counter is updated when a missing UL PDCP sequence number is detected.
Sum
The counter is updated when a missing UL PDCP sequence number is detected.
Sum
The counter is updated when a missing UL PDCP sequence number is detected.
Sum
The counter is updated when a part of that PDCP SDU has been transmitted over the air but not positively acknowledged, and it was decided that is noupdated more transmission The counter when a part attempts will be done. of that PDCP SDU has been If the transmission a packet transmitted over theofair but not might positively acknowledged, and it was continue in another cell, it shall not decided that noupdated more transmission The counter is when part be included in this count. (HO acase) attempts will be done. of that PDCP SDU has been If the transmission a packet transmitted over theofair but not might positively acknowledged, and it was continue in another cell, it shall not decided that noupdated more transmission Theincluded counter is when part be in this count. (HO acase) attempts will be done. of that PDCP SDU has been If the transmission a packet transmitted over theofair but not might positively acknowledged, and it was continue in another cell, it shall not decided that no more transmission be included in this count. (HO case) attempts will be done.
Sum
If the transmission of a packet might continue in another cell, it shall not be included in this count. (HO case)
Average
Sum
Sum
Sum
The counter is updated when a part of that PDCP SDU has been transmitted over the air but not positively acknowledged, and it was decided no more transmission Intra-eNBthat HO: attempts will done. of eNBTrigger Event:beSending If the transmission a packet internal message inofcase that this might message indicates the start of a continue in another cell, it shall not RLF-triggered Handover Intra-eNB HO: be included in this count. (HO case) Preparation procedure asof a result Trigger Event: Reception eNBof a previously received internal message in caseRLF that this indication. message indicates the successful outcome the RLF-triggered Intra-eNBofHO HO: Inter-eNB via X2: procedure. Handover Preparation Reception eNBTrigger Event: Sending ofof the internal message in REQUEST case that this X2AP:HANDOVER Inter-eNB HO via X2: message indicates the successful to theReception requesting Trigger Event: ofeNB the to outcome of the RLF-triggered start a RLF-triggered Handover Intra-eNB HO: X2AP:HANDOVER REQUEST Handover. Preparation procedure asmessage a result Sending of eNB-internal ACKNOWLEDGE message from of a previously received X2AP:RLF in case that thiseNB message indicates the requesting as a result of a Inter-eNB HOmessage via X2: INDICATION the RLF Indication afterfrom the the RLF-triggered Handover Trigger Event: Reception of the requesting eNB. suspension of the RRC Connection Preparation. Intra-eNB CONTEXT HO: X2AP:UE RELEASE Reestablishment procedure. Trigger Event: of eNBmessage from Sending the requesting eNB internal message in case that this in case that this message indicates inter-eNB HO via X2: message indicates the successful the successful outcome of the Trigger Event: Sending of as RLFallocation of the UE context triggered Handover. Expiration of the guard timer forathe X2AP:RLF INDICATION message result of a successful RLF-triggered UE context retrieval during to the serving eNB after theRLFHandover Preparation. triggered Handover procedure suspension of the RRC Connection (T301). As a resultprocedure. the pending Reestablishment inter-eNB HO via Reestablishment X2: RRC Connection In case that multiple This counter isSending set atX2AP:RLF theofend of the Trigger Event: procedure fails. INDICATION messages measurement periodREQUEST withare thesent, value X2AP:HANDOVER for example, because the original of the parameter "LNCELACKNOWLEDGE message after serving eNB cannot be defined expectedCellSize". the allocation of the UE context at uniquely, the counter the requesting eNB asisaupdated result The counter is updated on the of a only once. RLF-triggered Handover successful following events: Preparation. 1. on random access response it is incremented by 1 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA or TA command) for a UE, which was in the counter's range d
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Current
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The counter is updated on the following events: 1. on random access response it is incremented by 1 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA or TA command) for a UE, which was in the counter's range d
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Sum
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The counter is updated on the following events: 1. on random access response it is incremented by 1 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d. 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. on TA command by the time difference (in seconds) to the last counter update (either initial TA or TA command) for a UE, which was in the counter's range d
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The counter is updated on the following events: 1. on random access response it is incremented by 1 2. oncounter TA command by the The is updated ontime the difference (in seconds) to the last following events: counter updateaccess (eitherresponse initial TA itoris 1. on random TA command) for a UE, which was incremented by 1 in the counter's range d 2. oncounter TA command by the timethe The is updated when difference (in seconds) to the last eNB receives the msg3 in case of a counter update (either initial TA or contention-based RACH procedure TA for a UE, which was for command) UL data arrival. in the counter's range d The counter is updated when the eNB receives the msg3 in case of any kind of contention-based RACH procedure.
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#N/A
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#N/A
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#N/A
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#N/A
Average
#N/A
Sum
#N/A
Sum
#N/A
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#N/A
Sum
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#N/A
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 1 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 1 downlink SINR each one is greater and thanthe or equal post-compensation bin is to This measurement is or updated for -10 dB and less than equal to -8 incremented every sample each UE range every TTI by usingperiod the (5 dB. PRB of subband 1 seconds) the subband respective UE's mostwith recent CQI to according to frequency: number of calculated values where calculate Subband 1 downlink SINR 3 MHz and 5 MHz refers to each one is greater and thanthe -8 PRB#0 dB and post-compensation bin is to PRB#3 This measurement is-6 updated for less than or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#0 to PRB#5 each UE every TTI1by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#0 to PRB#7 calculate Subband 1 downlink SINR 3 MHzone and 5greater MHz refers to PRB#0 each is than -6 dB and post-compensation and the bin is to PRB#3 This than measurement is-4 updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#0 to PRB#5 each UE every TTI1by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1 downlink SINR 3 MHzone andis5greater MHz refers to PRB#0 each thanthe -4 dB and post-compensation and bin is to PRB#3 This measurement is-2 updated for less than or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#0 to PRB#5 each UE every TTI1by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#0 to PRB#7 calculate Subband 1 downlink SINR 3 MHzone and 5greater MHz refers to PRB#0 each is than -2 dB and post-compensation and the bin is to PRB#3 This than measurement is0updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#0 to PRB#5 each UE every TTI1by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1 downlink SINR 3 MHzone andis5greater MHz refers todB PRB#0 each thanthe 0 and post-compensation and bin is to PRB#3 This measurement is2updated for less than or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#0 to PRB#5 each UE every TTI1by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#0 to PRB#7 calculate Subband 1 downlink SINR 3 MHzone and 5greater MHz refers todB PRB#0 each is than 2 and post-compensation and the bin is to PRB#3 This than measurement is4updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#0 to PRB#5 each UE every TTI1by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1 downlink SINR 3 MHzone andis5greater MHz refers todB PRB#0 each thanthe 4 and post-compensation and bin is to PRB#3 This measurement is6updated for less than or equal to dB. PRB incremented every sample period 10 MHz PRB#0 to PRB#5 each UE everyto TTI using theto (5 range of refers subband 1by according seconds) with the respective 15 MHz and 20 MHz refers to UE's most recent subband CQI to frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1 downlink SINR 3 MHz and 5greater MHz refers todB PRB#0 each one is than 6 and post-compensation and the bin is to PRB#3 This than measurement is8updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#0 to PRB#5 each UE every TTI1by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#0 to PRB#7 calculate Subband 1 downlink SINR 3 MHzone and 5greater MHz refers todB PRB#0 each is than 8 post-compensation and the binand is to PRB#3 less than or equal to 10 dB.period PRB (5 incremented every sample 10 MHz to PRB#0 to PRB#5 range of refers subband 1 according to seconds) with20the respective 15 MHz and MHz refers to frequency: number of PRB#7 calculated values where PRB#0 to 3 MHzone and MHz refers to PRB#0 each is5greater than 10 dB and to PRB#3 less than or equal to 12 dB. PRB 10 MHz to PRB#0 to PRB#5 range of refers subband 1 according to 15 MHz and 20 MHz refers to frequency: PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0 to PRB#3
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 1 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 1 downlink SINR each one is greater and thanthe 12 bin dB and post-compensation is This measurement is14 updated for less than or equal to db.period PRB incremented every sample each UE every TTI1by using theto (5 range of subband according seconds) with the respective UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 1 downlink SINR 3 MHz and 5greater MHz refers to PRB#0 each one is than 14 dB and post-compensation and the bin is to PRB#3 This than measurement is16 updated for less or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#0 to PRB#5 each UE every TTI1by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers CQI to to UE's most recent subband frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1 downlink SINR 3 MHzone andis5greater MHz refers to PRB#0 each thanthe 16 dB and post-compensation and bin is to PRB#3 This measurement is18 updated for less than or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#0 to PRB#5 each UE every TTI1by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#0 to PRB#7 calculate Subband 1 downlink SINR 3 MHzone and 5greater MHz refers to PRB#0 each is than 18 dB and post-compensation and the bin is to PRB#3 This than measurement is20 updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#0 to PRB#5 each UE every TTI1by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1 downlink SINR 3 MHzone andis5greater MHz refers to PRB#0 each thanthe 20 dB and post-compensation and bin is to PRB#3 This measurement is22 updated for less than or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#0 to PRB#5 each UE every TTI1by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#0 to PRB#7 calculate Subband 1 downlink SINR 3 MHzone and 5greater MHz refers to PRB#0 each is than 22 dB and post-compensation and the bin is to PRB#3 This than measurement is24 updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#0 to PRB#5 each UE every TTI1by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1 downlink SINR 3 MHzone andis5greater MHz refers to PRB#0 each thanthe 24 dB and post-compensation and bin is to PRB#3 This measurement is26 updated for less than or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#0 to PRB#5 each UE every TTI1by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#0 to PRB#7 calculate Subband 1 downlink SINR 3 MHzone and 5greater MHz refers to PRB#0 each is than 26 dB and post-compensation and the bin is to PRB#3 This than measurement is28 updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#0 to PRB#5 each UE every TTI1by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 2 downlink SINR 3 MHzone andis5greater MHz refers to PRB#0 each thanthe 28 dB and post-compensation and bin is to PRB#3 This measurement is30 updated for less than or equal to dB.period PRB incremented every sample 10 MHz PRB#0 to PRB#5 each UE everyto TTI using theto (5 range of refers subband 1by according seconds) with the respective 15 MHz and 20 MHz refers to UE's most recent subband CQI to frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 2 downlink SINR 3 MHz and 5greater MHz refers to PRB#0 each one is than or equal post-compensation and the bin is to to PRB#3 ThisdB measurement is or updated for -10 and less than equal to -8 incremented every sample 10 MHz to PRB#0 to period PRB#5 each UErefers every TTI by using the (5 dB. PRB range of subband 2 seconds) with the respective 15 MHz and 20 MHz refers CQI to to UE's most recent subband according to frequency: number of calculated values where PRB#0 to PRB#7 calculate Subband 2 downlink SINR 3 MHzone and 5greater MHz refers to PRB#4 each is than -8 dB post-compensation and the bin and is to PRB#7 less than or equal to -6 dB. period PRB (5 incremented every sample 10 MHz to PRB#6 to PRB#11 range of refers subband 2 according to seconds) with20the respective 15 MHz and MHz refers to frequency: number of PRB#15 calculated values where PRB#8 to 3 MHzone and MHz refers to PRB#4 each is5greater than -6 dB and to PRB#7 less than or equal to -4 dB. PRB 10 MHz to PRB#6 to PRB#11 range of refers subband 2 according to 15 MHz and 20 MHz refers to frequency: PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 to PRB#7
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 2 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 2 downlink SINR each one is greater and thanthe -4 dB and post-compensation bin is This measurement is-2 updated for less than or equal to dB. PRB incremented every sample period each UE every TTI2by using theto (5 range of subband according seconds) with the respective UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 2 downlink SINR 3 MHz and 5greater MHz refers to PRB#4 each one is than -2 dB and post-compensation and the bin is to PRB#7 This than measurement is0updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#6 to PRB#11 each UE every TTI2by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers CQI to to UE's most recent subband frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2 downlink SINR 3 MHzone andis5greater MHz refers todB PRB#4 each thanthe 0 and post-compensation and bin is to PRB#7 This measurement is2updated for less than or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#6 to PRB#11 each UE every TTI2by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#8 to PRB#15 calculate Subband 2 downlink SINR 3 MHzone and 5greater MHz refers todB PRB#4 each is than 2 and post-compensation and the bin is to PRB#7 This than measurement is4updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#6 to PRB#11 each UE every TTI2by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2 downlink SINR 3 MHzone andis5greater MHz refers todB PRB#4 each thanthe 4 and post-compensation and bin is to PRB#7 This measurement is6updated for less than or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#6 to PRB#11 each UE every TTI2by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#8 to PRB#15 calculate Subband 2 downlink SINR 3 MHzone and 5greater MHz refers todB PRB#4 each is than 6 and post-compensation and the bin is to PRB#7 This than measurement is8updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#6 to PRB#11 each UE every TTI2by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2 downlink SINR 3 MHzone andis5greater MHz refers todB PRB#4 each thanthe 8 and post-compensation and bin is to PRB#7 This measurement is10 updated for less than or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#6 to PRB#11 each UE every TTI2by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#8 to PRB#15 calculate Subband 2 downlink SINR 3 MHzone and 5greater MHz refers to PRB#4 each is than 10 dB and post-compensation and the bin is to PRB#7 This than measurement is12 updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#6 to PRB#11 each UE every TTI2by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2 downlink SINR 3 MHzone andis5greater MHz refers to PRB#4 each thanthe 12 dB and post-compensation and bin is to PRB#7 This measurement is14 updated for less than or equal to db.period PRB incremented every sample 10 MHz PRB#6 to PRB#11 each UE everyto TTI using theto (5 range of refers subband 2by according seconds) with the respective 15 MHz and 20 MHz refers to UE's most recent subband CQI to frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2 downlink SINR 3 MHz and 5greater MHz refers to PRB#4 each one is than 14 dB and post-compensation and the bin is to PRB#7 This than measurement is16 updated for less or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#6 to PRB#11 each UE every TTI2by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#8 to PRB#15 calculate Subband 2 downlink SINR 3 MHzone and 5greater MHz refers to PRB#4 each is than 16 dB post-compensation and the bin and is to PRB#7 less than or equal to 18 dB.period PRB (5 incremented every sample 10 MHz to PRB#6 to PRB#11 range of refers subband 2 according to seconds) with20the respective 15 MHz and MHz refers to frequency: number of PRB#15 calculated values where PRB#8 to 3 MHzone and MHz refers to PRB#4 each is5greater than 18 dB and to PRB#7 less than or equal to 20 dB. PRB 10 MHz to PRB#6 to PRB#11 range of refers subband 2 according to 15 MHz and 20 MHz refers to frequency: PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4 to PRB#7
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 2 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 2 downlink SINR each one is greater and thanthe 20 bin dB and post-compensation is This measurement is22 updated for less than or equal to dB.period PRB incremented every sample each UE every TTI2by using theto (5 range of subband according seconds) with the respective UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 2 downlink SINR 3 MHz and 5greater MHz refers to PRB#4 each one is than 22 dB and post-compensation and the bin is to PRB#7 This than measurement is24 updated for less or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#6 to PRB#11 each UE every TTI2by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers CQI to to UE's most recent subband frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2 downlink SINR 3 MHzone andis5greater MHz refers to PRB#4 each thanthe 24 dB and post-compensation and bin is to PRB#7 This measurement is26 updated for less than or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#6 to PRB#11 each UE every TTI2by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#8 to PRB#15 calculate Subband 2 downlink SINR 3 MHzone and 5greater MHz refers to PRB#4 each is than 26 dB and post-compensation and the bin is to PRB#7 This than measurement is28 updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#6 to PRB#11 each UE every TTI2by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 3 downlink SINR 3 MHzone andis5greater MHz refers to PRB#4 each thanthe 28 dB and post-compensation and bin is to PRB#7 This measurement is30 updated for less than or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#6 to PRB#11 each UE every TTI2by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#8 to PRB#15 calculate Subband 3 downlink SINR 3 MHzone and 5greater MHz refers to PRB#4 each is than or equal post-compensation and the bin is to to PRB#7 ThisdB measurement is or updated for -10 and less than equal to -8 incremented every sample 10 MHz to PRB#6 to period PRB#11 each UErefers every TTI by using the (5 dB. PRB range of subband 3 seconds) with the respective 15 MHz and 20 MHz refers CQI to to UE's most recent subband according to frequency: number of calculated values where PRB#8 to PRB#15 calculate Subband 3 downlink SINR 3 MHzone andis5greater MHz refers to PRB#8 each thanthe -8 dB and post-compensation and bin is to PRB#11 This measurement is-6 updated for less than or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#12 to each UE every TTI3by using theto (5 range of subband according seconds) with the respective PRB#17 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3 downlink SINR 3 MHz 5greater MHz refers to PRB#8 each one is than -6 dB and PRB#16 to PRB#23 post-compensation and the bin is to PRB#11 This than measurement is-4 updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#12 to each UE every TTI3by using theto (5 range of subband according seconds) with the respective PRB#17 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3 downlink SINR 3 MHz 5greater MHz refers to PRB#8 each one is than -4 dB and PRB#16 to PRB#23 post-compensation and the bin is to PRB#11 This measurement is-2 updated for less than or equal to dB. PRB incremented every sample period 10 MHz PRB#12 to theto (5 each UE everyto TTI using range of refers subband 3by according seconds) with the respective PRB#17 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3 downlink SINR 3 MHz 5greater MHz refers to PRB#8 each one is than -2 dB and PRB#16 to PRB#23 post-compensation and the bin is to PRB#11 This than measurement is0updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#12 to each UE every TTI3by using theto (5 range of subband according seconds) with the respective PRB#17 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3 downlink SINR 3 MHz 5greater MHz refers todB PRB#8 each one is than 0 PRB#16 to PRB#23and the post-compensation binand is to PRB#11 less than or equal to 2 dB. PRB incremented every sample period 10 MHz to PRB#12 to to (5 range of refers subband 3 according seconds) with the respective PRB#17 frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers 3 MHz MHz refers todB PRB#8 each onetois5 greater than 2 and PRB#16 PRB#23 to PRB#11 less than or equal to 4 dB. PRB 10 MHz to PRB#12 to to range of refers subband 3 according PRB#17 frequency: 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 PRB#16 to PRB#23 to PRB#11
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 3 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 3 downlink SINR each one is greater and thanthe 4 dB and post-compensation bin is This measurement is6updated for less than or equal to dB. PRB incremented every sample period each UE every TTI3by using theto (5 range of subband according seconds) with the respective UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 3 downlink SINR 3 MHz and 5greater MHz refers todB PRB#8 each one is than 6 and post-compensation and the bin is to PRB#11 This than measurement is8updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#12 to each UE every TTI3by using theto (5 range of subband according seconds) with the respective PRB#17 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3 downlink SINR 3 MHz 5greater MHz refers todB PRB#8 each one is than 8 and PRB#16 to PRB#23 post-compensation and the bin is to PRB#11 This measurement is10 updated for less than or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#12 to each UE every TTI3by using theto (5 range of subband according seconds) with the respective PRB#17 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3 downlink SINR 3 MHz 5greater MHz refers to PRB#8 each one is than 10 dB and PRB#16 to PRB#23 post-compensation and the bin is to PRB#11 This than measurement is12 updated for less or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#12 to each UE every TTI3by using theto (5 range of subband according seconds) with the respective PRB#17 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3 downlink SINR 3 MHz 5greater MHz refers to PRB#8 each one is than 12 dB and PRB#16 to PRB#23 post-compensation and the bin is to PRB#11 This measurement is14 updated for less than or equal to db.period PRB incremented every sample 10 MHz refers to PRB#12 to each UE every TTI3by using theto (5 range of subband according seconds) with the respective PRB#17 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3 downlink SINR 3 MHz 5greater MHz refers to PRB#8 each one is than 14 dB and PRB#16 to PRB#23 post-compensation and the bin is to PRB#11 This than measurement is16 updated for less or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#12 to each UE every TTI3by using theto (5 range of subband according seconds) with the respective PRB#17 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3 downlink SINR 3 MHz 5greater MHz refers to PRB#8 each one is than 16 dB and PRB#16 to PRB#23 post-compensation and the bin is to PRB#11 This measurement is18 updated for less than or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#12 to each UE every TTI3by using theto (5 range of subband according seconds) with the respective PRB#17 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3 downlink SINR 3 MHz 5greater MHz refers to PRB#8 each one is than 18 dB and PRB#16 to PRB#23 post-compensation and the bin is to PRB#11 This than measurement is20 updated for less or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#12 to each UE every TTI3by using theto (5 range of subband according seconds) with the respective PRB#17 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3 downlink SINR 3 MHz 5greater MHz refers to PRB#8 each one is than 20 dB and PRB#16 to PRB#23 post-compensation and the bin is to PRB#11 This measurement is22 updated for less than or equal to dB.period PRB incremented every sample 10 MHz PRB#12 to theto (5 each UE everyto TTI using range of refers subband 3by according seconds) with the respective PRB#17 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3 downlink SINR 3 MHz 5greater MHz refers to PRB#8 each one is than 22 dB and PRB#16 to PRB#23 post-compensation and the bin is to PRB#11 This than measurement is24 updated for less or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#12 to each UE every TTI3by using theto (5 range of subband according seconds) with the respective PRB#17 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3 downlink SINR 3 MHz 5greater MHz refers to PRB#8 each one is than 24 dB and PRB#16 to PRB#23and the post-compensation bin is to PRB#11 less than or equal to 26 dB.period PRB (5 incremented every sample 10 MHz to PRB#12 to to range of refers subband 3 according seconds) with the respective PRB#17 frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers 3 MHz MHz refers to PRB#8 each onetois5 greater than 26 dB and PRB#16 PRB#23 to PRB#11 less than or equal to 28 dB. PRB 10 MHz to PRB#12 to to range of refers subband 3 according PRB#17 frequency: 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 PRB#16 to PRB#23 to PRB#11
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 3 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 4 downlink SINR each one is greater and thanthe 28 bin dB and post-compensation is This measurement is30 updated for less than or equal to dB.period PRB incremented every sample each UE every TTI3by using theto (5 range of subband according seconds) with the respective UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 4 downlink SINR 3 MHz and 5greater MHz refers to PRB#8 each one is than or equal post-compensation and the bin is to to PRB#11 ThisdB measurement is or updated for -10 and less than equal to -8 incremented every sample period 10 MHz to PRB#12 to each UErefers every TTI by using the (5 dB. PRB range of subband 4 seconds) the subband respective PRB#17 UE's mostwith recent CQI to according to frequency: number of calculated valuestowhere 15 MHzrefers and 20 MHz refers calculate Subband 4 downlink SINR 3 MHz to PRB#12 to each onetoisPRB#23 greater and thanthe -8 dB and PRB#16 post-compensation bin is PRB#14 This measurement is-6 updated for less than or equal to dB. PRB incremented every sample period 5 MHz refers to PRB#12 to each UE every TTI4by using theto (5 range of subband according seconds) with the respective PRB#15 UE's most recent subband CQI to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4 downlink 3 MHz totoPRB#12 totodB SINR each one is greater than -6 and PRB#23 post-compensation and the binfor is PRB#14 This measurement is updated less than or equal to -4 dB. PRB 15 MHzrefers and 20 MHz refers to incremented every sample period 5 MHz to PRB#12 to each UE every TTI4by using theto (5 range of subband according PRB#24 to PRB#31 seconds) with the respective PRB#15 UE's most recent subband CQI to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4 downlink 3 MHz totoPRB#12 totodB SINR each one is greater than -4 and PRB#23 post-compensation and the binfor is PRB#14 This measurement is updated less than or equal to -2 dB. PRB 15 MHz and 20 MHz refers to incremented every sample period 5 MHz refers to PRB#12 to each UE every TTI4by using theto (5 range of subband according PRB#24 to PRB#31 seconds) with the respective PRB#15 UE's most recent subband CQI to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4 downlink 3 MHz totoPRB#12 totodB SINR each one is greater than -2 and PRB#23 post-compensation and the binfor is PRB#14 This measurement is updated less than or equal to 0 dB. PRB 15 MHz and 20 MHz refers to incremented every sample period 5 MHz refers to PRB#12 to each UE every TTI4by using theto (5 range of subband according PRB#24 to PRB#31 seconds) with the respective PRB#15 UE's most recent subband CQI to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4 downlink SINR 3 MHz totoPRB#12 toto each one is greater than 0 dB and PRB#23 post-compensation and the bin is PRB#14 This measurement is2refers updated less than or equal to dB. PRB 15 MHz and 20 MHz to for (5 incremented every sample period 5 MHz refers to PRB#12 to each UE every TTI4by using theto range of subband according PRB#24 to PRB#31 seconds) with the subband respective PRB#15 UE's most recent CQI to frequency: number of calculated values 10 MHzrefers refers toPRB#12 PRB#18 to where calculate Subband 4 downlink SINR 3 MHz to to each one is greater and thanthe 2 dB and PRB#23 post-compensation bin is PRB#14 This measurement is4refers updated less than or equal to dB. PRB 15 MHz and 20 MHz to for (5 incremented every sample period 5 MHz refers to PRB#12 to each UE every TTI4by using theto range of subband according PRB#24 to PRB#31 seconds) the subband respective PRB#15 UE's mostwith recent CQI to frequency: number of calculated values 10 MHzrefers refers toPRB#12 PRB#18 to where calculate Subband 4 downlink SINR 3 MHz to to each one is greater and thanthe 4 dB and PRB#23 post-compensation bin is PRB#14 This measurement is6refers updated for less than or equal to dB. PRB 15 MHz and 20 MHz to incremented every sample period 5 MHzUE refers toTTI PRB#12 to theto (5 each every using range of subband 4by according PRB#24 to PRB#31 seconds) with the respective PRB#15 UE's most recent subband CQI to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4 downlink SINR 3 MHz totoPRB#12 toto each one is greater than 6 dB and PRB#23 post-compensation and the bin is PRB#14 This measurement is8refers updated less than or equal to dB. PRB 15 MHz and 20 MHz to for (5 incremented every sample period 5 MHz refers to PRB#12 to each UE every TTI4by using theto range of subband according PRB#24 to PRB#31 seconds) the subband respective PRB#15 UE's mostwith recent CQI to frequency: number of calculated values 10 MHzrefers refers toPRB#12 PRB#18 to where calculate Subband 4 downlink SINR 3 MHz to to each one is greater and thanthe 8 dB PRB#23 post-compensation binand is PRB#14 less thanand or equal to 10 dB.period PRB (5 15 MHz 20 MHz refers to incremented every sample 5 MHzof refers to PRB#12 to range subband 4 according to PRB#24 to PRB#31 seconds) with the respective PRB#15 frequency: number of calculated values where 10 MHzrefers refers PRB#18 3 MHz totoPRB#12 totodB and each one is greater than 10 PRB#23 PRB#14 less thanand or equal to 12 dB.to PRB 15 MHz 20 refers 5 MHz refers to MHz PRB#12 to range of subband 4 according to PRB#24 to PRB#31 PRB#15 frequency: 10 MHzrefers referstotoPRB#12 PRB#18toto 3 MHz PRB#23 PRB#14 15 MHz and 20 MHz refers to
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 4 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 4 downlink SINR each one is greater and thanthe 12 bin dB and post-compensation is This measurement is14 updated for less than or equal to db.period PRB incremented every sample each UE every TTI4by using theto (5 range of subband according seconds) with the respective UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 4 downlink 3 MHz refers to PRB#12 to dBSINR each one is greater than 14 and post-compensation and the binfor is PRB#14 This than measurement is16 updated less or equal to dB. PRB incremented every sample period 5 MHz refers to PRB#12 to each UE every TTI4by using theto (5 range of subband according seconds) with the respective PRB#15 UE's most recent subband CQI to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4 downlink 3 MHz totoPRB#12 totodBSINR each one is greater than 16 and PRB#23 post-compensation and the binfor is PRB#14 This measurement is updated less than or equal to 18 dB. PRB 15 MHz and 20 MHz refers to incremented every sample period 5 MHz refers to PRB#12 to each UE every TTI4by using theto (5 range of subband according PRB#24 to PRB#31 seconds) with the respective PRB#15 UE's most recent subband CQI to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4 downlink 3 MHz totoPRB#12 totodBSINR each one is greater than 18 and PRB#23 post-compensation and the binfor is PRB#14 This measurement is updated less than or equal to 20 dB. PRB 15 MHzrefers and 20 MHz refers to incremented every sample period 5 MHz to PRB#12 to each UE every TTI4by using theto (5 range of subband according PRB#24 to PRB#31 seconds) with the respective PRB#15 UE's most recent subband CQI to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4 downlink 3 MHz totoPRB#12 totodBSINR each one is greater than 20 and PRB#23 post-compensation and the binfor is PRB#14 This measurement is updated less than or equal to 22 dB. PRB 15 MHz and 20 MHz refers to incremented every sample period 5 MHz refers to PRB#12 to each UE every TTI4by using theto (5 range of subband according PRB#24 to PRB#31 seconds) with the respective PRB#15 UE's most recent subband CQI to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4 downlink 3 MHz totoPRB#12 totodBSINR each one is greater than 22 and PRB#23 post-compensation and the binfor is PRB#14 This measurement is updated less than or equal to 24 dB. PRB 15 MHz and 20 MHz refers to incremented every sample period 5 MHz refers to PRB#12 to each UE every TTI4by using theto (5 range of subband according PRB#24 to PRB#31 seconds) with the respective PRB#15 UE's most recent subband CQI to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4 downlink 3 MHz totoPRB#12 totodBSINR each one is greater than 24 and PRB#23 post-compensation and the binfor is PRB#14 This measurement is updated less than or equal to 26 dB. PRB 15 MHz and 20 MHz refers to incremented every sample period 5 MHz refers to PRB#12 to each UE every TTI4by using theto (5 range of subband according PRB#24 to PRB#31 seconds) with the respective PRB#15 UE's most recent subband CQI to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4 downlink 3 MHz totoPRB#12 totodBSINR each one is greater than 26 and PRB#23 post-compensation and the binfor is PRB#14 This measurement is updated less than or equal to 28 dB. PRB 15 MHz and 20 MHz refers to incremented every sample period 5 MHz refers to PRB#12 to each UE every TTI4by using theto (5 range of subband according PRB#24 to PRB#31 seconds) with the respective PRB#15 UE's most recent subband CQI to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 5 downlink 3 MHz totoPRB#12 totodBSINR each one is greater than 28 and PRB#23 post-compensation and the binfor is PRB#14 This measurement is updated less than or equal to 30 dB. PRB 15 MHz and 20 MHz refers to incremented every sample period 5 MHzUE refers toTTI PRB#12 to theto (5 each every using range of subband 4by according PRB#24 to PRB#31 seconds) with the respective PRB#15 UE's most recent subband CQI to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 5 downlink SINR 3 MHz totoPRB#12 totoequal each one is greater than or PRB#23 post-compensation and the bin is to PRB#14 This measurement is refers updated for -10 dB and less than or equal to -8(5 15 MHz and 20 MHz to incremented every sample 5 MHz refers toTTI PRB#12 to period each UE every by using the dB. PRB range of subband 5 PRB#24 to PRB#31 seconds) the subband respective PRB#15 UE's mostwith recent CQI to according to frequency: number of calculated values 10 MHzrefers refers toPRB#16 PRB#18 to where calculate Subband 5 downlink SINR 5 MHz to to each one is greater and thanthe -8 dB PRB#23 post-compensation bin and is PRB#19 less thanand or equal to -6 dB. period PRB (5 15 MHz 20 MHz refers to incremented every sample 10 MHz to PRB#24 to to range of refers subband 5 according PRB#24 to PRB#31 seconds) with the respective PRB#29 frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to dB and each onetoisPRB#39 greater than -6 PRB#32 PRB#19 less than or equal to -4 dB. PRB 10 MHz to PRB#24 to to range of refers subband 5 according PRB#29 frequency: 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to PRB#32 to PRB#39 PRB#19
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 5 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 5 downlink SINR each one is greater and thanthe -4 dB and post-compensation bin is This measurement is-2 updated for less than or equal to dB. PRB incremented every sample period each UE every TTI5by using theto (5 range of subband according seconds) with the respective UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 5 downlink 5 MHz refers to PRB#16 to dB SINR each one is greater than -2 and post-compensation and the binfor is PRB#19 This than measurement is0updated less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#24 to each UE every TTI5by using theto (5 range of subband according seconds) with the respective PRB#29 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5 downlink SINR 5 MHz to MHz PRB#16 todB and each one is greater than 0 PRB#32 to PRB#39 post-compensation and the bin is PRB#19 This measurement is2updated for less than or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#24 to each UE every TTI5by using theto (5 range of subband according seconds) with the respective PRB#29 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5 downlink SINR 5 MHz to MHz PRB#16 todB and each one is greater than 2 PRB#32 to PRB#39 post-compensation and the bin is PRB#19 This than measurement is4updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#24 to each UE every TTI5by using theto (5 range of subband according seconds) with the respective PRB#29 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5 downlink SINR 5 MHz to MHz PRB#16 todB and each one is greater than 4 PRB#32 to PRB#39 post-compensation and the bin is PRB#19 This measurement is6updated for less than or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#24 to each UE every TTI5by using theto (5 range of subband according seconds) with the respective PRB#29 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5 downlink SINR 5 MHz to MHz PRB#16 todB and each one is greater than 6 PRB#32 to PRB#39 post-compensation and the bin is PRB#19 This than measurement is8updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#24 to each UE every TTI5by using theto (5 range of subband according seconds) with the respective PRB#29 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5 downlink SINR 5 MHz to MHz PRB#16 todB and each one is greater than 8 PRB#32 to PRB#39 post-compensation and the bin is PRB#19 This measurement is10 updated for less than or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#24 to each UE every TTI5by using theto (5 range of subband according seconds) with the respective PRB#29 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5 downlink 5 MHz to MHz PRB#16 to dBSINR each one is greater than 10 and PRB#32 to PRB#39 post-compensation and the binfor is PRB#19 This than measurement is12 updated less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#24 to each UE every TTI5by using theto (5 range of subband according seconds) with the respective PRB#29 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5 downlink 5 MHz to MHz PRB#16 to dBSINR each one is greater than 12 and PRB#32 to PRB#39 post-compensation and the binfor is PRB#19 This measurement is14 updated less than or equal to dB. PRB incremented every sample period 10 MHz PRB#24 to theto (5 each UE everyto TTI using range of refers subband 5by according seconds) with the respective PRB#29 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5 downlink 5 MHz to MHz PRB#16 to dBSINR each one is greater than 14 and PRB#32 to PRB#39 post-compensation and the binfor is PRB#19 This than measurement is16 updated less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#24 to each UE every TTI5by using theto (5 range of subband according seconds) with the respective PRB#29 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5 downlink 5 MHz to MHz PRB#16 to dBSINR each one is greater than 16 PRB#32 to PRB#39and the post-compensation bin and is PRB#19 less than or equal to 18 dB. PRB (5 incremented every sample period 10 MHz to PRB#24 to to range of refers subband 5 according seconds) with the respective PRB#29 frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to dB and each onetoisPRB#39 greater than 18 PRB#32 PRB#19 less than or equal to 20 dB. PRB 10 MHz to PRB#24 to to range of refers subband 5 according PRB#29 frequency: 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to PRB#32 to PRB#39 PRB#19
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 5 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 5 downlink SINR each one is greater and thanthe 20 bin dB and post-compensation is This measurement is22 updated for less than or equal to dB.period PRB incremented every sample each UE every TTI5by using theto (5 range of subband according seconds) with the respective UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 5 downlink 5 MHz refers to PRB#16 to dBSINR each one is greater than 22 and post-compensation and the binfor is PRB#19 This than measurement is24 updated less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#24 to each UE every TTI5by using theto (5 range of subband according seconds) with the respective PRB#29 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5 downlink 5 MHz to MHz PRB#16 to dBSINR each one is greater than 24 and PRB#32 to PRB#39 post-compensation and the binfor is PRB#19 This measurement is26 updated less than or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#24 to each UE every TTI5by using theto (5 range of subband according seconds) with the respective PRB#29 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5 downlink 5 MHz to MHz PRB#16 to dBSINR each one is greater than 26 and PRB#32 to PRB#39 post-compensation and the binfor is PRB#19 This than measurement is28 updated less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#24 to each UE every TTI5by using theto (5 range of subband according seconds) with the respective PRB#29 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink 5 MHz to MHz PRB#16 to dBSINR each one is greater than 28 and PRB#32 to PRB#39 post-compensation and the binfor is PRB#19 This measurement is30 updated less than or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#24 to each UE every TTI5by using theto (5 range of subband according seconds) with the respective PRB#29 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink SINR 5 MHz to MHz PRB#16 to equal each one is greater than or PRB#32 to PRB#39 post-compensation and the bin is to PRB#19 ThisdB measurement is or updated for -10 and less than equal to -8 incremented every sample period 10 MHz to PRB#24 to each UErefers every TTI by using the (5 dB. PRB range of subband 6 seconds) the subband respective PRB#29 UE's mostwith recent CQI to according to frequency: number of calculated valuestowhere 15 MHzrefers and 20 MHz refers calculate Subband 6 downlink SINR 5 MHz to PRB#20 to each onetoisPRB#39 greater and thanthe -8 dB and PRB#32 post-compensation bin is PRB#23 This measurement is-6 updated for less than or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#30 to each UE every TTI6by using theto (5 range of subband according seconds) with the respective PRB#35 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink 5 MHz to MHz PRB#20 to dB SINR each one is greater than -6 and PRB#40 to PRB#47 post-compensation and the binfor is PRB#23 This than measurement is-4 updated less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#30 to each UE every TTI6by using theto (5 range of subband according seconds) with the respective PRB#35 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink 5 MHz to MHz PRB#20 to dB SINR each one is greater than -4 and PRB#40 to PRB#47 post-compensation and the binfor is PRB#23 This measurement is-2 updated less than or equal to dB. PRB incremented every sample period 10 MHz PRB#30 to theto (5 each UE everyto TTI using range of refers subband 6by according seconds) with the respective PRB#35 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink 5 MHz to MHz PRB#20 to dB SINR each one is greater than -2 and PRB#40 to PRB#47 post-compensation and the binfor is PRB#23 This than measurement is0updated less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#30 to each UE every TTI6by using theto (5 range of subband according seconds) with the respective PRB#35 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink SINR 5 MHz to MHz PRB#20 todB and each one is greater than 0 PRB#40 to PRB#47and the post-compensation bin is PRB#23 less than or equal to 2 dB. PRB incremented every sample period (5 10 MHz refers to PRB#30 to range of subband 6 according seconds) with the respective to PRB#35 frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 todB and each onetoisPRB#47 greater than 2 PRB#40 PRB#23 less than or equal to 4 dB. PRB 10 MHz to PRB#30 to to range of refers subband 6 according PRB#35 frequency: 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to PRB#40 to PRB#47 PRB#23
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 6 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 6 downlink SINR each one is greater and thanthe 4 dB and post-compensation bin is This measurement is6updated for less than or equal to dB. PRB incremented every sample period each UE every TTI6by using theto (5 range of subband according seconds) with the respective UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 6 downlink SINR 5 MHz refers to PRB#20 todB and each one is greater than 6 post-compensation and the bin is PRB#23 This than measurement is8updated for less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#30 to each UE every TTI6by using theto (5 range of subband according seconds) with the respective PRB#35 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink SINR 5 MHz to MHz PRB#20 todB and each one is greater than 8 PRB#40 to PRB#47 post-compensation and the bin is PRB#23 This measurement is10 updated for less than or equal to dB.period PRB incremented every sample 10 MHz refers to PRB#30 to each UE every TTI6by using theto (5 range of subband according seconds) with the respective PRB#35 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink 5 MHz to MHz PRB#20 to dBSINR each one is greater than 10 and PRB#40 to PRB#47 post-compensation and the binfor is PRB#23 This than measurement is12 updated less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#30 to each UE every TTI6by using theto (5 range of subband according seconds) with the respective PRB#35 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink 5 MHz to MHz PRB#20 to dBSINR each one is greater than 12 and PRB#40 to PRB#47 post-compensation and the binfor is PRB#23 This measurement is14 updated less than or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#30 to each UE every TTI6by using theto (5 range of subband according seconds) with the respective PRB#35 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink 5 MHz to MHz PRB#20 to dBSINR each one is greater than 14 and PRB#40 to PRB#47 post-compensation and the binfor is PRB#23 This than measurement is16 updated less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#30 to each UE every TTI6by using theto (5 range of subband according seconds) with the respective PRB#35 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink 5 MHz to MHz PRB#20 to dBSINR each one is greater than 16 and PRB#40 to PRB#47 post-compensation and the binfor is PRB#23 This measurement is18 updated less than or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#30 to each UE every TTI6by using theto (5 range of subband according seconds) with the respective PRB#35 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink 5 MHz to MHz PRB#20 to dBSINR each one is greater than 18 and PRB#40 to PRB#47 post-compensation and the binfor is PRB#23 This than measurement is20 updated less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#30 to each UE every TTI6by using theto (5 range of subband according seconds) with the respective PRB#35 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink 5 MHz to MHz PRB#20 to dBSINR each one is greater than 20 and PRB#40 to PRB#47 post-compensation and the binfor is PRB#23 This measurement is22 updated less than or equal to dB. PRB incremented every sample period 10 MHz PRB#30 to theto (5 each UE everyto TTI using range of refers subband 6by according seconds) with the respective PRB#35 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink 5 MHz to MHz PRB#20 to dBSINR each one is greater than 22 and PRB#40 to PRB#47 post-compensation and the binfor is PRB#23 This than measurement is24 updated less or equal to dB. PRB incremented every sample period 10 MHz refers to PRB#30 to each UE every TTI6by using theto (5 range of subband according seconds) with the respective PRB#35 UE's most recent subband CQI to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink 5 MHz to MHz PRB#20 to dBSINR each one is greater than 24 PRB#40 to PRB#47and the post-compensation bin and is PRB#23 less than or equal to 26 dB. PRB (5 incremented every sample period 10 MHz to PRB#30 to to range of refers subband 6 according seconds) with the respective PRB#35 frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to dB and each onetoisPRB#47 greater than 26 PRB#40 PRB#23 less than or equal to 28 dB. PRB 10 MHz to PRB#30 to to range of refers subband 6 according PRB#35 frequency: 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to PRB#40 to PRB#47 PRB#23
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 6 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 7 downlink SINR each one is greater and thanthe 28 bin dB and post-compensation is This measurement is30 updated for less than or equal to dB.period PRB incremented every sample each UE every TTI6by using theto (5 range of subband according seconds) with the respective UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 7 downlink SINR 5 MHz refers to PRB#20 to equal each one is greater than or post-compensation and the bin is to PRB#23 ThisdB measurement is or updated for -10 and less than equal to -8 incremented every sample period 10 MHz to PRB#30 to each UErefers every TTI by using the (5 dB. PRB range of subband 7 seconds) the subband respective PRB#35 UE's mostwith recent CQI to according to frequency: number of calculated valuestowhere 15 MHzrefers and 20 MHz refers calculate Subband 7 downlink SINR 5 MHz to PRB#24 each onetoisPRB#47 greater and thanthe -8 dB and PRB#40 post-compensation bin is 10 MHz refers to PRB#36 toPRB This measurement is-6 updated for less than or equal to dB. incremented every sample period PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values PRB#48 to PRB#55 calculate Subband 7 downlinkwhere SINR 5 MHzone refers to PRB#24 each is greater thanthe -6 dB and post-compensation and bin is 10 MHz refers to PRB#36 to This than measurement is-4 updated for less or equal to dB. PRB incremented every sample period PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7 downlink SINR 5 MHzone refers to PRB#24 each is greater thanthe -4 dB and post-compensation and bin is 10 MHz refers to PRB#36 toPRB This measurement is-2 updated for less than or equal to dB. incremented every sample period PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values PRB#48 to PRB#55 calculate Subband 7 downlinkwhere SINR 5 MHzone refers to PRB#24 each is greater thanthe -2 dB and post-compensation and bin is 10 MHz refers to PRB#36 to This than measurement is0updated for less or equal to dB. PRB incremented every sample period PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7 downlink SINR 5 MHzone refers to PRB#24 each is greater thanthe 0 dB and post-compensation and bin is 10 MHz refers to PRB#36 This measurement is2updated for less than or equal to dB. to PRB incremented every sample period PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values PRB#48 to PRB#55 calculate Subband 7 downlinkwhere SINR 5 MHzone refers to PRB#24 each is greater thanthe 2 dB and post-compensation and bin is 10 MHz refers to PRB#36 to This than measurement is4updated for less or equal to dB. PRB incremented every sample period PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7 downlink SINR 5 MHzone refers to PRB#24 each is greater thanthe 4 dB and post-compensation and bin is 10 MHz refers to PRB#36 This measurement is6updated for less than or equal to dB. to PRB incremented every sample period PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values PRB#48 to PRB#55 calculate Subband 7 downlinkwhere SINR 5 MHzone refers to PRB#24 each is greater thanthe 6 dB and post-compensation and bin is 10 MHz refers to PRB#36 to This than measurement is8updated for less or equal to dB. PRB incremented every sample period PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values PRB#48 to PRB#55 calculate Subband 7 downlinkwhere SINR 5 MHzone refers to PRB#24 each is greater thanthe 8 dB post-compensation and binand is 10 MHz refers to PRB#36 to less than or equal to 10 dB.period PRB (5 incremented every sample PRB#41 range of subband 7 according to seconds) with20the respective 15 MHz and MHz refers to frequency: number of calculated values where PRB#48 to PRB#55 5 MHzone refers to PRB#24 each is greater than 10 dB and 10 to PRB#36 toPRB lessMHz thanrefers or equal to 12 dB. PRB#41 range of subband 7 according to 15 MHz and 20 MHz refers to frequency: PRB#48 to PRB#55 5 MHz refers to PRB#24 10 MHz refers to PRB#36 to
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 7 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 7 downlink SINR each one is greater and thanthe 12 bin dB and post-compensation is This measurement is14 updated for less than or equal to dB.period PRB incremented every sample each UE every TTI7by using theto (5 range of subband according seconds) with the respective UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 7 downlink SINR 5 MHz refers to PRB#24 each one is greater than 14 bin dB and post-compensation and the is 10 MHz refers to PRB#36 to This than measurement is16 updated for less or equal to dB.period PRB incremented every sample PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers CQI to to UE's most recent subband frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7 downlink SINR 5 MHzone refers to PRB#24 each is greater thanthe 16 bin dB and post-compensation and is 10 MHz refers to PRB#36 toPRB This measurement is18 updated for less than or equal to dB. incremented every sample period PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values PRB#48 to PRB#55 calculate Subband 7 downlinkwhere SINR 5 MHzone refers to PRB#24 each is greater thanthe 18 bin dB and post-compensation and is 10 MHz refers to PRB#36 to This than measurement is20 updated for less or equal to dB.period PRB incremented every sample PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7 downlink SINR 5 MHzone refers to PRB#24 each is greater thanthe 20 bin dB and post-compensation and is 10 MHz refers to PRB#36 toPRB This measurement is22 updated for less than or equal to dB. incremented every sample period PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values PRB#48 to PRB#55 calculate Subband 7 downlinkwhere SINR 5 MHzone refers to PRB#24 each is greater thanthe 22 bin dB and post-compensation and is 10 MHz refers to PRB#36 to This than measurement is24 updated for less or equal to dB.period PRB incremented every sample PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7 downlink SINR 5 MHzone refers to PRB#24 each is greater thanthe 24 bin dB and post-compensation and is 10 MHz refers to PRB#36 toPRB This measurement is26 updated for less than or equal to dB. incremented every sample period PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values PRB#48 to PRB#55 calculate Subband 7 downlinkwhere SINR 5 MHzone refers to PRB#24 each is greater thanthe 26 bin dB and post-compensation and is 10 MHz refers to PRB#36 to This than measurement is28 updated for less or equal to dB.period PRB incremented every sample PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 8 downlink SINR 5 MHzone refers to PRB#24 each is greater thanthe 28 bin dB and post-compensation and is 10 MHz refers to PRB#36 toPRB This measurement is30 updated for less than or equal to dB. incremented every sample period PRB#41 each UE every TTI7by using theto (5 range of subband according seconds) with the respective 15 MHz and 20 MHz refers to to UE's most recent subband CQI frequency: number of calculated values PRB#48 to PRB#55 calculate Subband 8 downlinkwhere SINR 5 MHzone refers to PRB#24 each is greater thanthe or equal post-compensation and bin is to 10 MHz refers to PRB#36 to ThisdB measurement is or updated for -10 and less than equal to -8 incremented every sample PRB#41 eachPRB UE range every TTI by usingperiod the (5 dB. of subband 8 seconds) with the respective 15 MHz and 20 MHz refers CQI to to UE's most recent subband according to frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 8 downlink 10 MHz refers to PRB#42 todB SINR each one is greater than -8 post-compensation and the bin and is PRB#47 less than or equal to -6 dB. period PRB (5 incremented every sample 15 MHz 20 MHz refers to to range of and subband 8 according seconds) with the respective PRB#56 to PRB#63 frequency: number of calculated values where 10 MHz to PRB#42 each onerefers is greater than -6todB and PRB#47 less than or equal to -4 dB. PRB 15 MHz 20 MHz refers to to range of and subband 8 according PRB#56 to PRB#63 frequency: 10 MHz refers to PRB#42 to PRB#47
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 8 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 8 downlink SINR each one is greater and thanthe -4 dB and post-compensation bin is This measurement is-2 updated for less than or equal to dB. PRB incremented every sample period each UE every TTI8by using theto (5 range of subband according seconds) with the respective UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 8 downlink SINR 10 MHz refers to PRB#42 each one is greater than -2todB and post-compensation and the bin is PRB#47 This than measurement is0updated for less or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI8by using theto (5 range of subband according seconds) with the respective PRB#56 torecent PRB#63 UE's most subband CQI to frequency: number ofSubband calculated values where calculate 8 downlink SINR 10 MHz refers to PRB#42 each one is greater than 0 to dB and post-compensation and the bin is PRB#47 This measurement is2updated for less than or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI8by using theto (5 range of subband according seconds) with the respective PRB#56 to PRB#63 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 8 downlink SINR 10 MHz refers to PRB#42 each one is greater than 2 to dB and post-compensation and the bin is PRB#47 This than measurement is4updated for less or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI8by using theto (5 range of subband according seconds) with the respective PRB#56 to PRB#63 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 8 downlink SINR 10 MHz refers to PRB#42 each one is greater than 4 to dB and post-compensation and the bin is PRB#47 This measurement is6updated for less than or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI8by using theto (5 range of subband according seconds) with the respective PRB#56 to PRB#63 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 8 downlink SINR 10 MHz refers to PRB#42 each one is greater than 6 to dB and post-compensation and the bin is PRB#47 This than measurement is8updated for less or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI8by using theto (5 range of subband according seconds) with the respective PRB#56 to PRB#63 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 8 downlink SINR 10 MHz refers to PRB#42 each one is greater than 8 to dB and post-compensation and the bin is PRB#47 This measurement is10 updated for less than or equal to dB.period PRB incremented every sample 15 MHz and 20 MHz refers to each UE every TTI8by using theto (5 range of subband according seconds) with the respective PRB#56 to PRB#63 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 8 downlink 10 MHz refers to PRB#42 todBSINR each one is greater than 10 and post-compensation and the binfor is PRB#47 This than measurement is12 updated less or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI8by using theto (5 range of subband according seconds) with the respective PRB#56 to PRB#63 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 8 downlink 10 MHz refers to PRB#42 todBSINR each one is greater than 12 and post-compensation and the binfor is PRB#47 This measurement is14 updated less than or equal to dB. PRB incremented every sample period 15 MHz 20 TTI MHz refers each UE every usingtotheto (5 range of and subband 8by according seconds) with the respective PRB#56 to PRB#63 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 8 downlink 10 MHz refers to PRB#42 todBSINR each one is greater than 14 and post-compensation and the binfor is PRB#47 This than measurement is16 updated less or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI8by using theto (5 range of subband according seconds) with the respective PRB#56 to PRB#63 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 8 downlink 10 MHz refers to PRB#42 todBSINR each one is greater than 16 post-compensation and the bin and is PRB#47 less than or equal to 18 dB. PRB (5 incremented every sample period 15 MHz 20 MHz refers to to range of and subband 8 according seconds) with the respective PRB#56 to PRB#63 frequency: number of calculated values where 10 MHz to PRB#42 todB and each onerefers is greater than 18 PRB#47 less than or equal to 20 dB. PRB 15 MHz 20 MHz refers to to range of and subband 8 according PRB#56 to PRB#63 frequency: 10 MHz refers to PRB#42 to PRB#47
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 8 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 8 downlink SINR each one is greater and thanthe 20 bin dB and post-compensation is This measurement is22 updated for less than or equal to dB.period PRB incremented every sample each UE every TTI8by using theto (5 range of subband according seconds) with the respective UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 8 downlink 10 MHz refers to PRB#42 todBSINR each one is greater than 22 and post-compensation and the binfor is PRB#47 This than measurement is24 updated less or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI8by using theto (5 range of subband according seconds) with the respective PRB#56 torecent PRB#63 UE's most subband CQI to frequency: number ofSubband calculated values where calculate 8 downlink 10 MHz refers to PRB#42 todBSINR each one is greater than 24 and post-compensation and the binfor is PRB#47 This measurement is26 updated less than or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI8by using theto (5 range of subband according seconds) with the respective PRB#56 to PRB#63 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 8 downlink 10 MHz refers to PRB#42 todBSINR each one is greater than 26 and post-compensation and the binfor is PRB#47 This than measurement is28 updated less or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI8by using theto (5 range of subband according seconds) with the respective PRB#56 to PRB#63 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink 10 MHz refers to PRB#42 todBSINR each one is greater than 28 and post-compensation and the binfor is PRB#47 This measurement is30 updated less than or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI8by using theto (5 range of subband according seconds) with the respective PRB#56 to PRB#63 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink SINR 10 MHz refers to PRB#42 each one is greater than ortoequal post-compensation and the bin is to PRB#47 ThisdB measurement is or updated for -10 and less than equal to -8 incremented every sample 15 MHz 20 MHz tothe (5 each UEand every TTI byrefers usingperiod dB. PRB range of subband 9 seconds) with the subband respective PRB#56 to PRB#63 UE's most recent CQI to according to frequency: number of calculated values where calculate Subband 9 downlink SINR 10 MHz refers to PRB#48 to each one is greater and thanthe -8 dB and post-compensation bin is PRB#49 This measurement is-6 updated for less than or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI9by using theto (5 range of subband according seconds) with the respective PRB#64 to PRB#71 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink SINR 10 MHz refers to PRB#48 each one is greater than -6todB and post-compensation and the bin is PRB#49 This than measurement is-4 updated for less or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI9by using theto (5 range of subband according seconds) with the respective PRB#64 to PRB#71 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink SINR 10 MHz refers to PRB#48 each one is greater than -4todB and post-compensation and the bin is PRB#49 This measurement is-2 updated for less than or equal to dB. PRB incremented every sample period 15 MHz 20 TTI MHz refers each UE every usingtotheto (5 range of and subband 9by according seconds) with the respective PRB#64 to PRB#71 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink SINR 10 MHz refers to PRB#48 each one is greater than -2todB and post-compensation and the bin is PRB#49 This than measurement is0updated for less or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI9by using theto (5 range of subband according seconds) with the respective PRB#64 to PRB#71 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink SINR 10 MHz refers to PRB#48 each one is greater than 0 to dB post-compensation and the binand is PRB#49 less than or equal to 2 dB. PRB incremented every sample period 15 MHz 20 MHz refers to to (5 range of and subband 9 according seconds) with the respective PRB#64 to PRB#71 frequency: number of calculated values where 10 MHz to PRB#48 each onerefers is greater than 2 to dB and PRB#49 less than or equal to 4 dB. PRB 15 MHz 20 MHz refers to to range of and subband 9 according PRB#64 to PRB#71 frequency: 10 MHz refers to PRB#48 to PRB#49
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 9 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated values where calculate Subband 9 downlink SINR each one is greater and thanthe 4 dB and post-compensation bin is This measurement is6updated for less than or equal to dB. PRB incremented every sample period each UE every TTI9by using theto (5 range of subband according seconds) with the respective UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink SINR 10 MHz refers to PRB#48 each one is greater than 6 to dB and post-compensation and the bin is PRB#49 This than measurement is8updated for less or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI9by using theto (5 range of subband according seconds) with the respective PRB#64 torecent PRB#71 UE's most subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink SINR 10 MHz refers to PRB#48 each one is greater than 8 to dB and post-compensation and the bin is PRB#49 This measurement is10 updated for less than or equal to dB.period PRB incremented every sample 15 MHz and 20 MHz refers to each UE every TTI9by using theto (5 range of subband according seconds) with the respective PRB#64 to PRB#71 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink 10 MHz refers to PRB#48 todBSINR each one is greater than 10 and post-compensation and the binfor is PRB#49 This than measurement is12 updated less or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI9by using theto (5 range of subband according seconds) with the respective PRB#64 to PRB#71 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink 10 MHz refers to PRB#48 todBSINR each one is greater than 12 and post-compensation and the binfor is PRB#49 This measurement is14 updated less than or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI9by using theto (5 range of subband according seconds) with the respective PRB#64 to PRB#71 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink 10 MHz refers to PRB#48 todBSINR each one is greater than 14 and post-compensation and the binfor is PRB#49 This than measurement is16 updated less or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI9by using theto (5 range of subband according seconds) with the respective PRB#64 to PRB#71 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink 10 MHz refers to PRB#48 todBSINR each one is greater than 16 and post-compensation and the binfor is PRB#49 This measurement is18 updated less than or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI9by using theto (5 range of subband according seconds) with the respective PRB#64 to PRB#71 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink 10 MHz refers to PRB#48 todBSINR each one is greater than 18 and post-compensation and the binfor is PRB#49 This than measurement is20 updated less or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI9by using theto (5 range of subband according seconds) with the respective PRB#64 to PRB#71 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink 10 MHz refers to PRB#48 todBSINR each one is greater than 20 and post-compensation and the binfor is PRB#49 This measurement is22 updated less than or equal to dB. PRB incremented every sample period 15 MHz 20 TTI MHz refers each UE every usingtotheto (5 range of and subband 9by according seconds) with the respective PRB#64 to PRB#71 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink 10 MHz refers to PRB#48 todBSINR each one is greater than 22 and post-compensation and the binfor is PRB#49 This than measurement is24 updated less or equal to dB. PRB incremented every sample period 15 MHz and 20 MHz refers to each UE every TTI9by using theto (5 range of subband according seconds) with the respective PRB#64 to PRB#71 UE's most recent subband CQI to frequency: number ofSubband calculated values where calculate 9 downlink 10 MHz refers to PRB#48 todBSINR each one is greater than 24 post-compensation and the bin and is PRB#49 less than or equal to 26 dB. PRB (5 incremented every sample period 15 MHz 20 MHz refers to to range of and subband 9 according seconds) with the respective PRB#64 to PRB#71 frequency: number of calculated values where 10 MHz to PRB#48 todB and each onerefers is greater than 26 PRB#49 less than or equal to 28 dB. PRB 15 MHz 20 MHz refers to to range of and subband 9 according PRB#64 to PRB#71 frequency: 10 MHz refers to PRB#48 to PRB#49
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 9 downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the subband respective UE's mostwith recent CQI to number of calculated where calculate Subband 10values downlink each one is greater than 28 dB and SINR post-compensation and the This measurement is30 updated for less than or equal to dB. PRB bin is UE incremented sample each every TTI9every by using theto range of subband according period (5 seconds) with the UE's most recent subband CQI to frequency: respective number of calculate Subband 10calculated downlink 10 MHzwhere refers to PRB#48 to values each one is and greater SINR post-compensation the PRB#49 This measurement isdB updated for than or equal to -10every and less bin is incremented sample 15 MHz and 20 MHz refers to each UEequal everytoTTI by using the than or -8 dB. PRB range period (5 to seconds) with theCQI to PRB#64 PRB#71 UE's most recent subband of subband 10 according to respective number of calculate Subband 10calculated downlink frequency: values where each one is and greater SINR post-compensation the 15 MHz refers to PRB#72 toequal This measurement isthan updated for to than -8 dB and less or bin is incremented every sample PRB#74 each UE every TTI by using the -6 dB. PRB range ofwith subband 10 period (5refers seconds) theto 20 MHz to PRB#72 UE's most recent subband CQI to according to frequency: respective number of PRB#79 calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement isthan updated for to than -6 dB and lessevery or equal bin is incremented sample 20 MHz refers to PRB#72 to each UE every TTIofbysubband using the -4 dB. PRB range 10 period (5 seconds) with theCQI to PRB#79 UE's most recent subband according to frequency: respective number of calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement is updated for to than -4 dB and lessevery than sample or equal bin is incremented 20 MHz refers to PRB#72 to each UE every TTI by using the -2 dB. PRB range ofwith subband period (5 seconds) theCQI10to PRB#79 UE's most recent subband according to frequency: respective number of calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement isthan updated for to than -2 dB and lessevery or equal bin is incremented sample 20 MHz refers to PRB#72 to each UE every TTI by using the 0 dB. PRB range of subband 10 period (5 seconds) with theCQI to PRB#79 UE's most recent subband according to frequency: respective number of calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement is updated for to than 0incremented dB and less every than or equal bin is sample 20 MHz refers to PRB#72 to each UE every TTI by using the 2 dB. PRB range ofwith subband 10 period (5 seconds) theCQI PRB#79 UE's most recent subband to according to frequency: respective number of calculate Subband 10calculated downlink 15 MHz refers to PRB#72 to values where each one is and greater SINR post-compensation the PRB#74 This measurement is updated for to than 2 dB and less than or equal bin is incremented every sample 20 MHz refers to PRB#72 to each UE every TTI by using the 4 dB. PRB range of subband 10 period (5 seconds) with theCQI to PRB#79 UE's most recent subband according to frequency: respective number of calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement is updated for to than 4incremented dB and less every than or equal bin is sample 20 MHz refers to PRB#72 to the each UE every TTI by using 6 dB. PRB range of subband 10 period (5 seconds) with theCQI to PRB#79 UE's most recent subband according to frequency: respective number of calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement is updated for to than 6incremented dB and less every than or equal bin is sample 20 MHz refers to PRB#72 to each UE every TTI by using the 8 dB. PRB range of subband 10 period (5 seconds) with theCQI to PRB#79 UE's most recent subband according to frequency: respective number of calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 than 8incremented dB and less every than or equal to bin is sample 20 MHz refers to PRB#72 to 10 10 dB. (5 PRB range of subband period seconds) with the PRB#79 according frequency: respective to number of calculated 15 MHz refers to PRB#72 to values where each one is greater PRB#74 than 10 dB and less than or equal 20 MHz PRB#72 to to 12 dB.refers PRB to range of subband 10 PRB#79 according to frequency: 15 MHz refers to PRB#72 to PRB#74
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 10 downlink SINR post-compensation and the This measurement is updated for bin is incremented every sample each UE every TTI by using the period (5 seconds) with theCQI to UE's most recent subband respective number of calculate Subband 10calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 12 dB and less or equal bin is incremented every sample each UE every TTI by using the to 14 db. range of subband period (5 PRB seconds) with theCQI to10 UE's most recent subband according to frequency: respective number of calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement isthan updated for than 14 dB and lessevery or equal bin is incremented sample 20 MHz refers to PRB#72 to each UE every TTI byofusing the 10 to 16 dB. PRB range subband period (5 seconds) with theCQI to PRB#79 UE's most recent subband according to frequency: respective number of calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement is updated for than 16 dB and lessevery thansample or equal bin is incremented 20 MHz refers to PRB#72 to each UE every TTI by using the to 18 dB. PRB range of subband period (5 seconds) with theCQI to10 PRB#79 UE's most recent subband according to frequency: respective number of calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement isthan updated for than 18 dB and lessevery or equal bin is incremented sample 20 MHz refers to PRB#72 to each UE every TTI byofusing the 10 to 20 dB. PRB range subband period (5 seconds) with theCQI to PRB#79 UE's most recent subband according to frequency: respective number of calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement is updated for than 20 dB and lessevery thansample or equal bin is incremented 20 MHz refers to PRB#72 to each UE every TTI by using the to 22 dB. PRB range of subband period (5 seconds) with theCQI to10 PRB#79 UE's most recent subband according to frequency: respective number of calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement isthan updated for than 22 dB and lessevery or equal bin is incremented sample 20 MHz refers to PRB#72 to each UE every TTI byofusing the 10 to 24 dB. PRB range subband period (5 seconds) with theCQI to PRB#79 UE's most recent subband according to frequency: respective number of calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement is updated for than 24 dB and lessevery thansample or equal bin is incremented 20 MHz refers to PRB#72 to each UE every TTI by using the to 26 dB. PRB range of subband period (5 seconds) with theCQI to10 PRB#79 UE's most recent subband according to frequency: respective number of calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement isthan updated for than 26 dB and lessevery or equal bin is incremented sample 20 MHz refers to PRB#72 to each UE every TTI byofusing the 10 to 28 dB. PRB range subband period (5 seconds) with theCQI to PRB#79 UE's most recent subband according to frequency: respective number of calculate Subband 11 calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement isthan updated for than 28 dB and lessevery or equal bin is incremented sample 20 MHz refers to PRB#72 to the 10 each UE every TTI byofusing to 30 dB. PRB range subband period (5 seconds) with theCQI to PRB#79 UE's most recent subband according to frequency: respective number of calculate Subband 11 calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 This measurement isdB updated for than or equal to -10every and less bin is incremented sample 20 MHz refers to PRB#72 to each UEequal everytoTTI by using the 11 than or -8 dB. Subband period (5 seconds)subband with theCQI to PRB#79 UE's for 20most MHzrecent refers toofPRB#80 to respective number calculate Subband 11 calculated downlink PRB#87. values where each one is and greater SINR post-compensation the than -8 dB and less than or equal to bin is incremented every sample -6 dB. Subband 11 for MHz period (5 seconds) with20 the refers to PRB#80 to PRB#87. respective number of calculated values where each one is greater than -6 dB and less than or equal to -4 dB. Subband 11 for 20 MHz refers to PRB#80 to PRB#87.
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 11 downlink SINR post-compensation and the This measurement is updated for bin is incremented every sample each UE every TTI by using the period (5 seconds) with theCQI to UE's most recent subband respective number of calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for to than -4 dB and less or equal bin is incremented every sample each UE every TTI by using the -2 dB. Subband 11 for MHz period (5 seconds) with20 the UE's most recent subband CQI to refers to PRB#80 to PRB#87. respective number of calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for to than -2 dB and less or equal bin is incremented every sample each UE every TTI by 20 using the 0 dB. Subband 11 for MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#80 toofPRB#87. respective number calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the This measurement is updated for to than 0 dB and less than or equal bin is incremented every sample each UE every TTI by using the 2 dB. Subband 11 for 20the MHz period (5 seconds) with UE's most recent subband CQI to refers to PRB#80 to PRB#87. respective number of calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the This measurement is updated for to than 2 dB and less than or equal bin is incremented every sample each UE every TTI by 20 using the 4 dB. Subband 11 for MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#80 toofPRB#87. respective number calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the This measurement is updated for to than 4 dB and less than or equal bin is incremented every sample each UE every TTI by using the 6 dB. Subband 11 for 20the MHz period (5 seconds) with UE's most recent subband CQI to refers to PRB#80 to PRB#87. respective number of calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the This measurement is updated for to than 6 dB and less than or equal bin is incremented every sample each UE every TTI by 20 using the 8 dB. Subband 11 for MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#80 toofPRB#87. respective number calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the This measurement is updated for to than 8 dB and less than or equal bin is incremented every sample each UE every TTI by using the 10 dB. (5 Subband 11with for 20 period seconds) theMHz UE's most recent subband CQI to refers to PRB#80 to PRB#87. respective number of calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 10 dB and less or equal bin is incremented every sample each UE every TTI 11 by for using the to 12 dB. Subband 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#80 toofPRB#87. respective number calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 12 dB and less or equal bin is incremented every sample each UE every TTI 11 by for using the to 14 db. Subband 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#80 toofPRB#87. respective number calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 14 dB and less or equal bin is incremented every sample each UE every TTI 11 by for using the to 16 dB. Subband 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#80 toofPRB#87. respective number calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the than 16 dB and less than or equal bin is incremented every sample to 18 dB. Subband with 11 forthe 20 MHz period (5 seconds) refers to PRB#80 to PRB#87. respective number of calculated values where each one is greater than 18 dB and less than or equal to 20 dB. Subband 11 for 20 MHz refers to PRB#80 to PRB#87.
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 11 downlink SINR post-compensation and the This measurement is updated for bin is incremented every sample each UE every TTI by using the period (5 seconds) with theCQI to UE's most recent subband respective number of calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 20 dB and less or equal bin is incremented every sample each UE every TTI by using the to 22 dB. Subband with 11 forthe 20 MHz period (5 seconds) UE's most recent subband CQI to refers to PRB#80 to PRB#87. respective number of calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 22 dB and less or equal bin is incremented every sample each UE every TTI 11 by for using the to 24 dB. Subband 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#80 toofPRB#87. respective number calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 24 dB and less or equal bin is incremented every sample each UE every TTI by using the to 26 dB. Subband with 11 forthe 20 MHz period (5 seconds) UE's most recent subband CQI to refers to PRB#80 to PRB#87. respective number of calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 26 dB and less or equal bin is incremented every sample each UE every TTI 11 by for using the to 28 dB. Subband 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#80 toofPRB#87. respective number calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 28 dB and less or equal bin is incremented every sample each UE every TTI by using the to 30 dB. Subband with 11 forthe 20 MHz period (5 seconds) UE's most recent subband CQI to refers to PRB#80 to PRB#87. respective number of calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement isdB updated for than or equal to -10 and less bin is incremented every sample each or UEequal everytoTTI by using the 12 than -8 dB. Subband period (5 seconds)subband with theCQI to UE's for 20most MHzrecent refers toofPRB#88 to respective number calculate Subband 12calculated downlink PRB#95. values where each one is and greater SINR post-compensation the This measurement isthan updated for to than -8 dB and less or equal bin is incremented every sample each UE every TTI by using the -6 dB. Subband 12 with for 20 MHz period (5 seconds) the UE's most recent subband CQI to refers to PRB#88 to PRB#95. respective number of calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for to than -6 dB and less or equal bin is incremented every sample each UE every TTI by using the -4 dB. Subband 12 for 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#88 toofPRB#95. respective number calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for to than -4 dB and less or equal bin is incremented every sample each UE every TTI by using the -2 dB. Subband 12 for 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#88 toofPRB#95. respective number calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for to than -2 dB and less or equal bin is incremented every sample each UE every TTI by 20 using the 0 dB. Subband 12 for MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#88 toofPRB#95. respective number calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the than 0 dB and less than or equal to bin is incremented every sample 2 dB. Subband 12 for 20the MHz period (5 seconds) with refers to PRB#88 to PRB#95. respective number of calculated values where each one is greater than 2 dB and less than or equal to 4 dB. Subband 12 for 20 MHz refers to PRB#88 to PRB#95.
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 12 downlink SINR post-compensation and the This measurement is updated for bin is incremented every sample each UE every TTI by using the period (5 seconds) with theCQI to UE's most recent subband respective number of calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement is updated for to than 4 dB and less than or equal bin is incremented every sample each UE every TTI by using the 6 dB. Subband 12 for 20the MHz period (5 seconds) with UE's most recent subband CQI to refers to PRB#88 to PRB#95. respective number of calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement is updated for to than 6 dB and less than or equal bin is incremented every sample each UE every TTI by 20 using the 8 dB. Subband 12 for MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#88 toofPRB#95. respective number calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement is updated for to than 8 dB and less than or equal bin is incremented every sample each UE every TTI by using the 10 dB. (5 Subband 12with for 20 period seconds) theMHz UE's most recent subband CQI to refers to PRB#88 to PRB#95. respective number of calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 10 dB and less or equal bin is incremented every sample each UE every TTI 12 by using the to 12 dB. Subband for 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#88 toofPRB#95. respective number calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 12 dB and less or equal bin is incremented every sample each UE every TTI by using the to 14 db. 12 20 MHz period (5 Subband seconds) withforthe UE's most recent subband CQI to refers to PRB#88 to PRB#95. respective number of calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 14 dB and less or equal bin is incremented every sample each UE every TTI 12 by using the to 16 dB. Subband for 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#88 toofPRB#95. respective number calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 16 dB and less or equal bin is incremented every sample each UE every TTI by using the to 18 dB. Subband with 12 for 20 MHz period (5 seconds) the UE's most recent subband CQI to refers to PRB#88 to PRB#95. respective number of calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 18 dB and less or equal bin is incremented every sample each UE every TTI 12 by using the to 20 dB. Subband for 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#88 toofPRB#95. respective number calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 20 dB and less or equal bin is incremented every sample each UE every TTI 12 by using the to 22 dB. Subband for 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#88 toofPRB#95. respective number calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 22 dB and less or equal bin is incremented every sample each UE every TTI 12 by using the to 24 dB. Subband for 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#88 toofPRB#95. respective number calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the than 24 dB and less than or equal bin is incremented every sample to 26 dB. Subband with 12 for 20 MHz period (5 seconds) the refers to PRB#88 to PRB#95. respective number of calculated values where each one is greater than 26 dB and less than or equal to 28 dB. Subband 12 for 20 MHz refers to PRB#88 to PRB#95.
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 12 downlink SINR post-compensation and the This measurement is updated for bin is incremented every sample each UE every TTI by using the period (5 seconds) with theCQI to UE's most recent subband respective number of calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 28 dB and less or equal bin is incremented every sample each UE every TTI by using the to 30 dB. Subband with 12 for 20 MHz period (5 seconds) the UE's most recent subband CQI to refers to PRB#88 to PRB#95. respective number of calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement isdB updated for than or equal to -10 and less bin is incremented every sample each or UEequal everytoTTI by using the 13 than -8 dB. Subband period (5 seconds)subband with theCQI to UE's for 20most MHzrecent refers toofPRB#96 to respective number calculate Subband 13calculated downlink PRB#99. values where each one is and greater SINR post-compensation the This measurement isthan updated for to than -8 dB and less or equal bin is incremented every sample each UE every TTI by using the -6 dB. Subband 13 with for 20 MHz period (5 seconds) the UE's most recent subband CQI to refers to PRB#96 to PRB#99. respective number of calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for to than -6 dB and less or equal bin is incremented every sample each UE every TTI by using the -4 dB. Subband 13 for 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#96 toofPRB#99. respective number calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for to than -4 dB and less or equal bin is incremented every sample each UE every TTI by using the -2 dB. Subband 13 with for 20 MHz period (5 seconds) the UE's most recent subband CQI to refers to PRB#96 to PRB#99. respective number of calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for to than -2 dB and less or equal bin is incremented every sample each UE every TTI by 20 using the 0 dB. Subband 13 for MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#96 toofPRB#99. respective number calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement is updated for to than 0 dB and less than or equal bin is incremented every sample each UE every TTI by using the 2 dB. Subband 13 for 20the MHz period (5 seconds) with UE's most recent subband CQI to refers to PRB#96 to PRB#99. respective number of calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement is updated for to than 2 dB and less than or equal bin is incremented every sample each UE every TTI by 20 using the 4 dB. Subband 13 for MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#96 toofPRB#99. respective number calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement is updated for to than 4 dB and less than or equal bin is incremented every sample each UE every TTI by 20 using the 6 dB. Subband 13 for MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#96 toofPRB#99. respective number calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement is updated for to than 6 dB and less than or equal bin is incremented every sample each UE every TTI by 20 using the 8 dB. Subband 13 for MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#96 toofPRB#99. respective number calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the than 8 dB and less than or equal to bin is incremented every sample 10 dB. (5 Subband 13with for 20 period seconds) theMHz refers to PRB#96 to PRB#99. respective number of calculated values where each one is greater than 10 dB and less than or equal to 12 dB. Subband 13 for 20 MHz refers to PRB#96 to PRB#99.
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQI to calculate Subband 13 downlink SINR post-compensation and the This measurement is updated for bin is incremented every sample each UE every TTI by using the period (5 seconds) with theCQI to UE's most recent subband respective number of calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 12 dB and less or equal bin is incremented every sample each UE every TTI by using the to 14 db. 13 20 MHz period (5 Subband seconds) withforthe UE's most recent subband CQI to refers to PRB#96 to PRB#99. respective number of calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 14 dB and less or equal bin is incremented every sample each UE every TTI 13 by using the to 16 dB. Subband for 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#96 toofPRB#99. respective number calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 16 dB and less or equal bin is incremented every sample each UE every TTI by using the to 18 dB. Subband with 13 for 20 MHz period (5 seconds) the UE's most recent subband CQI to refers to PRB#96 to PRB#99. respective number of calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 18 dB and less or equal bin is incremented every sample each UE every TTI 13 by using the to 20 dB. Subband for 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#96 toofPRB#99. respective number calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 20 dB and less or equal bin is incremented every sample each UE every TTI by using the to 22 dB. Subband with 13 for 20 MHz period (5 seconds) the UE's most recent subband CQI to refers to PRB#96 to PRB#99. respective number of calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 22 dB and less or equal bin is incremented every sample each UE every TTI 13 by using the to 24 dB. Subband for 20 MHz period (5 seconds) with theCQI to UE's most recent subband refers to PRB#96 toofPRB#99. respective number calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 24 dB and less or equal bin is incremented every sample each UE every TTI by using the to 26 dB. Subband with 13 for 20 MHz period (5 seconds) the UE's most recent subband CQI to refers to PRB#96 to PRB#99. respective number of calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the This measurement isthan updated for than 26 dB and less or equal bin is incremented every sample each UE every TTI 13 by using the to 28 dB. Subband for 20 MHz period (5 seconds) with theCQIs UE's most recent subband refers to PRB#96 toofPRB#99. respective number calculated (i.e. 2 CQIs or codewords) to values where each one is greater calculate Subband 1 downlink SINR This measurement updated for than 28 dB and lessis than or bin equal post-compensation and the is each TTI 13 by using the to 30 UE dB. every Subband for 20 MHz (5 incremented every sample period UE's most recent subband CQIs refers to PRB#96 to PRB#99. seconds) with respective (i.e. 2 CQIs or the codewords) to number ofSubband calculated values where calculate 1is downlink SINR This measurement updated for each one is greater than or equal post-compensation and the bin is to eachdBUE every TTI byorusing the -10 and less than equal to incremented everysubband sample CQIs period-8(5 UE'sPRB mostrange recent dB. of subband 1 seconds) with the respective (i.e. 2 CQIs or codewords) to according to frequency: number ofSubband calculated values where calculate 1 downlink SINR 3 MHzone and 5greater MHz refers to PRB#0 each is than -8 dB and post-compensation and the bin is to PRB#3 less than or equal to -6 dB. PRB incremented every sample period (5 10 MHz refers to PRB#0 to PRB#5 range of subband 1 according to seconds) with20the respective 15 MHz and MHz refers to frequency: number to of PRB#7 calculated values where PRB#0 3 MHzone andis 5greater MHz refers to PRB#0 each than -6 dB and to PRB#3 less than or equal to -4 dB. PRB 10 MHz to PRB#0 to PRB#5 range of refers subband 1 according to 15 MHz and 20 MHz refers to frequency: PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 1is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 1is downlink SINR This measurement updated for each one is greater than -4 dB and post-compensation and the bin each UE every TTItoby-2using theis less than or equal dB. PRB incremented everysubband sample CQIs period (5 UE's most recent range of subband 1 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 1is downlink SINR 3 MHz and 5greater MHz refers to PRB#0 This measurement updated for each one is than -2 dB and post-compensation and the bin to PRB#3 each UE every TTItoby0 using theis less than or equal dB. PRB incremented every sample period (5 10 MHz to PRB#0 to CQIs PRB#5 UE's most recent subband range of refers subband 1 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1 downlink SINR 3 MHz andis5greater MHz refers todB PRB#0 This measurement isthan updated for each one 0 and post-compensation and the bin to PRB#3 each UE every TTItoby2 using theis less than or equal dB. PRB incremented every sample period (5 10 MHz refers to PRB#0 to PRB#5 UE's most recent subband CQIs range of subband 1 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1is downlink SINR 3 MHz and 5greater MHz refers todB PRB#0 This measurement updated for each one is than 2 and post-compensation and the bin to PRB#3 eachthan UE every TTItoby4 using theis less or equal dB. PRB incremented every sample period (5 10 MHz refers to PRB#0 to PRB#5 UE's most recent subband CQIs range of subband 1 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1 downlink SINR 3 MHz andis5greater MHz refers todB PRB#0 This measurement isthan updated for each one 4 and post-compensation and the bin to PRB#3 each UE every TTItoby6 using theis less than or equal dB. PRB incremented every sample period (5 10 MHz refers to PRB#0 to PRB#5 UE's most recent subband CQIs range of subband 1 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1is downlink SINR 3 MHz and 5greater MHz refers todB PRB#0 This measurement updated for each one is than 6 and post-compensation and the bin to PRB#3 eachthan UE every TTItoby8 using theis less or equal dB. PRB incremented every sample period (5 10 MHz refers to PRB#0 to PRB#5 UE's most recent subband CQIs range of subband 1 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1 downlink SINR 3 MHz andis5greater MHz refers todB PRB#0 This measurement isthan updated for each one 8 and post-compensation and the bin to PRB#3 each UE every TTItoby10using theis less than or equal dB.period PRB incremented every sample (5 10 MHz refers to PRB#0 to PRB#5 UE's most recent subband CQIs range of subband 1 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1is downlink SINR 3 MHz and 5greater MHz refers to PRB#0 This measurement updated each one is than 10 dBfor and post-compensation and the bin to PRB#3 eachthan UE every TTItoby12using theis less or equal dB. PRB incremented every sample period (5 10 MHz to PRB#0 to CQIs PRB#5 UE's most recent subband range of refers subband 1 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1 downlink SINR 3 MHz andis5greater MHz refers to PRB#0 This measurement isthan updated each one 12 dBfor and post-compensation and the bin to PRB#3 each UE every TTItoby14using theis less than or equal db. PRB incremented every sample period (5 10 MHz to PRB#0 to CQIs PRB#5 UE's most recent subband range of refers subband 1 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1is downlink SINR 3 MHz and 5greater MHz refers to PRB#0 This measurement updated each one is than 14 dBfor and post-compensation and the bin to PRB#3 eachthan UE every TTItoby16using theis less or equal dB. PRB incremented every sample period (5 10 MHz to PRB#0 to CQIs PRB#5 UE's most recent subband range of refers subband 1 according to seconds) with the respective 15 andor 20codewords) MHz refersto to (i.e.MHz 2 CQIs frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1 downlink SINR 3 MHzone andis5greater MHz refers to PRB#0 each thanthe 16 dB and post-compensation and bin is to PRB#3 less than or equal to 18 dB.period PRB (5 incremented every sample 10 MHz refers to PRB#0 to PRB#5 range of subband 1 according to seconds) with20the respective 15 MHz and MHz refers to frequency: number of PRB#7 calculated values where PRB#0 to 3 MHzone andis5greater MHz refers to PRB#0 each than 18 dB and to PRB#3 less than or equal to 20 dB. PRB 10 MHz to PRB#0 to PRB#5 range of refers subband 1 according to 15 MHz and 20 MHz refers to frequency: PRB#0 to PRB#7 3 MHz and 5 MHz refers to PRB#0
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 1is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 1is downlink SINR This measurement updated each one is greater than 20 bin dBfor and post-compensation and the each UE every TTItoby22using theis less than or equal dB. PRB incremented everysubband sample CQIs period (5 UE's most recent range of subband 1 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 1is downlink SINR 3 MHz and 5greater MHz refers to PRB#0 This measurement updated each one is than 22 dBfor and post-compensation and the bin to PRB#3 each UE every TTItoby24using theis less than or equal dB. PRB incremented every sample period (5 10 MHz to PRB#0 to CQIs PRB#5 UE's most recent subband range of refers subband 1 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1 downlink SINR 3 MHz andis5greater MHz refers to PRB#0 This measurement isthan updated each one 24 dBfor and post-compensation and the bin to PRB#3 each UE every TTItoby26using theis less than or equal dB. PRB incremented every sample period (5 10 MHz to PRB#0 to CQIs PRB#5 UE's most recent subband range of refers subband 1 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 1is downlink SINR 3 MHz and 5greater MHz refers to PRB#0 This measurement updated each one is than 26 dBfor and post-compensation and the bin to PRB#3 eachthan UE every TTItoby28using theis less or equal dB. PRB incremented every sample period (5 10 MHz to PRB#0 to CQIs PRB#5 UE's most recent subband range of refers subband 1 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 2 downlink SINR 3 MHz andis5greater MHz refers to PRB#0 This measurement isthan updated each one 28 dBfor and post-compensation and the bin to PRB#3 each UE every TTItoby30using theis less than or equal dB. PRB incremented every sample period (5 10 MHz to PRB#0 to CQIs PRB#5 UE's most recent subband range of refers subband 1 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where PRB#0 to PRB#7 calculate 2is downlink SINR 3 MHz and 5greater MHz refers to PRB#0 This measurement updated for each one is than or equal post-compensation and the bin is to to PRB#3 eachdBUE every TTI byorusing the -10 and less than equal to -8 incremented every sample period 10 MHz refers toofPRB#0 to CQIs PRB#5(5 UE's most recent subband dB. PRB range subband 2 seconds) with the respective 15 MHz and 20 MHz refersto to (i.e. 2 CQIs or codewords) according to frequency: number of calculated values where PRB#0 to PRB#7 calculate Subband 2 downlink SINR 3 MHz andis5greater MHz refers to PRB#4 This measurement isthan updated for each one -8 dB and post-compensation and the bin to PRB#7 each UE every TTItoby-6using theis less than or equal dB. PRB incremented every sample period (5 10 MHz to PRB#6 to CQIs PRB#11 UE's most recent subband range of refers subband 2 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2is downlink SINR 3 MHz and 5greater MHz refers to PRB#4 This measurement updated for each one is than -6 dB and post-compensation and the bin to PRB#7 eachthan UE every TTItoby-4using theis less or equal dB. PRB incremented every sample period (5 10 MHz to PRB#6 to CQIs PRB#11 UE's most recent subband range of refers subband 2 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2 downlink SINR 3 MHz andis5greater MHz refers to PRB#4 This measurement isthan updated for each one -4 dB and post-compensation and the bin to PRB#7 each UE every TTItoby-2using theis less than or equal dB. PRB incremented every sample period (5 10 MHz to PRB#6 to CQIs PRB#11 UE's most recent subband range of refers subband 2 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2is downlink SINR 3 MHz and 5greater MHz refers to PRB#4 This measurement updated for each one is than -2 dB and post-compensation and the bin to PRB#7 eachthan UE every TTItoby0 using theis less or equal dB. PRB incremented every sample period (5 10 MHz to PRB#6 to CQIs PRB#11 UE's most recent subband range of refers subband 2 according to seconds) with the respective 15 andor 20codewords) MHz refersto to (i.e.MHz 2 CQIs frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2 downlink SINR 3 MHzone andis5greater MHz refers todB PRB#4 each thanthe 0 and post-compensation and bin is to PRB#7 less than or equal to 2 dB. PRB incremented every sample period (5 10 MHz refers to PRB#6 to PRB#11 range of subband 2 according to seconds) with20the respective 15 MHz and MHz refers to frequency: number of PRB#15 calculated values where PRB#8 to 3 MHzone and MHz refers todB PRB#4 each is5greater than 2 and to PRB#7 less than or equal to 4 dB. PRB 10 MHz to PRB#6 to PRB#11 range of refers subband 2 according to 15 MHz and 20 MHz refers to frequency: PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 2is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 2is downlink SINR This measurement updated for each one is greater than 4 dB and post-compensation and the bin each UE every TTItoby6 using theis less than or equal dB. PRB incremented every sample period (5 UE's most recent subband CQIs range of subband 2 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 2is downlink SINR 3 MHz and 5greater MHz refers todB PRB#4 This measurement updated for each one is than 6 and post-compensation and the bin to PRB#7 each UE every TTItoby8 using theis less than or equal dB. PRB incremented every sample period (5 10 MHz to PRB#6 to CQIs PRB#11 UE's most recent subband range of refers subband 2 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2 downlink SINR 3 MHz andis5greater MHz refers todB PRB#4 This measurement isthan updated for each one 8 and post-compensation and the bin to PRB#7 each UE every TTItoby10using theis less than or equal dB.period PRB incremented every sample (5 10 MHz refers to PRB#6 to PRB#11 UE's most recent subband CQIs range of subband 2 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2is downlink SINR 3 MHz and 5greater MHz refers to PRB#4 This measurement updated each one is than 10 dBfor and post-compensation and the bin to PRB#7 eachthan UE every TTItoby12using theis less or equal dB. PRB incremented every sample period (5 10 MHz to PRB#6 to CQIs PRB#11 UE's most recent subband range of refers subband 2 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2 downlink SINR 3 MHz andis5greater MHz refers to PRB#4 This measurement isthan updated each one 12 dBfor and post-compensation and the bin to PRB#7 each UE every TTItoby14using theis less than or equal db. PRB incremented every sample period (5 10 MHz to PRB#6 to CQIs PRB#11 UE's most recent subband range of refers subband 2 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2is downlink SINR 3 MHz and 5greater MHz refers to PRB#4 This measurement updated each one is than 14 dBfor and post-compensation and the bin to PRB#7 eachthan UE every TTItoby16using theis less or equal dB. PRB incremented every sample period (5 10 MHz to PRB#6 to CQIs PRB#11 UE's most recent subband range of refers subband 2 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2 downlink SINR 3 MHz andis5greater MHz refers to PRB#4 This measurement isthan updated each one 16 dBfor and post-compensation and the bin to PRB#7 each UE every TTItoby18using theis less than or equal dB. PRB incremented every sample period (5 10 MHz to PRB#6 to CQIs PRB#11 UE's most recent subband range of refers subband 2 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2is downlink SINR 3 MHz and 5greater MHz refers to PRB#4 This measurement updated each one is than 18 dBfor and post-compensation and the bin to PRB#7 eachthan UE every TTItoby20using theis less or equal dB. PRB incremented every sample period (5 10 MHz to PRB#6 to CQIs PRB#11 UE's most recent subband range of refers subband 2 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2 downlink SINR 3 MHz andis5greater MHz refers to PRB#4 This measurement isthan updated each one 20 dBfor and post-compensation and the bin to PRB#7 each UE every TTItoby22using theis less than or equal dB. PRB incremented every sample period (5 10 MHz to PRB#6 to CQIs PRB#11 UE's most recent subband range of refers subband 2 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2is downlink SINR 3 MHz and 5greater MHz refers to PRB#4 This measurement updated each one is than 22 dBfor and post-compensation and the bin to PRB#7 eachthan UE every TTItoby24using theis less or equal dB. PRB incremented every sample period (5 10 MHz to PRB#6 to CQIs PRB#11 UE's most recent subband range of refers subband 2 according to seconds) with the respective 15 andor 20codewords) MHz refersto to (i.e.MHz 2 CQIs frequency: number ofSubband calculated values where PRB#8 to PRB#15 calculate 2 downlink SINR 3 MHzone andis5greater MHz refers to PRB#4 each thanthe 24 dB and post-compensation and bin is to PRB#7 less than or equal to 26 dB.period PRB (5 incremented every sample 10 MHz refers to PRB#6 to PRB#11 range of subband 2 according to seconds) with20the respective 15 MHz and MHz refers to frequency: number of PRB#15 calculated values where PRB#8 to 3 MHzone andis5greater MHz refers to PRB#4 each than 26 dB and to PRB#7 less than or equal to 28 dB. PRB 10 MHz to PRB#6 to PRB#11 range of refers subband 2 according to 15 MHz and 20 MHz refers to frequency: PRB#8 to PRB#15 3 MHz and 5 MHz refers to PRB#4
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 2is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 3is downlink SINR This measurement updated each one is greater than 28 bin dBfor and post-compensation and the each UE every TTItoby30using theis less than or equal dB. PRB incremented everysubband sample CQIs period (5 UE's most recent range of subband 2 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 3is downlink SINR 3 MHz and 5greater MHz refers to PRB#4 This measurement updated for each one is than or equal post-compensation and the bin is to to PRB#7 each UE every TTI byorusing the -10 dB and less than equal to -8(5 incremented every sample period 10 MHz refers toofPRB#6 to CQIs PRB#11 UE's most recent subband dB. PRB range subband 3 seconds) with the respective 15 MHz and 20 MHz refersto to (i.e. 2 CQIs or codewords) according to frequency: number of calculated values where PRB#8 to PRB#15 calculate Subband 3 downlink SINR 3 MHz andis5greater MHz refers to PRB#8 This measurement isthan updated for each one -8 dB and post-compensation and the bin to PRB#11 each UE every TTItoby-6using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#12 UE's most recent subband CQIs range of refers subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3is downlink SINR 3 MHz 5greater MHz refers to PRB#8 This measurement updated for each one is than -6 dB and PRB#16 to PRB#23and the post-compensation bin to PRB#11 eachthan UE every TTItoby-4using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#12 UE's most recent subband CQIs range of refers subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3is downlink SINR 3 MHz 5greater MHz refers to PRB#8 This measurement updated for each one is than -4 dB and PRB#16 to PRB#23 post-compensation and the bin to PRB#11 each UE every TTItoby-2using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#12 UE's most recent subband CQIs range of refers subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3is downlink SINR 3 MHz 5greater MHz refers to PRB#8 This measurement updated for each one is than -2 dB and PRB#16 to PRB#23 post-compensation and the bin to PRB#11 eachthan UE every TTItoby0 using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#12 UE's most recent subband CQIs range of refers subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3is downlink SINR 3 MHz 5greater MHz refers todB PRB#8 This measurement updated for each one is than 0 and PRB#16 to PRB#23 post-compensation and the bin to PRB#11 each UE every TTItoby2 using theis less than or equal dB. PRB incremented every sample period (5 10 MHz refers to PRB#12 to UE's most recent subband CQIs range of subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3is downlink SINR 3 MHz 5greater MHz refers todB PRB#8 This measurement updated for each one is than 2 and PRB#16 to PRB#23 post-compensation and the bin to PRB#11 eachthan UE every TTItoby4 using theis less or equal dB. PRB incremented every sample period (5 10 MHz refers to PRB#12 to UE's most recent subband CQIs range of subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHz and 20 MHz refers calculate Subband 3is downlink SINR 3 MHz and 5greater MHz refers todB PRB#8 This measurement updated for each one is than 4 and PRB#16 to PRB#23 post-compensation and the bin to PRB#11 each UE every TTItoby6 using theis less than or equal dB. PRB incremented every sample period (5 10 MHz refers to PRB#12 to UE's most recent subband CQIs range of subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3is downlink SINR 3 MHz 5greater MHz refers todB PRB#8 This measurement updated for each one is than 6 and PRB#16 to PRB#23 post-compensation and the bin to PRB#11 eachthan UE every TTItoby8 using theis less or equal dB. PRB incremented every sample period (5 10 MHz refers to PRB#12 to UE's most recent subband CQIs range of subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3 downlink SINR 3 MHz 5greater MHz refers todB PRB#8 each one is than 8 and PRB#16 to PRB#23 post-compensation and the bin is to PRB#11 less than or equal to 10 dB.period PRB (5 incremented every sample 10 MHz refers to PRB#12 to range of subband 3 according to seconds) with the respective PRB#17 frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers 3 MHz MHz refers to PRB#8 each onetois5 greater than 10 dB and PRB#16 PRB#23 to PRB#11 less than or equal to 12 dB. PRB 10 MHz to PRB#12 to to range of refers subband 3 according PRB#17 frequency: 15 MHzand and520 MHz refers to 3 MHz MHz refers to PRB#8 PRB#16 to PRB#23
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 3is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 3is downlink SINR This measurement updated each one is greater than 12 bin dBfor and post-compensation and the each UE every TTItoby14using theis less than or equal db. PRB incremented everysubband sample CQIs period (5 UE's most recent range of subband 3 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 3is downlink SINR 3 MHz and 5greater MHz refers to PRB#8 This measurement updated each one is than 14 dBfor and post-compensation and the bin to PRB#11 each UE every TTItoby16using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#12 UE's most recent subband CQIs range of refers subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3is downlink SINR 3 MHz 5greater MHz refers to PRB#8 This measurement updated each one is than 16 dBfor and PRB#16 to PRB#23 post-compensation and the bin to PRB#11 each UE every TTItoby18using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#12 UE's most recent subband CQIs range of refers subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3is downlink SINR 3 MHz 5greater MHz refers to PRB#8 This measurement updated each one is than 18 dBfor and PRB#16 to PRB#23and the post-compensation bin to PRB#11 eachthan UE every TTItoby20using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#12 UE's most recent subband CQIs range of refers subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3is downlink SINR 3 MHz 5greater MHz refers to PRB#8 This measurement updated each one is than 20 dBfor and PRB#16 to PRB#23 post-compensation and the bin to PRB#11 each UE every TTItoby22using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#12 UE's most recent subband CQIs range of refers subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3is downlink SINR 3 MHz 5greater MHz refers to PRB#8 This measurement updated each one is than 22 dBfor and PRB#16 to PRB#23 post-compensation and the bin to PRB#11 eachthan UE every TTItoby24using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#12 UE's most recent subband CQIs range of refers subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3is downlink SINR 3 MHz 5greater MHz refers to PRB#8 This measurement updated each one is than 24 dBfor and PRB#16 to PRB#23 post-compensation and the bin to PRB#11 each UE every TTItoby26using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#12 UE's most recent subband CQIs range of refers subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 3is downlink SINR 3 MHz 5greater MHz refers to PRB#8 This measurement updated each one is than 26 dBfor and PRB#16 to PRB#23 post-compensation and the bin to PRB#11 eachthan UE every TTItoby28using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#12 UE's most recent subband CQIs range of refers subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 4is downlink SINR 3 MHz 5greater MHz refers to PRB#8 This measurement updated each one is than 28 dBfor and PRB#16 to PRB#23 post-compensation and the bin to PRB#11 each UE every TTItoby30using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#12 UE's most recent subband CQIs range of refers subband 3 according to seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzand and 20 MHz refers calculate Subband 4is downlink SINR 3 MHz 5greater MHz refers to PRB#8 This measurement updated for each one is than or equal PRB#16 to PRB#23 post-compensation and the bin is to to PRB#11 eachdBUE every TTI byorusing the -10 and less than equal to incremented every sampleto period-8(5 10 MHz refers toofPRB#12 UE's most recent subband CQIs dB. PRB range subband 4 seconds) with the respective PRB#17 (i.e. 2 CQIs or codewords) to according to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 4 downlink 3 MHz to MHz PRB#12 to dB SINR each one is greater than -8 PRB#16 to PRB#23 post-compensation and the bin and is PRB#14 less than or equal to -6 dB. PRB incremented every sample period (5 5 MHz refers to PRB#12 to range of subband 4 according to seconds) with the respective PRB#15 frequency: number of calculated values where 10 MHzrefers refers PRB#18 3 MHz totoPRB#12 totodB and each one is greater than -6 PRB#23 PRB#14 less thanand or equal to -4 dB. to PRB 15 MHz 20 refers 5 MHz refers to MHz PRB#12 to range of subband 4 according to PRB#24 to PRB#31 PRB#15 frequency: 10 MHzrefers referstotoPRB#12 PRB#18toto 3 MHz PRB#23
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 4is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 4is downlink SINR This measurement updated for each one is greater than -4 dB and post-compensation and the bin each UE every TTItoby-2using theis less than or equal dB. PRB incremented everysubband sample CQIs period (5 UE's most recent range of subband 4 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 4is downlink SINR 3 MHz refers to PRB#12 to dBfor This measurement updated each one is greater than -2 and post-compensation and the bin PRB#14 each UE every TTItoby0 using theis less than or equal dB. PRB incremented every sample period (5 5 MHz refers to PRB#12 to CQIs UE's most recent subband range of subband 4 according to seconds) with the respective PRB#15 (i.e. 2 CQIs or codewords) to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4is downlink SINR 3 MHz totoPRB#12 toto This measurement updated for each one is greater than 0 dB and PRB#23 post-compensation and the bin is PRB#14 each UEand every TTI by2refers using less than or equal to dB. PRB 15 MHz 20 MHz tothe (5 incremented every sample period 5 MHz refers to PRB#12 to UE's most recent subband CQIs range of subband 4 according to PRB#24 to PRB#31 seconds) with respective PRB#15 (i.e. 2 CQIs or the codewords) to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4is downlink SINR 3 MHz totoPRB#12 toto This measurement updated for each one is greater than 2 dB and PRB#23 post-compensation and the bin is PRB#14 each UEand every TTI by4refers using less than or equal to dB. PRB 15 MHz 20 MHz tothe (5 incremented every sample period 5 MHz refers to PRB#12 to UE's most recent subband CQIs range of subband 4 according to PRB#24 to PRB#31 seconds) with respective PRB#15 (i.e. 2 CQIs or the codewords) to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4is downlink SINR 3 MHz totoPRB#12 toto This measurement updated for each one is greater than 4 dB and PRB#23 post-compensation and the bin is PRB#14 each UEand every TTI by6refers using less than or equal to dB. PRB 15 MHz 20 MHz tothe (5 incremented every sample period 5 MHz refers to PRB#12 to UE's most recent subband CQIs range of subband 4 according to PRB#24 to PRB#31 seconds) with respective PRB#15 (i.e. 2 CQIs or the codewords) to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4is downlink SINR 3 MHz totoPRB#12 toto This measurement updated for each one is greater than 6 dB and PRB#23 post-compensation and the bin is PRB#14 each UEand every TTI by8refers using less than or equal to dB. PRB 15 MHz 20 MHz tothe (5 incremented every sample period 5 MHz refers to PRB#12 to UE's most recent subband CQIs range of subband 4 according to PRB#24 to PRB#31 seconds) with respective PRB#15 (i.e. 2 CQIs or the codewords) to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4is downlink SINR 3 MHz totoPRB#12 toto This measurement updated for each one is greater than 8 dB and PRB#23 post-compensation and the bin PRB#14 each UEand every TTI by10 using theis less than or equal to dB.period PRB 15 MHz 20 MHz refers to incremented every sample (5 5 MHz refers to PRB#12 to UE's most recent subband CQIs range of subband 4 according to PRB#24 to PRB#31 seconds) with the respective PRB#15 (i.e. 2 CQIs or codewords) to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4is downlink SINR 3 MHz totoPRB#12 totodBfor This measurement updated each one is greater than 10 and PRB#23 post-compensation and the bin is PRB#14 each UE every TTI by using the less than or equal to 12 dB. PRB 15 MHzrefers and 20 MHz refers to incremented every sample period (5 5 MHz to PRB#12 to UE's most recent subband CQIs range of subband 4 according to PRB#24 to PRB#31 seconds) with the respective PRB#15 (i.e. 2 CQIs or codewords) to frequency: number of calculated values where 10 MHz refers PRB#18 calculate Subband 4is downlink SINR 3 MHz refers totoPRB#12 totodBfor This measurement updated each one is greater than 12 and PRB#23 post-compensation and the bin PRB#14 each UEand every TTI by14 using theis less than or equal to db. PRB 15 MHz 20 MHz refers to incremented every sample period (5 5 MHz refers to PRB#12 to CQIs UE's most recent subband range of subband 4 according to PRB#24 to PRB#31 seconds) with the respective PRB#15 (i.e. 2 CQIs or codewords) to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4is downlink SINR 3 MHz totoPRB#12 totodBfor This measurement updated each one is greater than 14 and PRB#23 post-compensation and the bin is PRB#14 each UE every TTI by using the less than or equal to 16 dB. PRB 15 MHzrefers and 20 MHz refers to incremented every sample period (5 5 MHz to PRB#12 to UE's most recent subband CQIs range of subband 4 according to PRB#24 to PRB#31 seconds) with the respective PRB#15 (i.e. 2 CQIs or codewords) to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4 downlink 3 MHz totoPRB#12 totodBSINR each one is greater than 16 PRB#23 post-compensation and the bin and is PRB#14 less than or equal to 18 dB.period PRB (5 15 MHz and 20 MHz refers to incremented every sample 5 MHz refers to PRB#12 to range of subband 4 according to PRB#24 to PRB#31 seconds) with the respective PRB#15 frequency: number of calculated values where 10 MHzrefers refers PRB#18 3 MHz totoPRB#12 totodB and each one is greater than 18 PRB#23 PRB#14 less thanand or equal to 20 dB.to PRB 15 MHz 20 refers 5 MHz refers to MHz PRB#12 to range of subband 4 according to PRB#24 to PRB#31 PRB#15 frequency: 10 MHzrefers referstotoPRB#12 PRB#18toto 3 MHz PRB#23
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 4is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 4is downlink SINR This measurement updated each one is greater than 20 bin dBfor and post-compensation and the each UE every TTItoby22using theis less than or equal dB. PRB incremented everysubband sample CQIs period (5 UE's most recent range of subband 4 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 4is downlink SINR 3 MHz refers to PRB#12 to dBfor This measurement updated each one is greater than 22 and post-compensation and the bin PRB#14 each UE every TTItoby24using theis less than or equal dB. PRB incremented every sample period (5 5 MHz refers to PRB#12 to CQIs UE's most recent subband range of subband 4 according to seconds) with the respective PRB#15 (i.e. 2 CQIs or codewords) to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4is downlink SINR 3 MHz totoPRB#12 totodBfor This measurement updated each one is greater than 24 and PRB#23 post-compensation and the bin PRB#14 each UEand every TTI by26 using theis less than or equal to dB. PRB 15 MHz 20 MHz refers to incremented every sample period (5 5 MHz refers to PRB#12 to CQIs UE's most recent subband range of subband 4 according to PRB#24 to PRB#31 seconds) with the respective PRB#15 (i.e. 2 CQIs or codewords) to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 4is downlink SINR 3 MHz totoPRB#12 totodBfor This measurement updated each one is greater than 26 and PRB#23 post-compensation and the bin is PRB#14 each UE every TTI by using the less than or equal to 28 dB. PRB 15 MHzrefers and 20 MHz refers to incremented every sample period (5 5 MHz to PRB#12 to UE's most recent subband CQIs range of subband 4 according to PRB#24 to PRB#31 seconds) with the respective PRB#15 (i.e. 2 CQIs or codewords) to frequency: number of calculated values where 10 MHz refers PRB#18 calculate Subband 5is downlink SINR 3 MHz refers totoPRB#12 totodBfor This measurement updated each one is greater than 28 and PRB#23 post-compensation and the bin PRB#14 each UEand every TTI by30 using theis less than or equal to dB. PRB 15 MHz 20 MHz refers to incremented every sample period (5 5 MHz refers to PRB#12 to CQIs UE's most recent subband range of subband 4 according to PRB#24 to PRB#31 seconds) with the respective PRB#15 (i.e. 2 CQIs or codewords) to frequency: number of calculated values where 10 MHzrefers refers PRB#18 calculate Subband 5is downlink SINR 3 MHz totoPRB#12 totoequal This measurement updated for each one is greater than or PRB#23 post-compensation and the bin is to PRB#14 each UE every TTI by using the -10 dB and less than or equal to 15 MHzrefers and 20 MHz refers to -8(5 incremented every sample period 5 MHz to of PRB#12 to CQIs UE's most recent subband dB. PRB range subband 5 PRB#24 to PRB#31 seconds) with the respective PRB#15 (i.e. 2 CQIs or codewords) to according to frequency: number of calculated values where 10 MHz refers to PRB#18 to calculate Subband 5 downlink SINR 5 MHz refers to PRB#16 to dBfor This measurement isthan updated each one is greater -8 and PRB#23 post-compensation and the bin PRB#19 each UEand every TTI by-6 using theis less than or equal to dB. PRB 15 MHz 20 MHz refers to incremented every sampleto period (5 10 MHz to PRB#24 UE's most recent subband CQIs range of refers subband 5 according to PRB#24 to PRB#31 seconds) with the respective PRB#29 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5is downlink SINR 5 MHz to MHz PRB#16 to dBfor This measurement updated each one is greater than -6 and PRB#32 to PRB#39 post-compensation and the bin PRB#19 each UE every TTItoby-4using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#24 UE's most recent subband CQIs range of refers subband 5 according to seconds) with the respective PRB#29 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5is downlink SINR 5 MHz to MHz PRB#16 to dBfor This measurement updated each one is greater than -4 and PRB#32 to PRB#39 post-compensation and the bin PRB#19 each UE every TTItoby-2using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#24 UE's most recent subband CQIs range of refers subband 5 according to seconds) with the respective PRB#29 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5is downlink SINR 5 MHz to MHz PRB#16 to dBfor This measurement updated each one is greater than -2 and PRB#32 to PRB#39 post-compensation and the bin PRB#19 eachthan UE every TTItoby0 using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#24 UE's most recent subband CQIs range of refers subband 5 according to seconds) with the respective PRB#29 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5 downlink SINR 5 MHz to MHz PRB#16 todB and each one is greater than 0 PRB#32 to PRB#39 post-compensation and the bin is PRB#19 less than or equal to 2 dB. PRB incremented every sample period (5 10 MHz refers to PRB#24 to range of subband 5 according to seconds) with the respective PRB#29 frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 todB and each onetoisPRB#39 greater than 2 PRB#32 PRB#19 less than or equal to 4 dB. PRB 10 MHz to PRB#24 to to range of refers subband 5 according PRB#29 frequency: 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to PRB#32 to PRB#39
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 5is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 5is downlink SINR This measurement updated for each one is greater than 4 dB and post-compensation and the bin each UE every TTItoby6 using theis less than or equal dB. PRB incremented every sample period (5 UE's most recent subband CQIs range of subband 5 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 5is downlink SINR 5 MHz refers to PRB#16 todB and This measurement updated for each one is greater than 6 post-compensation and the bin PRB#19 each UE every TTItoby8 using theis less than or equal dB. PRB incremented every sample period (5 10 MHz to PRB#24 to UE's most recent subband CQIs range of refers subband 5 according to seconds) with the respective PRB#29 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHz and 20 refers calculate Subband 5is downlink SINR 5 MHz refers to MHz PRB#16 todB and This measurement updated for each one is greater than 8 PRB#32 to PRB#39 post-compensation and the bin PRB#19 each UE every TTItoby10using theis less than or equal dB.period PRB incremented every sample (5 10 MHz refers to PRB#24 to UE's most recent subband CQIs range of subband 5 according to seconds) with the respective PRB#29 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5is downlink SINR 5 MHz to MHz PRB#16 to dBfor This measurement updated each one is greater than 10 and PRB#32 to PRB#39and the post-compensation bin PRB#19 eachthan UE every TTItoby12using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#24 UE's most recent subband CQIs range of refers subband 5 according to seconds) with the respective PRB#29 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5is downlink SINR 5 MHz to MHz PRB#16 to dBfor This measurement updated each one is greater than 12 and PRB#32 to PRB#39 post-compensation and the bin PRB#19 each UE every TTItoby14using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#24 UE's most recent subband CQIs range of refers subband 5 according to seconds) with the respective PRB#29 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5is downlink SINR 5 MHz to MHz PRB#16 to dBfor This measurement updated each one is greater than 14 and PRB#32 to PRB#39 post-compensation and the bin PRB#19 eachthan UE every TTItoby16using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#24 UE's most recent subband CQIs range of refers subband 5 according to seconds) with the respective PRB#29 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5is downlink SINR 5 MHz to MHz PRB#16 to dBfor This measurement updated each one is greater than 16 and PRB#32 to PRB#39 post-compensation and the bin PRB#19 each UE every TTItoby18using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#24 UE's most recent subband CQIs range of refers subband 5 according to seconds) with the respective PRB#29 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5is downlink SINR 5 MHz to MHz PRB#16 to dBfor This measurement updated each one is greater than 18 and PRB#32 to PRB#39 post-compensation and the bin PRB#19 eachthan UE every TTItoby20using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#24 UE's most recent subband CQIs range of refers subband 5 according to seconds) with the respective PRB#29 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5is downlink SINR 5 MHz to MHz PRB#16 to dBfor This measurement updated each one is greater than 20 and PRB#32 to PRB#39 post-compensation and the bin PRB#19 each UE every TTItoby22using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#24 UE's most recent subband CQIs range of refers subband 5 according to seconds) with the respective PRB#29 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5is downlink SINR 5 MHz to MHz PRB#16 to dBfor This measurement updated each one is greater than 22 and PRB#32 to PRB#39 post-compensation and the bin PRB#19 eachthan UE every TTItoby24using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#24 UE's most recent subband CQIs range of refers subband 5 according to seconds) with the respective PRB#29 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 5 downlink 5 MHz to MHz PRB#16 to dBSINR each one is greater than 24 PRB#32 to PRB#39 post-compensation and the bin and is PRB#19 less than or equal to 26 dB. PRB (5 incremented every sampleto period 10 MHz refers to PRB#24 range of subband 5 according to seconds) with the respective PRB#29 frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to dB and each onetoisPRB#39 greater than 26 PRB#32 PRB#19 less than or equal to 28 dB. PRB 10 MHz to PRB#24 to to range of refers subband 5 according PRB#29 frequency: 15 MHzrefers and 20 refers 5 MHz to MHz PRB#16 to to PRB#32 to PRB#39
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 5is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 6is downlink SINR This measurement updated each one is greater than 28 bin dBfor and post-compensation and the each UE every TTItoby30using theis less than or equal dB. PRB incremented everysubband sample CQIs period (5 UE's most recent range of subband 5 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 6is downlink SINR 5 MHz refers to PRB#16 to equal This measurement updated for each one is greater than or post-compensation and the bin is to PRB#19 each UE every TTI byorusing the -10 dB and less than equal to incremented every sampleto period-8(5 10 MHz refers toofPRB#24 UE's most recent subband CQIs dB. PRB range subband 6 seconds) with the respective PRB#29 (i.e. 2 CQIs or codewords) to according to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6is downlink SINR 5 MHz to MHz PRB#20 to dBfor This measurement updated each one is greater than -8 and PRB#32 to PRB#39 post-compensation and the bin PRB#23 each UE every TTItoby-6using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#30 UE's most recent subband CQIs range of refers subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6is downlink SINR 5 MHz to MHz PRB#20 to dBfor This measurement updated each one is greater than -6 and PRB#40 to PRB#47and the post-compensation bin PRB#23 eachthan UE every TTItoby-4using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#30 UE's most recent subband CQIs range of refers subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6is downlink SINR 5 MHz to MHz PRB#20 to dBfor This measurement updated each one is greater than -4 and PRB#40 to PRB#47 post-compensation and the bin PRB#23 each UE every TTItoby-2using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#30 UE's most recent subband CQIs range of refers subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6is downlink SINR 5 MHz to MHz PRB#20 to dBfor This measurement updated each one is greater than -2 and PRB#40 to PRB#47 post-compensation and the bin PRB#23 eachthan UE every TTItoby0 using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#30 UE's most recent subband CQIs range of refers subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6is downlink SINR 5 MHz to MHz PRB#20 todB and This measurement updated for each one is greater than 0 PRB#40 to PRB#47 post-compensation and the bin PRB#23 each UE every TTItoby2 using theis less than or equal dB. PRB incremented every sample period (5 10 MHz refers to PRB#30 to UE's most recent subband CQIs range of subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6is downlink SINR 5 MHz to MHz PRB#20 todB and This measurement updated for each one is greater than 2 PRB#40 to PRB#47 post-compensation and the bin PRB#23 eachthan UE every TTItoby4 using theis less or equal dB. PRB incremented every sample period (5 10 MHz refers to PRB#30 to UE's most recent subband CQIs range of subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHz and 20 refers calculate Subband 6is downlink SINR 5 MHz refers to MHz PRB#20 todB and This measurement updated for each one is greater than 4 PRB#40 to PRB#47 post-compensation and the bin PRB#23 each UE every TTItoby6 using theis less than or equal dB. PRB incremented every sample period (5 10 MHz refers to PRB#30 to UE's most recent subband CQIs range of subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6is downlink SINR 5 MHz to MHz PRB#20 todB and This measurement updated for each one is greater than 6 PRB#40 to PRB#47 post-compensation and the bin PRB#23 eachthan UE every TTItoby8 using theis less or equal dB. PRB incremented every sample period (5 10 MHz refers to PRB#30 to UE's most recent subband CQIs range of subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6 downlink SINR 5 MHz to MHz PRB#20 todB and each one is greater than 8 PRB#40 to PRB#47 post-compensation and the bin is PRB#23 less than or equal to 10 dB.period PRB (5 incremented every sample 10 MHz refers to PRB#30 to range of subband 6 according to seconds) with the respective PRB#35 frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to dB and each onetoisPRB#47 greater than 10 PRB#40 PRB#23 less than or equal to 12 dB. PRB 10 MHz to PRB#30 to to range of refers subband 6 according PRB#35 frequency: 15 MHzrefers and 20 refers 5 MHz to MHz PRB#20 to to PRB#40 to PRB#47
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 6is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 6is downlink SINR This measurement updated each one is greater than 12 bin dBfor and post-compensation and the each UE every TTItoby14using theis less than or equal db. PRB incremented everysubband sample CQIs period (5 UE's most recent range of subband 6 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 6is downlink SINR 5 MHz refers to PRB#20 to dBfor This measurement updated each one is greater than 14 and post-compensation and the bin PRB#23 each UE every TTItoby16using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#30 UE's most recent subband CQIs range of refers subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6is downlink SINR 5 MHz to MHz PRB#20 to dBfor This measurement updated each one is greater than 16 and PRB#40 to PRB#47 post-compensation and the bin PRB#23 each UE every TTItoby18using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#30 UE's most recent subband CQIs range of refers subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6is downlink SINR 5 MHz to MHz PRB#20 to dBfor This measurement updated each one is greater than 18 and PRB#40 to PRB#47and the post-compensation bin PRB#23 eachthan UE every TTItoby20using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#30 UE's most recent subband CQIs range of refers subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6is downlink SINR 5 MHz to MHz PRB#20 to dBfor This measurement updated each one is greater than 20 and PRB#40 to PRB#47 post-compensation and the bin PRB#23 each UE every TTItoby22using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#30 UE's most recent subband CQIs range of refers subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6is downlink SINR 5 MHz to MHz PRB#20 to dBfor This measurement updated each one is greater than 22 and PRB#40 to PRB#47 post-compensation and the bin PRB#23 eachthan UE every TTItoby24using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#30 UE's most recent subband CQIs range of refers subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6is downlink SINR 5 MHz to MHz PRB#20 to dBfor This measurement updated each one is greater than 24 and PRB#40 to PRB#47 post-compensation and the bin PRB#23 each UE every TTItoby26using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#30 UE's most recent subband CQIs range of refers subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 6is downlink SINR 5 MHz to MHz PRB#20 to dBfor This measurement updated each one is greater than 26 and PRB#40 to PRB#47 post-compensation and the bin PRB#23 eachthan UE every TTItoby28using theis less or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#30 UE's most recent subband CQIs range of refers subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 7is downlink SINR 5 MHz to MHz PRB#20 to dBfor This measurement updated each one is greater than 28 and PRB#40 to PRB#47 post-compensation and the bin PRB#23 each UE every TTItoby30using theis less than or equal dB. PRB incremented every sampleto period (5 10 MHz to PRB#30 UE's most recent subband CQIs range of refers subband 6 according to seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 7is downlink SINR 5 MHz to MHz PRB#20 to equal This measurement updated for each one is greater than or PRB#40 to PRB#47 post-compensation and the bin is to PRB#23 eachdBUE every TTI byorusing the -10 and less than equal to incremented every sampleto period-8(5 10 MHz refers toofPRB#30 UE's most recent subband CQIs dB. PRB range subband 7 seconds) with the respective PRB#35 (i.e. 2 CQIs or codewords) to according to frequency: number of calculated valuestowhere 15 MHzrefers and 20 refers calculate Subband 7 downlink SINR 5 MHz to MHz PRB#24 each one is greater than -8 dB and PRB#40 to PRB#47 post-compensation and the bin 10 MHz refers to PRB#36 toPRBis less than or equal to -6 dB. incremented every sample period (5 PRB#41 range of subband 7 according to seconds) with20the respective 15 MHz and MHz refers to frequency: number of calculated values where PRB#48 to PRB#55 5 MHzone refers to PRB#24 each is greater than -6 dB and 10 to PRB#36 lessMHz thanrefers or equal to -4 dB.toPRB PRB#41 range of subband 7 according to 15 MHz and 20 MHz refers to frequency: PRB#48 to PRB#55 5 MHz refers to PRB#24
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 7is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 7is downlink SINR This measurement updated for each one is greater than -4 dB and post-compensation and the bin each UE every TTItoby-2using theis less than or equal dB. PRB incremented everysubband sample CQIs period (5 UE's most recent range of subband 7 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 7is downlink SINR 5 MHz refers to PRB#24 This measurement updated for each one is greater than -2 dB and post-compensation and the bin 10 MHz refers to PRB#36 to each UE every TTItoby0 using theis less than or equal dB. PRB incremented everysubband sample CQIs period (5 PRB#41 UE's most recent range of subband 7 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7is downlink SINR 5 MHz refers to PRB#24 This measurement updated for each one is greater than 0 dB and post-compensation and the bin 10 MHz refers to PRB#36 to each UE every TTItoby2 using theis less than or equal dB. PRB incremented every sample period (5 PRB#41 UE's most recent subband CQIs range of subband 7 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7is downlink SINR 5 MHz refers to PRB#24 This measurement updated for each one is greater than 2 dB and post-compensation and the bin 10 MHz refers to PRB#36 to eachthan UE every TTItoby4 using theis less or equal dB. PRB incremented every sample period (5 PRB#41 UE's most recent subband CQIs range of subband 7 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7 downlink SINR 5 MHz refers to PRB#24 This measurement isthan updated for each one is greater 4 dB and post-compensation and the bin 10 MHz refers to PRB#36 to each UE every TTItoby6 using theis less than or equal dB. PRB incremented every sample period (5 PRB#41 UE's most recent subband CQIs range of subband 7 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7is downlink SINR 5 MHz refers to PRB#24 This measurement updated for each one is greater than 6 dB and post-compensation and the bin 10 MHz refers to PRB#36 to eachthan UE every TTItoby8 using theis less or equal dB. PRB incremented every sample period (5 PRB#41 UE's most recent subband CQIs range of subband 7 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7 downlink SINR 5 MHz refers to PRB#24 This measurement isthan updated for each one is greater 8 dB and post-compensation and the bin 10 MHz refers to PRB#36 to each UE every TTItoby10using theis less than or equal dB.period PRB incremented every sample (5 PRB#41 UE's most recent subband CQIs range of subband 7 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7is downlink SINR 5 MHz refers to PRB#24 This measurement updated each one is greater than 10 bin dBfor and post-compensation and the 10 MHz refers to PRB#36 to eachthan UE every TTItoby12using theis less or equal dB. PRB incremented everysubband sample CQIs period (5 PRB#41 UE's most recent range of subband 7 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7is downlink SINR 5 MHz refers to PRB#24 This measurement updated each one is greater than 12 bin dBfor and post-compensation and the 10 MHz to PRB#36 toPRB each UErefers every TTI by14using theis less than or equal to db. incremented everysubband sample CQIs period (5 PRB#41 UE's most recent range of subband 7 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7is downlink SINR 5 MHz refers to PRB#24 This measurement updated each one is greater than 14 bin dBfor and post-compensation and the 10 MHz refers to PRB#36 to eachthan UE every TTItoby16using theis less or equal dB. PRB incremented everysubband sample CQIs period (5 PRB#41 UE's most recent range of subband 7 according to seconds) with the respective 15 andor 20codewords) MHz refersto to (i.e.MHz 2 CQIs frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7 downlink SINR 5 MHzone refers to PRB#24 each is greater than 16 bin dB and post-compensation and the is 10 MHz to PRB#36 toPRB less thanrefers or equal 18 dB. incremented everyto sample period (5 PRB#41 range of subband 7 according to seconds) with20the respective 15 MHz and MHz refers to frequency: number of calculated values where PRB#48 to PRB#55 5 MHzone refers to PRB#24 each is greater than 18 dB and 10 to PRB#36 toPRB lessMHz thanrefers or equal to 20 dB. PRB#41 range of subband 7 according to 15 MHz and 20 MHz refers to frequency: PRB#48 to PRB#55 5 MHz refers to PRB#24
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 7is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 7is downlink SINR This measurement updated each one is greater than 20 bin dBfor and post-compensation and the each UE every TTItoby22using theis less than or equal dB. PRB incremented everysubband sample CQIs period (5 UE's most recent range of subband 7 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 7is downlink SINR 5 MHz refers to PRB#24 This measurement updated each one is greater than 22 bin dBfor and post-compensation and the 10 MHz refers to PRB#36 to each UE every TTItoby24using theis less than or equal dB. PRB incremented everysubband sample CQIs period (5 PRB#41 UE's most recent range of subband 7 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7is downlink SINR 5 MHz refers to PRB#24 This measurement updated each one is greater than 24 bin dBfor and post-compensation and the 10 MHz refers to PRB#36 to each UE every TTItoby26using theis less than or equal dB. PRB incremented everysubband sample CQIs period (5 PRB#41 UE's most recent range of subband 7 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 7is downlink SINR 5 MHz refers to PRB#24 This measurement updated each one is greater than 26 bin dBfor and post-compensation and the 10 MHz refers to PRB#36 to eachthan UE every TTItoby28using theis less or equal dB. PRB incremented everysubband sample CQIs period (5 PRB#41 UE's most recent range of subband 7 according to seconds) with the respective 15 MHz andor 20codewords) MHz refersto to (i.e. 2 CQIs frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 8is downlink SINR 5 MHz refers to PRB#24 This measurement updated each one is greater than 28 bin dBfor and post-compensation and the 10 MHz refers to PRB#36 to each UE every TTItoby30using theis less than or equal dB. PRB incremented everysubband sample CQIs period (5 PRB#41 UE's most recent range of subband 7 according to seconds) with the respective 15 MHz and 20 MHz refers to (i.e. 2 CQIs or codewords) to frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 8is downlink SINR 5 MHz refers to PRB#24 This measurement updated for each one is greater than or equal post-compensation and the bin is to 10 MHz refers to PRB#36 to eachdBUE every TTI byorusing the -10 and less than equal to incremented everysubband sample CQIs period-8(5 PRB#41 UE's mostrange recent dB. PRB of subband 8 seconds) with the respective 15 MHz and 20 MHz refersto to (i.e. 2 CQIs or codewords) according to frequency: number of calculated values where PRB#48 to PRB#55 calculate Subband 8 downlink SINR 10 MHz to PRB#42 This measurement isthan updated for each onerefers is greater -8todB and post-compensation and the bin PRB#47 each UE every TTItoby-6using theis less than or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 8 according seconds) with the respective PRB#56 to PRB#63 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 8is downlink SINR 10 MHz refers to PRB#42 This measurement updated for each one is greater than -6todB and post-compensation and the bin PRB#47 each UE every TTItoby-4using theis less than or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 8 according seconds) with the respective PRB#56 to PRB#63 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 8is downlink SINR 10 MHz refers to PRB#42 This measurement updated for each one is greater than -4todB and post-compensation and the bin PRB#47 each UE every TTItoby-2using theis less than or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 8 according seconds) with the respective PRB#56 to PRB#63 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 8is downlink SINR 10 MHz refers to PRB#42 This measurement updated for each one is greater than -2todB and post-compensation and the bin PRB#47 eachthan UE every TTItoby0 using theis less or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 8 according seconds) with the respective PRB#56 to PRB#63 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 8 downlink SINR 10 MHz refers to PRB#42 each one is greater than 0 to dB and post-compensation and the bin is PRB#47 less than or equal to 2 dB. PRB incremented every sample period (5 15 MHz and 20 MHz refers to range of subband 8 according to seconds) with the respective PRB#56 to PRB#63 frequency: number of calculated values where 10 MHz to PRB#42 each onerefers is greater than 2 to dB and PRB#47 less than or equal to 4 dB. PRB 15 MHz 20 MHz refers to to range of and subband 8 according PRB#56 to PRB#63 frequency: 10 MHz refers to PRB#42 to
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 8is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 8is downlink SINR This measurement updated for each one is greater than 4 dB and post-compensation and the bin each UE every TTItoby6 using theis less than or equal dB. PRB incremented every sample period (5 UE's most recent subband CQIs range of subband 8 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 8is downlink SINR 10 MHz refers to PRB#42 This measurement updated for each one is greater than 6 to dB and post-compensation and the bin PRB#47 each UE every TTItoby8 using theis less than or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 8 according seconds) with the respective PRB#56 to PRB#63 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 8is downlink SINR 10 MHz refers to PRB#42 This measurement updated for each one is greater than 8 to dB and post-compensation and the bin PRB#47 each UE every TTItoby10using theis less than or equal dB.period PRB incremented every sample (5 15 MHz and 20 MHz refers to UE's most recent subband CQIs range of subband 8 according to seconds) with the respective PRB#56 to PRB#63 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 8is downlink SINR 10 MHz refers to PRB#42 todBfor This measurement updated each one is greater than 10 and post-compensation and the bin PRB#47 eachthan UE every TTItoby12using theis less or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 8 according seconds) with the respective PRB#56 to PRB#63 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 8is downlink SINR 10 MHz refers to PRB#42 todBfor This measurement updated each one is greater than 12 and post-compensation and the bin PRB#47 each UE every TTItoby14using theis less than or equal db. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 8 according seconds) with the respective PRB#56 to PRB#63 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 8is downlink SINR 10 MHz refers to PRB#42 todBfor This measurement updated each one is greater than 14 and post-compensation and the bin PRB#47 eachthan UE every TTItoby16using theis less or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 8 according seconds) with the respective PRB#56 to PRB#63 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 8is downlink SINR 10 MHz refers to PRB#42 todBfor This measurement updated each one is greater than 16 and post-compensation and the bin PRB#47 each UE every TTItoby18using theis less than or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 8 according seconds) with the respective PRB#56 to PRB#63 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 8is downlink SINR 10 MHz refers to PRB#42 todBfor This measurement updated each one is greater than 18 and post-compensation and the bin PRB#47 eachthan UE every TTItoby20using theis less or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 8 according seconds) with the respective PRB#56 to PRB#63 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 8is downlink SINR 10 MHz refers to PRB#42 todBfor This measurement updated each one is greater than 20 and post-compensation and the bin PRB#47 each UE every TTItoby22using theis less than or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 8 according seconds) with the respective PRB#56 to PRB#63 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 8is downlink SINR 10 MHz refers to PRB#42 todBfor This measurement updated each one is greater than 22 and post-compensation and the bin PRB#47 eachthan UE every TTItoby24using theis less or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 8 according seconds) with the respective PRB#56 to PRB#63 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 8 downlink 10 MHz refers to PRB#42 todBSINR each one is greater than 24 post-compensation and the bin and is PRB#47 less than or equal to 26 dB. PRB (5 incremented every sample period 15 MHz and 20 MHz refers to range of subband 8 according to seconds) with the respective PRB#56 to PRB#63 frequency: number of calculated values where 10 MHz to PRB#42 todB and each onerefers is greater than 26 PRB#47 less than or equal to 28 dB. PRB 15 MHz 20 MHz refers to to range of and subband 8 according PRB#56 to PRB#63 frequency: 10 MHz refers to PRB#42 to
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 8is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 9is downlink SINR This measurement updated each one is greater than 28 bin dBfor and post-compensation and the each UE every TTItoby30using theis less than or equal dB. PRB incremented everysubband sample CQIs period (5 UE's most recent range of subband 8 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#42 This measurement updated for each one is greater than ortoequal post-compensation and the bin is to PRB#47 each UE every TTI byorusing the -10 dB and less than equal to -8(5 incremented every sample period 15 MHz and 20 MHz refers CQIs to UE's most recent subband dB. PRB range of subband 9 seconds) with the respective PRB#56 to PRB#63 (i.e. 2 CQIs or codewords) to according to frequency: number of calculated values where calculate Subband 9 downlink SINR 10 MHz to PRB#48 This measurement isthan updated for each onerefers is greater -8todB and post-compensation and the bin PRB#49 each UE every TTItoby-6using theis less than or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 9 according seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#48 This measurement updated for each one is greater than -6todB and post-compensation and the bin PRB#49 eachthan UE every TTItoby-4using theis less or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 9 according seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#48 This measurement updated for each one is greater than -4todB and post-compensation and the bin PRB#49 each UE every TTItoby-2using theis less than or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 9 according seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#48 This measurement updated for each one is greater than -2todB and post-compensation and the bin PRB#49 eachthan UE every TTItoby0 using theis less or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 9 according seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#48 This measurement updated for each one is greater than 0 to dB and post-compensation and the bin PRB#49 each UE every TTItoby2 using theis less than or equal dB. PRB incremented every sample period (5 15 MHz and 20 MHz refers to UE's most recent subband CQIs range of subband 9 according to seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#48 This measurement updated for each one is greater than 2 to dB and post-compensation and the bin PRB#49 eachthan UE every TTItoby4 using theis less or equal dB. PRB incremented every sample period (5 15 MHz and 20 MHz refers to UE's most recent subband CQIs range of subband 9 according to seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#48 This measurement updated for each one is greater than 4 to dB and post-compensation and the bin PRB#49 each UE every TTItoby6 using theis less than or equal dB. PRB incremented every sample period (5 15 MHz and 20 MHz refers to UE's most recent subband CQIs range of subband 9 according to seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#48 This measurement updated for each one is greater than 6 to dB and post-compensation and the bin PRB#49 eachthan UE every TTItoby8 using theis less or equal dB. PRB incremented every sample period (5 15 MHz and 20 MHz refers to UE's most recent subband CQIs range of subband 9 according to seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9 downlink SINR 10 MHz refers to PRB#48 each one is greater than 8 to dB and post-compensation and the bin is PRB#49 less than or equal to 10 dB.period PRB (5 incremented every sample 15 MHz and 20 MHz refers to range of subband 9 according to seconds) with the respective PRB#64 to PRB#71 frequency: number of calculated values where 10 MHz to PRB#48 todB and each onerefers is greater than 10 PRB#49 less than or equal to 12 dB. PRB 15 MHz 20 MHz refers to to range of and subband 9 according PRB#64 to PRB#71 frequency: 10 MHz refers to PRB#48 to
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 9is downlink SINR This measurement updated for post-compensation and the bin each UE every TTI by using theis incremented everysubband sample CQIs period (5 UE's most recent seconds) with the respective (i.e. 2 CQIs or codewords) to number ofSubband calculated values where calculate 9is downlink SINR This measurement updated each one is greater than 12 bin dBfor and post-compensation and the each UE every TTItoby14using theis less than or equal db. PRB incremented everysubband sample CQIs period (5 UE's most recent range of subband 9 according to seconds) with the respective (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#48 todBfor This measurement updated each one is greater than 14 and post-compensation and the bin PRB#49 each UE every TTItoby16using theis less than or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 9 according seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#48 todBfor This measurement updated each one is greater than 16 and post-compensation and the bin PRB#49 each UE every TTItoby18using theis less than or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 9 according seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#48 todBfor This measurement updated each one is greater than 18 and post-compensation and the bin PRB#49 eachthan UE every TTItoby20using theis less or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 9 according seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#48 todBfor This measurement updated each one is greater than 20 and post-compensation and the bin PRB#49 each UE every TTItoby22using theis less than or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 9 according seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#48 todBfor This measurement updated each one is greater than 22 and post-compensation and the bin PRB#49 eachthan UE every TTItoby24using theis less or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 9 according seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#48 todBfor This measurement updated each one is greater than 24 and post-compensation and the bin PRB#49 each UE every TTItoby26using theis less than or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 9 according seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 9is downlink SINR 10 MHz refers to PRB#48 todBfor This measurement updated each one is greater than 26 and post-compensation and the bin PRB#49 eachthan UE every TTItoby28using theis less or equal dB. PRB incremented every sample period 15 MHz 20 MHz refers CQIs to to (5 UE's most recent subband range of and subband 9 according seconds) with the respective PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: number ofSubband calculated values where calculate 10 downlink 10 MHz refers to PRB#48 todBfor This measurement isthan updated each one is greater 28 and SINR post-compensation andthe the PRB#49 each UE every TTItoby30using less than or equal dB. PRB bin ismost incremented every sample 15 MHz and 20 MHz refers to to UE's recent subband CQIs range of subband 9with according period (5 seconds) the PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) to frequency: respective number of calculated calculate Subband 10 downlink 10 MHz refers to PRB#48 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#49 each or UEequal everytoTTI by the than -10every dBusing and less bin is incremented sample 15 MHz and 20 MHz refers to UE's most recent CQIs than or equal to -8subband dB. period (5 seconds) withPRB thetorange PRB#64 to PRB#71 (i.e. 2 CQIs or codewords) of subband 10 according to respective number of calculate Subband 10calculated downlink frequency: values where each one is and greater SINR post-compensation the 15 MHz refers to PRB#72 toequal than -8 dB and less than or to bin is incremented every sample PRB#74 -6 dB. PRB range of subband 10 period seconds) with theto 20 MHz(5refers to PRB#72 according to frequency: respective number of calculated PRB#79 15 MHzwhere referseach to PRB#72 to values one is greater PRB#74 than -6 dB and less than or equal to 20 MHzPRB refers to PRB#72 to 10 -4 dB. range of subband PRB#79 according to frequency: 15 MHz refers to PRB#72 to
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 10 downlinkfor This measurement is updated SINR post-compensation andthe the each UE every TTI by using bin is incremented every sample UE's most recent subband CQIs period (5 seconds) with theto (i.e. 2 CQIs or codewords) respective number of calculated calculate Subband 10 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than -4 and less than or equal to bin is incremented every sample UE's most recent subband CQIs -2 dB. PRB range of subband 10 period (5 seconds) with theto (i.e. 2 CQIs or codewords) according to frequency: respective number of calculated calculate Subband 10 downlink 15 MHz refers to PRB#72 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#74 each -2 UEdB every by using the than and TTI lessevery than or equal to bin is incremented sample 20 MHz refers to PRB#72 to UE's most recent subband CQIs 0 dB. PRB range of subband 10 period (5 seconds) with theto PRB#79 (i.e. 2 CQIs or codewords) according to frequency: respective number of calculated calculate Subband 10 downlink 15 MHz refers to PRB#72 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#74 each UE every TTI by using the than 0incremented dB and less every than or equal to bin is sample 20 MHz refers to PRB#72 to UE's most recent subband CQIs 2 dB. PRB range of subband 10 period (5 seconds) with theto PRB#79 (i.e. 2 CQIs or codewords) according to frequency: respective number of calculated calculate Subband 10 downlink 15 MHz refers to PRB#72 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#74 each 2UE TTI than by using the than dBevery and less or equal to bin is incremented every sample 20 MHz refers to PRB#72 to UE's most recent subband CQIs 4 dB. PRB range of subband 10 period (5 seconds) with theto PRB#79 (i.e. 2 CQIs or codewords) according to frequency: respective number of calculated calculate Subband 10 downlink 15 MHz refers to PRB#72 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#74 each UE every TTI by using the than 4incremented dB and less every than or equal to bin is sample 20 MHz refers to PRB#72 to UE's most recent subband CQIs 6 dB. PRB range of subband 10 period (5 seconds) with theto PRB#79 (i.e. 2 CQIs or codewords) according to frequency: respective number of calculated calculate Subband 10 downlink 15 MHz refers to PRB#72 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#74 each 6UE TTI than by using the than dBevery and less or equal to bin is incremented every sample 20 MHz refers to PRB#72 to UE's most recent subband CQIs 8 dB. PRB range of subband 10 period (5 seconds) with theto PRB#79 (i.e. 2 CQIs or codewords) according to frequency: respective number of calculated calculate Subband 10 downlink 15 MHz refers to PRB#72 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#74 each UE every TTI by using the than 8incremented dB and less every than or equal to bin is sample 20 MHz refers to PRB#72 to UE's most recent subband CQIs 10 dB. PRB range of subband 10 period (5 seconds) with theto PRB#79 (i.e. 2 CQIs or codewords) according to frequency: respective number of calculated calculate Subband 10 downlink 15 MHz refers to PRB#72 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#74 each 10 UEdB every by using the than andTTI lessevery than or equal bin is incremented sample 20 MHz refers to PRB#72 to UE's recent subband CQIs 10 to 12 most dB. PRB range of subband period (5 seconds) with theto PRB#79 (i.e. 2 CQIs or codewords) according to frequency: respective number of calculated calculate Subband 10 downlink 15 MHz refers to PRB#72 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#74 each UE every TTI by using the than 12 dB and lessevery thansample or equal bin is incremented 20 MHz refers to PRB#72 to UE's recent subband CQIs 10 to 14 most db. range of subband period (5 PRB seconds) with theto PRB#79 (i.e. 2 CQIs or codewords) according to frequency: respective number of calculated calculate Subband 10 downlink 15 MHz refers to PRB#72 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#74 each 14 UEdB every by using the than andTTI lessevery than or equal bin is incremented sample 20 MHz refers to PRB#72 to UE's recent subband CQIs 10 to 16 most dB. PRB range of subband period (5 seconds) with theto PRB#79 (i.e. 2 CQIs or codewords) according to frequency: respective number of calculate Subband 10calculated downlink 15 MHzwhere refers to PRB#72 to values each one is and greater SINR post-compensation the PRB#74 than dB and lessevery thansample or equal bin is16 incremented 20 MHz refers to PRB#72 to to 18 dB. PRB range of subband 10 period (5 seconds) with the PRB#79 according to frequency: respective number of calculated 15 MHzwhere referseach to PRB#72 to values one is greater PRB#74 than 18 dB and less than or equal 20 MHz PRB#72 to to 20 dB.refers PRB to range of subband 10 PRB#79 according to frequency: 15 MHz refers to PRB#72 to
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 10 downlinkfor This measurement is updated SINR post-compensation andthe the each UE every TTI by using bin is incremented every sample UE's most recent subband CQIs period (5 seconds) with theto (i.e. 2 CQIs or codewords) respective number of calculated calculate Subband 10 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than 20 and less than or equal bin is incremented every sample UE's recent subband CQIs 10 to 22 most dB. PRB range of subband period (5 seconds) with theto (i.e. 2 CQIs or codewords) according to frequency: respective number of calculated calculate Subband 10 downlink 15 MHz refers to PRB#72 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#74 each 22 UEdB every by using the than andTTI lessevery than or equal bin is incremented sample 20 MHz refers to PRB#72 to UE's most recent subband CQIs 10 to 24 dB. PRB range of subband period (5 seconds) with theto PRB#79 (i.e. 2 CQIs or codewords) according to frequency: respective number of calculated calculate Subband 10 downlink 15 MHz refers to PRB#72 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#74 each UE every TTI by using the than 24 dB and lessevery thansample or equal bin is incremented 20 MHz refers to PRB#72 to UE's recent subband CQIs 10 to 26 most dB. PRB range of subband period (5 seconds) with theto PRB#79 (i.e. 2 CQIs or codewords) according to frequency: respective number of calculated calculate Subband 10 downlink 15 MHz refers to PRB#72 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#74 each 26 UEdB every by using the than andTTI lessevery than or equal bin is incremented sample 20 MHz refers to PRB#72 to UE's recent subband CQIs 10 to 28 most dB. PRB range of subband period (5 seconds) with theto PRB#79 (i.e. 2 CQIs or codewords) according to frequency: respective number of calculated calculate Subband 11 downlink 15 MHz refers to PRB#72 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#74 each UE every TTI by using the than 28 dB and lessevery thansample or equal bin is incremented 20 MHz refers to PRB#72 to UE's recent subband CQIs 10 to 30 most dB. PRB range of subband period (5 seconds) with theto PRB#79 (i.e. 2 CQIs or codewords) according to frequency: respective number of calculated calculate Subband 11 downlink 15 MHz refers to PRB#72 to for This measurement is updated values where each one is and greater SINR post-compensation the PRB#74 each or UEequal everytoTTI by the than -10every dBusing and less bin is incremented sample 20 MHz refers to PRB#72 to UE's most recent CQIs 11 than or equal to -8subband dB. period (5 seconds) withSubband theto PRB#79 (i.e. 2 CQIs or codewords) for 20 MHz refers to PRB#80 to respective number of calculated calculate Subband 11 downlinkfor PRB#87. This measurement is updated values where each one is and greater SINR post-compensation the each UE every TTI by using the than -8 dB and less than or equal to bin is incremented every sample UE's most recent11subband CQIs -6 dB. Subband for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#80 toofPRB#87. respective number calculated calculate Subband 11 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each -6 UEdB every TTI by using the than and less than or equal to bin is incremented every sample UE's most recent11subband CQIs -4 dB. Subband for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#80 toofPRB#87. respective number calculated calculate Subband 11 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than -4 and less than or equal to bin is incremented every sample UE's most recent11subband CQIs -2 dB. Subband for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#80 toofPRB#87. respective number calculated calculate Subband 11 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each -2 UEdB every TTI by using the than and less than or equal to bin is incremented every sample UE's most recent subband CQIs 0 dB. Subband 11 for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#80 toofPRB#87. respective number calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the than 0 dB and less than or equal to bin is incremented every sample 2 dB. Subband 11 for 20the MHz period (5 seconds) with refers to PRB#80 to PRB#87. respective number of calculated values where each one is greater than 2 dB and less than or equal to 4 dB. Subband 11 for 20 MHz refers to PRB#80 to PRB#87.
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 11 downlinkfor This measurement is updated SINR post-compensation andthe the each UE every TTI by using bin is incremented every sample UE's most recent subband CQIs period (5 seconds) with theto (i.e. 2 CQIs or codewords) respective number of calculated calculate Subband 11 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UE every TTI than by using the than 4 dB and less or equal to bin is incremented every sample UE's most recent subband CQIs 6 dB. Subband 11 for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#80 toofPRB#87. respective number calculated calculate Subband 11 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 6UE every TTI than by using the than dB and less or equal to bin is incremented every sample UE's most recent subband CQIs 8 dB. Subband 11 for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#80 toofPRB#87. respective number calculated calculate Subband 11 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UE every TTI than by using the than 8 dB and less or equal to bin is incremented every sample UE's most recent11 subband CQIs 10 dB. Subband for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#80 toofPRB#87. respective number calculated calculate Subband 11 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 10 UEdB every TTI by using the than and less than or equal bin is incremented every sample UE's recent subband to 12 most dB. Subband 11 forthe 20CQIs MHz period (5 seconds) with (i.e. 2 CQIs or codewords) to refers to PRB#80 to PRB#87. respective number of calculated calculate Subband 11 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than 12 and less than or equal bin is incremented every sample UE's recent subband to 14 most db. 11 forthe 20CQIs MHz period (5 Subband seconds) with (i.e. 2 CQIs or codewords) to refers to PRB#80 to PRB#87. respective number of calculated calculate Subband 11 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 14 UEdB every TTI by using the than and less than or equal bin is incremented every sample UE's recent subband to 16 most dB. Subband 11 forthe 20CQIs MHz period (5 seconds) with (i.e. 2 CQIs or codewords) to refers to PRB#80 to PRB#87. respective number of calculated calculate Subband 11 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than 16 and less than or equal bin is incremented every sample UE's recent subband to 18 most dB. Subband 11 forthe 20CQIs MHz period (5 seconds) with (i.e. 2 CQIs or codewords) to refers to PRB#80 to PRB#87. respective number of calculated calculate Subband 11 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 18 UEdB every TTI by using the than and less than or equal bin is incremented every sample UE's recent subband to 20 most dB. Subband 11 forthe 20CQIs MHz period (5 seconds) with (i.e. 2 CQIs or codewords) to refers to PRB#80 to PRB#87. respective number of calculated calculate Subband 11 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than 20 and less than or equal bin is incremented every sample UE's recent subband to 22 most dB. Subband 11 forthe 20CQIs MHz period (5 seconds) with (i.e. 2 CQIs or codewords) to refers to PRB#80 to PRB#87. respective number of calculated calculate Subband 11 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 22 UEdB every TTI by using the than and less than or equal bin is incremented every sample UE's recent subband to 24 most dB. Subband 11 forthe 20CQIs MHz period (5 seconds) with (i.e. 2 CQIs or codewords) to refers to PRB#80 to PRB#87. respective number of calculate Subband 11 calculated downlink values where each one is and greater SINR post-compensation the than 24 dB and less than or equal bin is incremented every sample to 26 dB. Subband with 11 forthe 20 MHz period (5 seconds) refers to PRB#80 to PRB#87. respective number of calculated values where each one is greater than 26 dB and less than or equal to 28 dB. Subband 11 for 20 MHz refers to PRB#80 to PRB#87.
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 11 downlinkfor This measurement is updated SINR post-compensation andthe the each UE every TTI by using bin is incremented every sample UE's most recent subband CQIs period (5 seconds) with theto (i.e. 2 CQIs or codewords) respective number of calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than 28 and less than or equal bin is incremented every sample UE's recent subband to 30 most dB. Subband 11 forthe 20CQIs MHz period (5 seconds) with (i.e. 2 CQIs or codewords) to refers to PRB#80 to PRB#87. respective number of calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each or UEequal everytoTTI by using the than -10 dB and less bin is incremented every sample UE's or most recent CQIs 12 than equal to -8subband dB. period (5 seconds) withSubband theto (i.e. 2 CQIs or codewords) for 20 MHz refers to PRB#88 to respective number of calculated calculate Subband 12 downlinkfor PRB#95. This measurement is updated values where each one is and greater SINR post-compensation the each UE every TTI by using the than -8 dB and less than or equal to bin is incremented every sample UE's most recent12subband CQIs -6 dB. Subband for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#88 toofPRB#95. respective number calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each -6 UEdB every TTI by using the than and less than or equal to bin is incremented every sample UE's most recent12subband CQIs -4 dB. Subband for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#88 toofPRB#95. respective number calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than -4 and less than or equal to bin is incremented every sample UE's most recent12subband CQIs -2 dB. Subband for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#88 toofPRB#95. respective number calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each -2 UEdB every TTI by using the than and less than or equal to bin is incremented every sample UE's most recent subband CQIs 0 dB. Subband 12 for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#88 toofPRB#95. respective number calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UE every TTI than by using the than 0 dB and less or equal to bin is incremented every sample UE's most recent subband CQIs 2 dB. Subband 12 for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#88 toofPRB#95. respective number calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 2UE every TTI than by using the than dB and less or equal to bin is incremented every sample UE's most recent subband CQIs 4 dB. Subband 12 for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#88 toofPRB#95. respective number calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UE every TTI than by using the than 4 dB and less or equal to bin is incremented every sample UE's most recent subband CQIs 6 dB. Subband 12 for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#88 toofPRB#95. respective number calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 6UE every TTI than by using the than dB and less or equal to bin is incremented every sample UE's most recent subband CQIs 8 dB. Subband 12 for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#88 toofPRB#95. respective number calculate Subband 12calculated downlink values where each one is and greater SINR post-compensation the than 8 dB and less than or equal to bin is incremented every sample 10 dB. (5 Subband 12with for 20 period seconds) theMHz refers to PRB#88 to PRB#95. respective number of calculated values where each one is greater than 10 dB and less than or equal to 12 dB. Subband 12 for 20 MHz refers to PRB#88 to PRB#95.
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 12 downlinkfor This measurement is updated SINR post-compensation andthe the each UE every TTI by using bin is incremented every sample UE's most recent subband CQIs period (5 seconds) with theto (i.e. 2 CQIs or codewords) respective number of calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than 12 and less than or equal bin is incremented every sample UE's recent subband to 14 most db. 12 20CQIs MHz period (5 Subband seconds) withforthe (i.e. 2 CQIs or codewords) to refers to PRB#88 to PRB#95. respective number of calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 14 UEdB every TTI by using the than and less than or equal bin is incremented every sample UE's recent subband CQIs to 16 most dB. Subband 12 for 20 MHz period (5 seconds) with the (i.e. 2 CQIs or codewords) to refers to PRB#88 to PRB#95. respective number of calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than 16 and less than or equal bin is incremented every sample UE's recent subband CQIs to 18 most dB. Subband 12 for 20 MHz period (5 seconds) with the (i.e. 2 CQIs or codewords) to refers to PRB#88 to PRB#95. respective number of calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 18 UEdB every TTI by using the than and less than or equal bin is incremented every sample UE's recent subband CQIs to 20 most dB. Subband 12 for 20 MHz period (5 seconds) with the (i.e. 2 CQIs or codewords) to refers to PRB#88 to PRB#95. respective number of calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than 20 and less than or equal bin is incremented every sample UE's recent subband CQIs to 22 most dB. Subband 12 for 20 MHz period (5 seconds) with the (i.e. 2 CQIs or codewords) to refers to PRB#88 to PRB#95. respective number of calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 22 UEdB every TTI by using the than and less than or equal bin is incremented every sample UE's recent subband CQIs to 24 most dB. Subband 12 for 20 MHz period (5 seconds) with the (i.e. 2 CQIs or codewords) to refers to PRB#88 to PRB#95. respective number of calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than 24 and less than or equal bin is incremented every sample UE's recent subband CQIs to 26 most dB. Subband 12 for 20 MHz period (5 seconds) with the (i.e. 2 CQIs or codewords) to refers to PRB#88 to PRB#95. respective number of calculated calculate Subband 12 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 26 UEdB every TTI by using the than and less than or equal bin is incremented every sample UE's recent subband CQIs to 28 most dB. Subband 12 for 20 MHz period (5 seconds) with the (i.e. 2 CQIs or codewords) to refers to PRB#88 to PRB#95. respective number of calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than 28 and less than or equal bin is incremented every sample UE's recent subband CQIs to 30 most dB. Subband 12 for 20 MHz period (5 seconds) with the (i.e. 2 CQIs or codewords) to refers to PRB#88 to PRB#95. respective number of calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each or UEequal everytoTTI by using the than -10 dB and less bin is incremented every sample UE's or most recent CQIs 13 than equal to -8subband dB. period (5 seconds) withSubband theto (i.e.20 2 CQIs or codewords) for MHz refers to PRB#96 to respective number of calculate Subband 13calculated downlink PRB#99. values where each one is and greater SINR post-compensation the than -8 dB and less than or equal to bin is incremented every sample -6 dB. Subband 13 with for 20 MHz period (5 seconds) the refers to PRB#96 to PRB#99. respective number of calculated values where each one is greater than -6 dB and less than or equal to -4 dB. Subband 13 for 20 MHz refers to PRB#96 to PRB#99.
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 13 downlinkfor This measurement is updated SINR post-compensation andthe the each UE every TTI by using bin is incremented every sample UE's most recent subband CQIs period (5 seconds) with theto (i.e. 2 CQIs or codewords) respective number of calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than -4 and less than or equal to bin is incremented every sample UE's most recent13subband CQIs -2 dB. Subband for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#96 toofPRB#99. respective number calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each -2 UEdB every TTI by using the than and less than or equal to bin is incremented every sample UE's most recent subband CQIs 0 dB. Subband 13 for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#96 toofPRB#99. respective number calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UE every TTI than by using the than 0 dB and less or equal to bin is incremented every sample UE's most recent subband CQIs 2 dB. Subband 13 for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#96 toofPRB#99. respective number calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 2UE every TTI than by using the than dB and less or equal to bin is incremented every sample UE's most recent subband CQIs 4 dB. Subband 13 for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#96 toofPRB#99. respective number calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UE every TTI than by using the than 4 dB and less or equal to bin is incremented every sample UE's most recent subband CQIs 6 dB. Subband 13 for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#96 toofPRB#99. respective number calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 6UE every TTI than by using the than dB and less or equal to bin is incremented every sample UE's most recent subband CQIs 8 dB. Subband 13 for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#96 toofPRB#99. respective number calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UE every TTI than by using the than 8 dB and less or equal to bin is incremented every sample UE's most recent13 subband CQIs 10 dB. Subband for 20 MHz period (5 seconds) with theto (i.e. 2 CQIs or codewords) refers to PRB#96 toofPRB#99. respective number calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 10 UEdB every TTI by using the than and less than or equal bin is incremented every sample UE's recent subband CQIs to 12 most dB. Subband 13 for 20 MHz period (5 seconds) with the (i.e. 2 CQIs or codewords) to refers to PRB#96 to PRB#99. respective number of calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than 12 and less than or equal bin is incremented every sample UE's recent subband to 14 most db. 13 20CQIs MHz period (5 Subband seconds) withforthe (i.e. 2 CQIs or codewords) to refers to PRB#96 to PRB#99. respective number of calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 14 UEdB every TTI by using the than and less than or equal bin is incremented every sample UE's recent subband CQIs to 16 most dB. Subband 13 for 20 MHz period (5 seconds) with the (i.e. 2 CQIs or codewords) to refers to PRB#96 to PRB#99. respective number of calculate Subband 13calculated downlink values where each one is and greater SINR post-compensation the than 16 dB and less than or equal bin is incremented every sample to 18 dB. Subband with 13 for 20 MHz period (5 seconds) the refers to PRB#96 to PRB#99. respective number of calculated values where each one is greater than 18 dB and less than or equal to 20 dB. Subband 13 for 20 MHz refers to PRB#96 to PRB#99.
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This measurement is updated for each UE every TTI by using the UE's most recent subband CQIs (i.e. 2 CQIs or codewords) to calculate Subband 13 downlinkfor This measurement is updated SINR post-compensation andthe the each UE every TTI by using bin is incremented every sample UE's most recent subband CQIs period (5 seconds) with theto (i.e. 2 CQIs or codewords) respective number of calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than 20 and less than or equal bin is incremented every sample UE's recent subband CQIs to 22 most dB. Subband 13 for 20 MHz period (5 seconds) with the (i.e. 2 CQIs or codewords) to refers to PRB#96 to PRB#99. respective number of calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 22 UEdB every TTI by using the than and less than or equal bin is incremented every sample UE's recent subband CQIs to 24 most dB. Subband 13 for 20 MHz period (5 seconds) with the (i.e. 2 CQIs or codewords) to refers to PRB#96 to PRB#99. respective number of calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each UEdB every TTI by using the than 24 and less than or equal bin is incremented every sample UE's recent subband CQIs to 26 most dB. Subband 13 for 20 MHz period (5 seconds) with the (i.e. 2 CQIs or codewords) to refers to PRB#96 to PRB#99. respective number of calculated calculate Subband 13 downlinkfor This measurement is updated values where each one is and greater SINR post-compensation the each 26 UEdB every TTI by using the than and less than or equal bin is incremented every sample UE's recent wideband to 28 most dB. Subband 13 for 20CQI MHzto period (5 seconds) with the calculate Wideband downlink SINR refers to PRB#96 to PRB#99. respective number of calculated post-compensation and the bin is This measurement is updated for values whereevery each sample one is greater incremented period each UEdB every TTI by using the (5 than 28 andthe less than or equal seconds) with respective UE's recent wideband to 30 most dB.ofSubband 13values for 20CQI MHzto number calculated where calculate Wideband downlink SINR refers to PRB#96 to PRB#99. each one is greater and thanthe or equal post-compensation bin is to ThisdB measurement is or updated for -10 and less than equal to -8 incremented every each UE every TTI sample by usingperiod the (5 dB. seconds) the wideband respectiveCQI to UE's mostwith recent number of calculated values where calculate Wideband downlink SINR each one is greater than -8 dB and post-compensation and the bin is This measurement is-6 updated for less than or equal to dB. incremented every sample period each UE every TTI by using the (5 seconds) the wideband respectiveCQI to UE's mostwith recent number of calculated values where calculate Wideband downlink SINR each one is greater than -6 dB and post-compensation and the bin is This than measurement is-4 updated for less or equal to dB. incremented every sample period each UE every TTI by using the (5 seconds) the wideband respectiveCQI to UE's mostwith recent number of calculated values where calculate Wideband downlink SINR each one is greater than -4 dB and post-compensation and the bin is This measurement is-2 updated for less than or equal to dB. incremented every sample period each UE every TTI by using the (5 seconds) the wideband respectiveCQI to UE's mostwith recent number of calculated values where calculate Wideband downlink SINR each one is greater than -2 dB and post-compensation and the bin is This than measurement is0updated for less or equal to dB. incremented every sample period each UE every TTI by using the (5 seconds) the wideband respectiveCQI to UE's mostwith recent number of calculated values where calculate Wideband downlink SINR each one is greater than 0 dB post-compensation and the binand is less than or equal 2 dB. period (5 incremented everyto sample seconds) with the respective number of calculated values where each one is greater than 2 dB and less than or equal to 4 dB.
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This measurement is updated for each UE every TTI by using the UE's most recent wideband CQI to calculate Wideband downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the wideband respectiveCQI to UE's mostwith recent number of calculated values where calculate Wideband downlink SINR each one is greater than 4 dB and post-compensation and the bin is This measurement is6updated for less than or equal to dB. incremented every sample period each UE every TTI by using the (5 seconds) the wideband respectiveCQI to UE's mostwith recent number of calculated values where calculate Wideband downlink SINR each one is greater than 6 dB and post-compensation and the bin is This than measurement is8updated for less or equal to dB. incremented every sample period each UE every TTI by using the (5 seconds) the wideband respectiveCQI to UE's mostwith recent number of calculated values where calculate Wideband downlink SINR each one is greater than 8 dB and post-compensation and the bin is This measurement is10 updated for less than or equal to dB. incremented every sample period each UE every TTI by using the (5 seconds) the wideband respectiveCQI to UE's mostwith recent number of calculated values where calculate Wideband downlink SINR each one is greater than 10 bin dB and post-compensation and the is This than measurement is12 updated for less or equal to dB.period incremented every sample each UE every TTI by using the (5 seconds) the wideband respectiveCQI to UE's mostwith recent number of calculated values where calculate Wideband downlink SINR each one is greater than 12 bin dB and post-compensation and the is This measurement is14 updated for less than or equal to dB.period incremented every sample each UE every TTI by using the (5 seconds) the wideband respectiveCQI to UE's mostwith recent number of calculated values where calculate Wideband downlink SINR each one is greater than 14 bin dB and post-compensation and the is This than measurement is16 updated for less or equal to dB.period incremented every sample each UE every TTI by using the (5 seconds) the wideband respectiveCQI to UE's mostwith recent number of calculated values where calculate Wideband downlink SINR each one is greater than 16 bin dB and post-compensation and the is This measurement is18 updated for less than or equal to dB.period incremented every sample each UE every TTI by using the (5 seconds) the wideband respectiveCQI to UE's mostwith recent number of calculated values where calculate Wideband downlink SINR each one is greater than 18 bin dB and post-compensation and the is This than measurement is20 updated for less or equal to dB.period incremented every sample each UE every TTI by using the (5 seconds) the wideband respectiveCQI to UE's mostwith recent number of calculated values where calculate Wideband downlink SINR each one is greater than 20 bin dB and post-compensation and the is This measurement is22 updated for less than or equal to dB.period incremented every sample each UE every TTI by using the (5 seconds) the wideband respectiveCQI to UE's mostwith recent number of calculated values where calculate Wideband downlink SINR each one is greater than 22 bin dB and post-compensation and the is This than measurement is24 updated for less or equal to dB.period incremented every sample each UE every TTI by using the (5 seconds) the wideband respectiveCQI to UE's mostwith recent number of calculated values where calculate Wideband downlink SINR each one is greater than 24 bin dB and post-compensation and the is less than or equal 26 dB.period (5 incremented everyto sample seconds) with the respective number of calculated values where each one is greater than 26 dB and less than or equal to 28 dB.
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This measurement is updated for each UE every TTI by using the UE's most recent wideband CQI to calculate Wideband downlink SINR post-compensation and the binfor is This measurement is updated incremented every sample period each UE every TTI by using the (5 seconds) the wideband respectiveCQIs UE's mostwith recent number of calculated values (i.e. 2 CQIs or codewords) towhere each one is greater than 28 dBSINR and calculate Widebandisdownlink This measurement updated for less than or equal to 30 dB. post-compensation andusing the bin each UE every TTI by theis incremented every sample period UE's most recent wideband CQIs (5 seconds) with respective (i.e. 2 CQIs or the codewords) to number of calculated values where calculate Wideband downlink SINR This measurement updated for to each one is greateris than or equal post-compensation and the bin is eachdBUE every TTI byorusing the -10 and less than equal to -8 incremented every sample period UE's most recent wideband CQIs (5 dB. seconds) with respective (i.e. 2 CQIs or the codewords) to number of calculated values where calculate Wideband downlink SINR This measurement updated for each one is greateris than -8 dB and post-compensation and the bin is each UE every TTI by using the less than or equal to -6 dB. incremented every sample period UE's most recent wideband CQIs (5 seconds) with respective (i.e. 2 CQIs or the codewords) to number of calculated values where calculate Wideband downlink SINR This measurement updated for each one is greateris than -6 dB and post-compensation and the bin eachthan UE every TTItoby-4using theis less or equal dB. incremented everywideband sample period UE's most recent CQIs (5 seconds) with the respective (i.e. 2 CQIs or codewords) to number ofWideband calculateddownlink values where calculate SINR This measurement isthan updated for each one is greater -4 dB and post-compensation and the bin is each UE every TTI by using the less than or equal to -2 dB. incremented every sample period UE's most recent wideband CQIs (5 seconds) with respective (i.e. 2 CQIs or the codewords) to number of calculated values where calculate Wideband downlink SINR This measurement updated for each one is greateris than -2 dB and post-compensation and the bin eachthan UE every TTItoby0 using theis less or equal dB. incremented everywideband sample period UE's most recent CQIs (5 seconds) with the respective (i.e. 2 CQIs or codewords) to number ofWideband calculateddownlink values where calculate SINR This measurement isthan updated for each one is greater 0 dB and post-compensation and the bin is each UE every TTI by using the less than or equal to 2 dB. period (5 incremented every sample UE's most recent wideband CQIs seconds) with respective (i.e. 2 CQIs or the codewords) to number of calculated values where calculate Wideband downlink SINR This measurement updated for each one is greateris than 2 dB and post-compensation and the bin eachthan UE every TTItoby4 using theis less or equal dB. incremented everywideband sample period UE's most recent CQIs (5 seconds) with the respective (i.e. 2 CQIs or codewords) to number ofWideband calculateddownlink values where calculate SINR This measurement isthan updated for each one is greater 4 dB and post-compensation and the bin each UE every TTItoby6 using theis less than or equal dB. incremented everywideband sample period UE's most recent CQIs (5 seconds) with the respective (i.e. 2 CQIs or codewords) to number ofWideband calculateddownlink values where calculate SINR This measurement isthan updated for each one is greater 6 dB and post-compensation and the bin eachthan UE every TTItoby8 using theis less or equal dB. incremented everywideband sample period UE's most recent CQIs (5 seconds) with the respective (i.e. 2 CQIs or codewords) to number calculateddownlink values where calculateofWideband SINR each one is greater than 8 dB post-compensation and the binand is less than or equal 10 dB.period (5 incremented everyto sample seconds) with the respective number of calculated values where each one is greater than 10 dB and less than or equal to 12 dB.
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
This measurement is updated for each UE every TTI by using the UE's most recent wideband CQIs (i.e. 2 CQIs or codewords) to calculate Widebandisdownlink This measurement updatedSINR for post-compensation and the bin each UE every TTI by using theis incremented everywideband sample period UE's most recent CQIs (5 seconds) with the respective (i.e. 2 CQIs or codewords) to number ofWideband calculateddownlink values where calculate SINR This measurement isthan updated each one is greater 12 bin dBfor and post-compensation and the each UE every TTItoby14using theis less than or equal dB. incremented everywideband sample period UE's most recent CQIs (5 seconds) with the respective (i.e. 2 CQIs or codewords) to number ofWideband calculateddownlink values where calculate SINR This measurement isthan updated each one is greater 14 bin dBfor and post-compensation and the eachthan UE every TTItoby16using theis less or equal dB. incremented everywideband sample period UE's most recent CQIs (5 seconds) with the respective (i.e. 2 CQIs or codewords) to number ofWideband calculateddownlink values where calculate SINR This measurement isthan updated each one is greater 16 bin dBfor and post-compensation and the each UE every TTItoby18using theis less than or equal dB. incremented everywideband sample period UE's most recent CQIs (5 seconds) with the respective (i.e. 2 CQIs or codewords) to number ofWideband calculateddownlink values where calculate SINR This measurement isthan updated each one is greater 18 bin dBfor and post-compensation and the eachthan UE every TTItoby20using theis less or equal dB. incremented everywideband sample period UE's most recent CQIs (5 seconds) with the respective (i.e. 2 CQIs or codewords) to number ofWideband calculateddownlink values where calculate SINR This measurement isthan updated each one is greater 20 bin dBfor and post-compensation and the each UE every TTItoby22using theis less than or equal dB. incremented everywideband sample period UE's most recent CQIs (5 seconds) with the respective (i.e. 2 CQIs or codewords) to number ofWideband calculateddownlink values where calculate SINR This measurement isthan updated each one is greater 22 bin dBfor and post-compensation and the eachthan UE every TTItoby24using theis less or equal dB. incremented everywideband sample period UE's most recent CQIs (5 seconds) with the respective (i.e. 2 CQIs or codewords) to number ofWideband calculateddownlink values where calculate SINR This measurement isthan updated each one is greater 24 bin dBfor and post-compensation and the each UE every TTItoby26using theis less than or equal dB. incremented everywideband sample period UE's most recent CQIs (5 seconds) with the respective (i.e. 2 CQIs or codewords) to number ofWideband calculateddownlink values where calculate SINR #N/A each one is greater than 26 bin dB and post-compensation and the is less than or equal 28 dB.period (5 incremented everyto sample seconds) with the respective number of calculated values where #N/A one is greater than 28 dB and each less than or equal to 30 dB.
Sum
#N/A
Sum
Sum
Sum
Sum
Sum
Sum
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Sum
Sum
Sum
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
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#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
The counter is updated when an Sum inbound packet has been delivered to higher-layer protocols.
The counter is updated whenever a Sum kilo-byte is received on the plain IP interface. The counter is updated whenever a Sum packet has been transmitted successfully over the plain IP interface. The counter is updated whenever a Sum kilo-byte is transmitted over the plain IP interface. The counter is updated whenever an erroneous packets is received on the plain IP interface.
Sum
The counter is updated when an outbound packet needs to be dropped due to congestion.
Sum
The counter is updated when a kilo- Sum byte of outbound data needs to be dropped due to congestion. #N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
The counter is updated when a kilo- Sum byte of outbound data is transmitted over the plain IP interface within the PHB class. The counter is updated when a Sum packet is transmitted over the plain IP interface within the PHB class. The counter is updated when a kilo- Sum byte of outbound data needs to be dropped due to congestion within the PHB class. The counter is updated when an outbound packet needs to be dropped due to congestion within the PHB class.
Sum
The counter is updated when a kilo- Sum byte is transmitted over the plain IP interface within the PHB class. The counter is updated when a Sum packet is transmitted over the plain IP interface within the PHB class. The counter is updated when a kilo- Sum byte of outbound data needs to be dropped due to congestion within the PHB class. The counter is updated when an outbound packet needs to be dropped due to congestion within the PHB class.
Sum
The counter is updated when a kilo- Sum byte is transmitted over the plain IP interface within the PHB class. The counter is updated when a Sum packet is transmitted over the plain IP interface within the PHB class. The counter is updated when a kilo- Sum byte of outbound data needs to be dropped due to congestion within the PHB class. The counter is updated when an outbound packet needs to be dropped due to congestion within the PHB class.
Sum
The counter is updated when a kilo- Sum byte is transmitted over the plain IP interface within the PHB class. The counter is updated when a Sum packet is transmitted over the plain IP interface within the PHB class. The counter is updated when a kilo- Sum byte of outbound data needs to be dropped due to congestion within the PHB class. The counter is updated when an outbound packet needs to be dropped due to congestion within the PHB class.
Sum
The counter is updated when a kilo- Sum byte is transmitted over the plain IP interface within the PHB class. The counter is updated when a Sum packet is transmitted over the plain IP interface within the PHB class. The counter is updated when a kilo- Sum byte of outbound data needs to be dropped due to congestion within the PHB class. The counter is updated when an outbound packet needs to be dropped due to congestion within the PHB class.
Sum
The counter is updated when a kilo- Sum byte is transmitted over the plain IP interface within the PHB class. The counter is updated when a Sum packet is transmitted over the plain IP interface within the PHB class. The counter is updated when a kilo- Sum byte of outbound data needs to be dropped due to congestion within the PHB class. The counter is updated when an outbound packet needs to be dropped due to congestion within the PHB class.
Sum
The counter is updated when a kilo- Sum byte is received on the plain IP interface within the PHB class. The counter is updated when a packet is received on the plain IP interface within the PHB class.
Sum
The counter is updated when a kilo- Sum byte is received on the plain IP interface within the PHB class. The counter is updated when a packet is received on the plain IP interface within the PHB class.
Sum
The counter is updated when a kilo- Sum byte is received on the plain IP interface within the PHB class. The counter is updated when a packet is received on the plain IP interface within the PHB class.
Sum
The counter is updated when a kilo- Sum byte is received on the plain IP interface within the PHB class. The counter is updated when a packet is received on the plain IP interface within the PHB class.
Sum
The counter is updated when a kilo- Sum byte is received on the plain IP interface within the PHB class. The counter is updated when a packet is received on the plain IP interface within the PHB class.
Sum
The counter is updated when a kilo- Sum byte is received on the plain IP interface within the PHB class. The counter is updated when a packet is received on the plain IP interface within the PHB class.
Sum
The counter is incremented every Sum second by the number of kilo-bytes received in valid Ethernet frames by the interface. The counter is incremented every Sum second by the number of kilo-bytes transmitted in valid Ethernet frames by the interface. The counter is incremented every second by the number of Ethernet frames received by the interface.
Sum
The counter is incremented every Sum second by the number of Ethernet frames transmitted by the interface. The counter is incremented every second by the number of errored Ethernet frames received by the interface.
Sum
The counter is incremented for every ingress Ethernet frames that is discarded due to rate limiting.
Sum
The counter is incremented every Sum second by the number of Ethernet packets to be received that were discarded due to frame's VID is not matching theisVLAN membership The counter incremented every Sum configuration of that switch-port. second by the number of Ethernet frames to be transmitted that were discarded due to egress shaping per per Thequeue counter is interface. incremented every
Sum
second by the number of Ethernet frames to be transmitted that were discarded due to egress shaping per per Thequeue counter is interface. incremented every
Sum
second by the number of Ethernet frames to be transmitted that were discarded due to egress shaping per per Thequeue counter is interface. incremented every
Sum
second by the number of Ethernet frames to be transmitted that were discarded due to egress shaping per per Thequeue counter is interface. incremented every
Sum
second by the number of Ethernet frames to be transmitted that were discarded due to egress shaping per queue per interface.
The counter is incremented every second by the number of Ethernet frames to be transmitted that were discarded due to egress shaping per per Thequeue counter is interface. incremented for
Sum
Sum
every ingress Ethernet 64-byte block that is discarded due to rate limiting. The counter is updated when an outbound packet related to a protect policy is transmitted successfully.
Sum
The counter is updated when an Sum received ESP packets addressed to a local tunnel endpoint which where received with a SPI which is related to a known The counterpolicy. is updated when an Sum outbound packet matching a discard policy is transmitted successfully. NOTE: Discarded packet matching The counter is updated when a Sum the default policy shall not belocal packets not addressed to an counted with thisorcounter. tunnel endpoint packets which do not have an ESP or AH header which are matching a discard policy Sum The counter is updated for every is received. packet that is bypassed in egress direction. The counter is updated for every packet not addressed to an local tunnel endpoint or packets which do not have an ESP or AH header shall be counted which are The counter is updated for every matching a bypass policy. packet that is dropped due to
Sum
Sum
ingress rate limiting. The counter is updated for every Sum packet that is discarded due to filter violations. The counter is updated when an Sum inbound packet has been delivered to higher-layer protocols. The counter is updated whenever a Sum kilo-octet is received on the VLAN IP interface.
The counter is updated whenever a Sum packet has been transmitted successfully over the VLAN interface. The counter is updated whenever a Sum kilo-byte is transmitted over the VLAN IP interface. The counter is updated whenever an erroneous packets is received on the VLAN IP interface.
Sum
The counter is updated when an outbound packet needs to be dropped due to congestion.
Sum
The counter is updated when a kilo- Sum byte of outbound data needs to be dropped due to congestion. #N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
#N/A
Sum
The counter is updated when a kilo- Sum byte is transmitted within the PHB class.
The counter is updated when a packet is transmitted within the PHB class.
Sum
The counter is updated when a kilo- Sum byte of outbound data needs to be dropped due to congestion within the PHB class. The counter is updated when a Sum packet needs to be dropped due to congestion within the PHB class. The counter is updated when a kilo- Sum byte is transmitted within the PHB class. The counter is updated when a packet is transmitted within the PHB class.
Sum
The counter is updated when a kilo- Sum byte is dropped due to congestion within the PHB class. The counter is updated when a Sum packet needs to be dropped due to congestion within the PHB class. The counter is updated when a kilo- Sum byte is transmitted within the PHB class. The counter is updated when a packet is transmitted within the PHB class.
Sum
The counter is updated when a kilo- Sum byte of outbound data needs to be dropped due to congestion within the PHB class. The counter is updated when a Sum packet needs to be dropped due to congestion within the PHB class. The counter is updated when a kilo- Sum byte is transmitted within the PHB class.
The counter is updated when a packet is transmitted within the PHB class.
Sum
The counter is updated when a kilo- Sum byte of outbound data needs to be dropped due to congestion within the PHB class. The counter is updated when a Sum packet needs to be dropped due to congestion within the PHB class. The counter is updated when a kilo- Sum byte is transmitted within the PHB class. The counter is updated when a packet is transmitted within the PHB class.
Sum
The counter is updated when a kilo- Sum byte of outbound data needs to be dropped due to congestion within the PHB class. The counter is updated when a Sum packet needs to be dropped due to congestion within the PHB class. The counter is updated when a kilo- Sum byte is transmitted within the PHB class. The counter is updated when a packet is transmitted within the PHB class.
Sum
The counter is updated when a kilo- Sum byte of outbound data needs to be dropped due to congestion within the PHB class. The counter is updated when a Sum packet needs to be dropped due to congestion within the PHB class. The counter is updated when a kilo- Sum byte is received within the PHB class.
The counter is updated when a packet is received within the PHB class.
Sum
The counter is updated when a kilo- Sum byte is received within the PHB class. The counter is updated when a packet is received within the PHB class.
Sum
The counter is updated when a kilo- Sum byte is received within the PHB class. The counter is updated when a packet is received within the PHB class.
Sum
The counter is updated when a kilo- Sum byte is received within the PHB class. The counter is updated when a packet is received within the PHB class.
Sum
The counter is updated when a kilo- Sum byte is received within the PHB class. The counter is updated when a packet is received within the PHB class.
Sum
The counter is updated when a kilo- Sum byte is received within the PHB class. The counter is updated when a packet is received within the PHB class.
Sum
The counter is incremented when a Sum frame is received on the interface.
The counter is incremented when a Sum kilo-octet is received on the interface. The counter is incremented when a Sum frame is transmitted over the interface. The counter is incremented when a Sum kilo-octet is transmitted over the interface. The counter is updated when a frame is received on the interface.
Sum
The counter is updated when an octet is received on the interface.
Sum
The counter is updated when a frame is transmitted over the interface.
Sum
The counter is updated when an octet is transmitted over the interface.
Sum
The counter is incremented every Sum second by the number of Ethernet frames received by the interface that were discarded due to no VLAN #N/A interface has been configured at that Ethernet MAC for the frame's VID. The counter is in hardware implemented as 16 bit counter, #N/A therefore it is possible that it rolls over within 15 minutes. An indication of a possible misconfiguration can be derived anyway. The counter is incremented every Sum second by the number of Ethernet packets to be transmitted that were discarded due to egress shaping (Buffer overflow). The counter is updated for every Average, time reply message to a TWAMP initiator message that the BTS has sent over this TWAMP session.
The counter is updated for every Max reply message to a TWAMP initiator message that the BTS has sent over this TWAMP session, for which a new is maximum trip The counter updated round for every Min time is detected. reply message to a TWAMP initiator message that the BTS has sent over this TWAMP session, for which a new is minimum trip The counter updatedround for every time is detected. lost TWAMP message for the
Sum
session. The counter is updated for every transmitted TWAMP message for the session.
Sum
Counter is incremented with each successful normal setup request message.
Cumulative
Counter is incremented with each Cumulative successful handover setup request message. Counter is incremented with each Cumulative successful handover setup request message. Counter is incremented with each rejected normal setup request.
Cumulative
Counter is incremented with each rejected handover setup request.
Cumulative
Counter is incremented with each Cumulative rejected emergency setup request.
Total UL GBR rate is measured Cumulative within sampling interval. At the end of the measurement period (e.g. 15 min.) the mean value is calculated and stored in Total UL GBR rate is measured Cumulative the performance measurement file. within sampling interval. At the end of the measurement period (e.g. 15 min.) the max. value is stored in the performance measurement file
Total DL GBR rate is measured Cumulative within sampling interval. At the end of the measurement period (e.g. 15 min.) the mean value is calculated and stored in Total DL GBR rate is measured Cumulative the performance measurement file. within sampling interval. At the end of the measurement period (e.g. 15 min.) the max. value is stored in the performanceevery The counter is incremented Cumulative measurement file. second by the number of received frequency synchronisation messages. "The value is updated every minute Min using the following formula: minValue = min (minValue, actualValue)" "The value is updated every minute Average using the following formula: aveValueNew = (aveValueOld * (actualIntervalLength - 1) + actualValue) actualIntervalLength" "The value is/updated every minute Max using the following formula: maxValue = max (maxValue, actualValue)" The number of seconds during this Sum interval while the timing over packet frequency synchronisation service was in locked state. The counter is incremented every second by the number of received ToP sync event messages.
Cumulative
"The value is updated every minute Min using the following formula: minValue = min (minValue, actualValue)" "The value is updated every minute Average using the following formula: aveValueNew = (aveValueOld * (actualIntervalLength - 1) + actualValue) actualIntervalLength" "The value is/updated every minute Max using the following formula: maxValue = max (maxValue, actualValue)" The number of seconds during this Sum interval while the timing over packet phase synchronisation service was in locked state.
The counter is updated at sampling Sum intervals.
The counter is updated at sampling Sum intervals.
Sum
Sum
Sum
Sum
Sum
Sum
Sum
Sum
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Min
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Sum
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Trigger Type
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1 sec
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1 sec
Sample
1 sec
Sample
1 sec
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
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Event
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Event
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Duration
Duration
Duration
Duration
Duration
Event
Event
Event
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Sample
1 sec
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1 sec
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1 sec
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1 sec
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1 sec
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1 sec
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1 sec
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1 sec
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1 sec
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1 sec
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1 sec
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1 sec
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1 sec
Event
Event
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Duration
Duration
Event
Event
Event
Event
Event
Event
Event
Event
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Event
Event
Event
Event
Event
Event
Event
Duration
Duration
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
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Event
Event
Event
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Event
Sample
5 sec
Sample
5 sec
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
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Event
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Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Sample
Event
Event
Event
Event
Event
Event
Event
Event
Sample
1ms
Sample
1ms
Sample
1ms
Sample
1ms
Sample
1ms
Sample
1ms
Sample
1ms
Sample
1ms
Sample
1ms
Event
Event
Event
Sample
Event
1 sec
Event
Event
Event
Event
Event
Sample
Event
Event
Event
Event
Event
Event
1 sec
Event
Event
Event
Event
Sample
1 sec
Sample
1 sec
Sample
1 sec
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1 sec
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1 sec
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1 sec
Event
Event
Event
Sample
1 sec
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1 sec
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1 sec
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1 sec
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1 sec
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1 sec
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1 sec
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1 sec
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1 sec
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1 sec
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1 sec
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1 sec
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1 sec
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1 sec
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1 sec
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1 sec
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1 sec
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1 sec
Sample
500 ms
Sample
500 ms
Sample
500 ms
Sample
500 ms
Sample
500 ms
Sample
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
500 ms
Event
Event
Event
Event
Event
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Event
Event
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Sample
5 sec
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5 sec
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5 sec
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5 sec
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5 sec
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5 sec
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5 sec
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5 sec
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5 sec
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5 sec
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5 sec
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5 sec
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5 sec
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5 sec
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5 sec
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5 sec
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5 sec
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5 sec
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5 sec
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5 sec
Sample
5 sec
Sample
5 sec
Sample
1 sec
Sample
500 ms
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Sample
1s
Sample
1s
Sample
1s
Sample
1s
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
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Event
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Event
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Event
Event
Event
Event
Event
Event
Event
Event
Event
Sample
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
1s
Event
Event
Event
Event
Event
Event
Event
Sample
Event
Event
Event
Event
1s
Event
Event
Event
Event
Event
Event
Event
Event
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Event
Event
Event
Event
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Event
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Sample
1 sec
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1 sec
Event
Event
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Sample
1s
Event
Event
Event
Event
Event
Event
Event
Event
Sample
Sample
Sample
10 s
Sample
Sample
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
10 s
Event
Event
Event
Event
Event
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Event
Event
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Event
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Event
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Sample
1 sec
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1 sec
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1 sec
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1 sec
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1 sec
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1 sec
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1 sec
Event
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1 sec
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1 sec
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1 sec
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1 sec
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1 sec
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1 sec
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1 sec
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1 sec
Event
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Sample
Event
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1 sec
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Sample
5 sec
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5 sec
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5 sec
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5 sec
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5 sec
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5 sec
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5 sec
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5 sec
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5 sec
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5 sec
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5 sec
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5 sec
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5 sec
Event
Event
Event
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Event
Event
Event
Event
Event
Event
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Event
Event
Sample
5 seconds
Sample
5 seconds
Sample
5 seconds
Duration
5 seconds
Sample
5 seconds
Duration
5 seconds
Sample
5 seconds
Sample
5 seconds
Sample
5 seconds
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5 seconds
Duration
5 seconds
Sample
5 seconds
Duration
5 seconds
Sample
5 seconds
Sample
5 seconds
Sample
5 seconds
Sample
5 seconds
Duration
5 seconds
Sample
5 seconds
Duration
5 seconds
Sample
5 seconds
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
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Event
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Event
Event
Event
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Event
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Event
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Event
Sample
15 minutes
Sample
15 minutes
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15 minutes
Sample
15 minutes
Sample
15 minutes
Sample
15 minutes
Sample
15 minutes
Sample
15 minutes
Duration
15 minutes
Sample
15 minutes
Sample
15 minutes
Sample
15 minutes
Sample
15 minutes
Duration
15 minutes
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Event
Sample
1s
Sample
1s
Event
Event
Sampling Interval in issue 08
Sampling Interval in release RL70 Unit
Integer number
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#N/A
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#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
ms
ms
ms
ms
ms
ms
Integer number
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Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
1 ms
1 ms
Integer number
1 ms
1 ms
Integer number
1 sec
1 sec
s
1 ms
1 ms
Integer number
1 ms
1 ms
Integer number
1 sec
1 sec
s
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
kilobytes
kilobytes
kilobytes
kilobytes
kilobytes
kilobytes
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
Integer number
Integer number
Integer number
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 ms
1 ms
Integer number
1 ms
1 ms
Integer number
1 ms
1 ms
Integer number
1 ms
1 ms
Integer number
Integer number
Integer number
Integer number
#N/A
#N/A
Integer number
1 ms
1 ms
Integer number
1ms
1ms
Integer number
Integer number
1ms
1ms
Integer number
Integer number
ms
ms
ms
ms
ms
Integer number
1ms
1ms
Integer number
1ms
1ms
Integer number
1ms
1ms
Integer number
1ms
1ms
Integer number
1.024 sec
#N/A
Integer number
1.024 sec
#N/A
Integer number
Integer number
Integer number
Integer number
Integer number
ms
ms
ms
ms
ms
Integer number
Integer number
Integer number
Integer number
1s
1s
Integer number
Integer number
1s
1s
Integer number
Integer number
1 sec
#N/A
s
Integer number
Integer number
Integer number
Integer number
1 ms
1 ms
Integer number
1 ms
1 ms
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
#N/A
#N/A
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
bytes
bytes
bytes
bytes
dBm
dBm
dBm
dBm
dBm
dBm
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
dB
dB
dB
dB
dB
dB
dB
dB
dB
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
dBm
dBm
dBm
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
dBm
dBm
dBm
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
dB
dB
dB
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
dB
dB
dB
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
1 ms
1 ms
1.0E-1 dBm
1 ms
1 ms
1.0E-1 dBm
1 ms
1 ms
1.0E-1 dBm
1 ms
1 ms
1.0E-1 dBm
1 ms
1 ms
1.0E-1 dBm
1 ms
1 ms
1.0E-1 dBm
1 ms
1 ms
1.0E-1 dBm
1 ms
1 ms
1.0E-1 dBm
1 ms
1 ms
dBm
100 ms
100 ms
1.0E-1 dB
100 ms
100 ms
1.0E-1 dB
100 ms
100 ms
1.0E-1 dB
100 ms
100 ms
1.0E-1 dB
100 ms
100 ms
1.0E-1 dB
100 ms
100 ms
1.0E-1 dB
100 ms
100 ms
1.0E-1 dB
100 ms
100 ms
1.0E-1 dB
100 ms
100 ms
1.0E-1 dB
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
#N/A
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
#N/A
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
s
s
s
s
s
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
ms
ms
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
ms
ms
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
0.001 CQI
0.001 CQI
0.001 CQI
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
5 sec
5 sec
mW
5 sec
5 sec
mW
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
%
%
0.1%
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
%
%
0.1%
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
1ms
1ms
Integer number
1ms
1ms
Integer number
1ms
1ms
Integer number
1ms
1ms
Integer number
1ms
1ms
Integer number
1ms
1ms
0.1UE
1ms
1ms
Integer number
1ms
1ms
0.1UE
1ms
1ms
Integer number
Integer number
Integer number
Integer number
1 sec
1 sec
value*100.0
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
1 sec
1 sec
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
Integer number
Integer number
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
500 ms
500 ms
Integer number
500 ms
500 ms
Integer number
500 ms
500 ms
Integer number
500 ms
500 ms
Integer number
500 ms
500 ms
Integer number
500 ms
500 ms
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
5 sec
5 sec
0.1%
5 sec
5 sec
0.1%
5 sec
5 sec
0.1%
5 sec
5 sec
0.1%
5 sec
5 sec
0.1%
5 sec
5 sec
0.1%
5 sec
5 sec
0.1%
5 sec
5 sec
0.1%
5 sec
5 sec
0.1%
5 sec
5 sec
0.1%
5 sec
5 sec
0.01 %
5 sec
5 sec
0.1%
5 sec
5 sec
0.1%
5 sec
5 sec
0.1%
5 sec
5 sec
0.1%
5 sec
5 sec
0.1%
5 sec
5 sec
0.1%
5 sec
5 sec
0.1%
5 sec
5 sec
0.1%
5 sec
5 sec
0.1%
5 sec
5 sec
0.1%
5 sec
5 sec
0.01 %
1 sec
#N/A
Integer number
500 ms
500 ms
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
kbyte
kbyte
kbyte
kbyte
kilobytes
kilobytes
kilobytes
kilobytes
bytes
bytes
1s
1s
kbit/s
1s
1s
kbit/s
1s
1s
kbit/s
1s
1s
kbit/s
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
kilobytes
kilobytes
kilobytes
kilobytes
kilobytes
kilobytes
kilobytes
kilobytes
kilobytes
kilobytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
bytes
Integer number
Integer number
bit
ms
bit
ms
bit
ms
bit
ms
bit
ms
bit
ms
bit
ms
bit
ms
bit
ms
1s
1s
kbit/s
bit
ms
bit
ms
bit
ms
bit
ms
bit
ms
bit
ms
bit
ms
bit
ms
bit
ms
1s
1s
kbit/s
byte
byte
byte
byte
kilobytes
ms
ms
ms
ms
ms
ms
ms
ms
ms
ms
ms
ms
ms
ms
ms
ms
ms
ms
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
#N/A
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
#N/A
Integer number
#N/A
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
Integer number
Integer number
Integer number
Integer number
1s
1s
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
10 s
10 s
Integer number
10 s
Integer number
10 s
Integer number
10 s
10 s
Integer number
#N/A
Integer number
#N/A
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
#N/A
Integer number
#N/A
Integer number
Integer number
Integer number
byte
byte
byte
byte
byte
byte
byte
byte
byte
byte
byte
byte
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
1 sec
1 sec
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
ms
ms
ms
ms
ms
ms
ms
ms
ms
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
1 sec
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
kilobytes
#N/A
kilobytes
#N/A
kilobytes
#N/A
kilobytes
#N/A
kilobytes
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
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5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
5 sec
5 sec
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
#N/A
Integer number
5 seconds
#N/A
Integer number
5 seconds
#N/A
Integer number
5 seconds
#N/A
Integer number
5 seconds
#N/A
Milliseconds
5 seconds
#N/A
Integer number
5 seconds
#N/A
Milliseconds
5 seconds
#N/A
Integer number
5 seconds
#N/A
Integer number
5 seconds
#N/A
Integer number
5 seconds
#N/A
Integer number
5 seconds
#N/A
Milliseconds
5 seconds
#N/A
Integer number
5 seconds
#N/A
Milliseconds
5 seconds
#N/A
Integer number
5 seconds
#N/A
Integer number
5 seconds
#N/A
Integer number
5 seconds
#N/A
Integer number
5 seconds
#N/A
Milliseconds
5 seconds
#N/A
Integer number
5 seconds
#N/A
Milliseconds
5 seconds
#N/A
Integer number
15 minutes
packets
15 minutes
Kilobyte
15 minutes
Packets
15 minutes
Kilobyte
15 minutes
Packets
15 minutes
Packets
15 minutes
Kilobyte
#N/A
packets
#N/A
Kilobyte
#N/A
Packets
#N/A
Kilobyte
#N/A
Packets
#N/A
Kilobyte
15 minutes
Kilobyte
15 minutes
Packets
15 minutes
Kilobyte
15 minutes
Packets
15 minutes
Kilobyte
15 minutes
Packets
15 minutes
Kilobyte
15 minutes
Packets
15 minutes
Kilobyte
15 minutes
Packets
15 minutes
Kilobyte
15 minutes
Packets
15 minutes
Kilobyte
15 minutes
Packets
15 minutes
Kilobyte
15 minutes
Packets
15 minutes
Kilobyte
15 minutes
Packets
15 minutes
Kilobyte
15 minutes
Packets
15 minutes
Kilobyte
15 minutes
Packets
15 minutes
Kilobyte
15 minutes
Packets
15 minutes
Kilobyte
15 minutes
Packets
15 minutes
Kilobyte
15 minutes
Packets
15 minutes
Kilobyte
15 minutes
Packets
15 minutes
Kilobyte
15 minutes
Packets
15 minutes
Kilobyte
15 minutes
Packets
15 minutes
Kilobyte
15 minutes
Packets
15 minutes
Kilobyte
15 minutes
Kilobyte
15 minutes
Packets
15 minutes
Packets
15 minutes
Packets
15 minutes
Packets
15 minutes
packets
15 minutes
packets
15 minutes
packets
15 minutes
packets
15 minutes
packets
15 minutes
packets
15 minutes
packets
15 minutes
Bytes
15 minutes
Packets
15 minutes
Packets
15 minutes
Packets
15 minutes
Packets
15 minutes
Packets
15 minutes
Packets
15 minutes
Packets
15 minutes
Packets
15 minutes
Packets
15 minutes
Kilobyte
15 minutes
Packets
15 minutes
Kilobyte
15 minutes
Packets
15 minutes
Packets
1h, mandatory
Kilobyte
#N/A
Packets
#N/A
Kilobyte
#N/A
Packets
#N/A
Kilobyte
#N/A
Packets
#N/A
Kilobyte
1h, mandatory
Kilobyte
1h, mandatory
Packets
1h, mandatory
Kilobyte
1h, mandatory
Packets
1h, mandatory
Kilobyte
1h, mandatory
Packets
1h, mandatory
Kilobyte
1h, mandatory
Packets
1h, mandatory
Kilobyte
1h, mandatory
Packets
1h, mandatory
Kilobyte
1h, mandatory
Packets
1h, mandatory
Kilobyte
1h, mandatory
Packets
1h, mandatory
Kilobyte
1h, mandatory
Packets
1h, mandatory
Kilobyte
1h, mandatory
Packets
1h, mandatory
Kilobyte
1h, mandatory
Packets
1h, mandatory
Kilobyte
1h, mandatory
Packets
1h, mandatory
Kilobyte
1h, mandatory
Packets
1h, mandatory
Kilobyte
1h, mandatory
Packets
1h, mandatory
Kilobyte
1h, mandatory
Packets
1h, mandatory
Kilobyte
1h, mandatory
Packets
1h, mandatory
Kilobyte
1h, mandatory
Packets
1h, mandatory
Kilobyte
1h, mandatory
Packets
1h, mandatory
Kilobyte
1h, mandatory
Packets
Packets
15 minutes
Kilobyte
15 minutes
Packets
15 minutes
Kilobyte
15 minutes
Packets
15 minutes
Kilobyte
15 minutes
Packets
15 minutes
Kilobyte
15 minutes
Packets
#N/A
packets
#N/A
packets
15 minutes
packets
100 ms, 1 second
Microseconds
15 minutes
Microseconds
15 minutes
Microseconds
15 minutes
Packets
15 minutes
Packets
15 minutes
Integer number
15 minutes
Integer number
15 minutes
Integer number
15 minutes
Integer number
15 minutes
Integer number
15 minutes
Integer number
15 minutes
15 minutes
kbit/s
15 minutes
15 minutes
kbit/s
15 minutes
15 minutes
kbit/s
15 minutes
15 minutes
kbit/s
15 minutes
15 minutes
packets
15 minutes
15 minutes
ppb
15 minutes
15 minutes
ppb
15 minutes
15 minutes
ppb
15 minutes
15 minutes
s
15 minutes
15 minutes
packets
15 minutes
15 minutes
nanoseconds
15 minutes
15 minutes
nanoseconds
15 minutes
15 minutes
nanoseconds
15 minutes
15 minutes
s
kB
kB
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
Integer number
kbit/s
kbit/s
Integer number
Integer number
Range
Example Values
Dependencies with Other Counters
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
N/A
N/A
-(15.000)...15.000
-(15.000)...15.000
-(15.000)...15.000
NA
0-1000
0-1000
[2;87]
NA
NA
NA
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
0-1000
0-1000
0-1000
0-1000
0-1000
0-1000
0-1000
0-1000
0-1000
0-1000
0-10000
0-1000
0-1000
0-1000
0-1000
0-1000
0-1000
0-1000
0-1000
0-1000
0-1000
0-10000
N/A
NA
NA
NA
NA
[0-1000]
[0-1000]
[0-1000]
[0-1000]
[0-1000]
[0-1000]
[0-1000]
[0-1000]
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bits
32 bit
32 bits
32 bits
32 bits
32 bits
32 bits
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bits
32 bits
32 bits
32 bits
32 bits
32 bits
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
32 bit
NA
NA
NA
NA
Operability Class
Related to Feature
Related to Feature in issue 08
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE522: S1 partial reset
• LTE522: S1 partial reset
• LTE522: S1 partial reset
• LTE522: S1 partial reset
• LTE522: S1 partial reset
• LTE522: S1 partial reset
• LTE522: S1 partial reset
• LTE522: S1 partial reset
• LTE562: CSFB to UTRAN • LTE562: CSFB to UTRAN or GSM or GSM via redirect via redirect
• LTE805: Perf Counter • LTE805: Perf Counter Plus Plus Package for Res Package for Res Utilization and Utilization and Throughput I Throughput I • LTE805: Perf Counter • LTE805: Perf Counter Plus Plus Package for Res Package for Res Utilization and Utilization and Throughput I Throughput I • LTE9: Service differentiation • LTE572: IMS emergency sessions •• LTE7: LTE9: Support Service of multiple EPS bearer differentiation
• LTE7: Support of multiple EPS bearer • LTE9: Service differentiation • LTE572: IMS emergency sessions • LTE7: Support of multiple EPS bearer • LTE9: Service differentiation • LTE572: IMS emergency sessions
• LTE572: IMS emergency sessions •• LTE7: LTE9: Support Service of multiple • LTE7: Support of multiple EPS EPS bearer differentiation bearer • LTE572: IMS emergency • LTE9: Service differentiation sessions • LTE572: IMS emergency sessions •• LTE7: Support of multiple LTE68: Support of cell • LTE68: Support of cell based EPS basedbearer location service location service
• LTE68: Support of cell based location service
• LTE68: Support of cell based location service
• LTE782: ANR Fully UE based
• LTE782: ANR Fully UE based
• LTE782: ANR Fully UE based
• LTE782: ANR Fully UE based
• LTE494: Commercial • LTE494: Commercial Mobile Alert Mobile Alert System System • LTE843: ETWS broadcast • LTE843: ETWS broadcast
• LTE494: Commercial • LTE494: Commercial Mobile Alert Mobile Alert System System • LTE843: ETWS broadcast • LTE843: ETWS broadcast • LTE494: Commercial Mobile Alert System
• LTE494: Commercial Mobile Alert System
• LTE494: Commercial Mobile Alert System
• LTE494: Commercial Mobile Alert System
• LTE951: Enhanced cell ID • LTE951: Enhanced cell ID location location service service
• LTE951: Enhanced cell ID • LTE951: Enhanced cell ID location location service service
• LTE951: Enhanced cell ID • LTE951: Enhanced cell ID location location service service
• LTE951: Enhanced cell ID • LTE951: Enhanced cell ID location location service service
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance • LTE651: Performance Monitoring I Monitoring I • LTE829: Increased uplink MCS • LTE829: Increased uplink range MCS range • LTE651: Performance • LTE651: Performance Monitoring I Monitoring I • LTE829: Increased uplink MCS • LTE829: Increased uplink range MCS range • LTE651: Performance • LTE651: Performance Monitoring I Monitoring I • LTE829: Increased uplink MCS • LTE829: Increased uplink range MCS range • LTE651: Performance • LTE651: Performance Monitoring I Monitoring I • LTE829: Increased uplink MCS • LTE829: Increased uplink range MCS range
• LTE651: Performance Monitoring I • LTE44: 64 QAM in UL
• LTE44: 64 QAM in UL • LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I • LTE44: 64 QAM in UL
• LTE44: 64 QAM in UL • LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I • LTE44: 64 QAM in UL
• LTE44: 64 QAM in UL • LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I • LTE44: 64 QAM in UL
• LTE44: 64 QAM in UL • LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I • LTE939: Usage based PDCCH adaptation
• LTE651: Performance Monitoring I • LTE939: Usage based PDCCH adaptation
• LTE651: Performance Monitoring I • LTE939: Usage based PDCCH adaptation
• LTE651: Performance Monitoring I • LTE939: Usage based PDCCH adaptation
• LTE651: Performance Monitoring I • LTE939: Usage based PDCCH adaptation
• LTE651: Performance Monitoring I • LTE939: Usage based PDCCH adaptation
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance • LTE651: Performance Monitoring I Monitoring I • LTE829: Increased uplink MCS • LTE829: Increased uplink range MCS range • LTE651: Performance • LTE651: Performance Monitoring I Monitoring I • LTE829: Increased uplink MCS • LTE829: Increased uplink range MCS range • LTE651: Performance • LTE651: Performance Monitoring I Monitoring I • LTE829: Increased uplink MCS • LTE829: Increased uplink range MCS range • LTE651: Performance • LTE651: Performance Monitoring I Monitoring I • LTE829: Increased uplink MCS • LTE829: Increased uplink range MCS range • LTE651: Performance Monitoring I • LTE44: 64 QAM in UL
• LTE44: 64 QAM in UL • LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I • LTE44: 64 QAM in UL
• LTE44: 64 QAM in UL • LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I • LTE44: 64 QAM in UL
• LTE44: 64 QAM in UL • LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I • LTE44: 64 QAM in UL
• LTE44: 64 QAM in UL • LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE1047: Control plane overload handling
• LTE1047: Control plane overload handling
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE1047: Control plane overload handling
• LTE1047: Control plane overload handling
• LTE770: Basic Performance Counter Collection II • LTE2054: Measurement Report addition • LTE770: Basicwith PDCP KPI counter Performancesubset Counter
• LTE770: Basic Performance Counter Collection II • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE770: Basic Performance
Collection II • LTE2054: Measurement Report addition • LTE770: Basicwith PDCP KPI counter Performancesubset Counter Collection II • LTE2054: Measurement Report addition • LTE770: Basicwith PDCP KPI counter Performancesubset Counter
Counter Collection II • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE770: Basic Performance Counter Collection II • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE770: Basic Performance Counter Collection II
Collection II • LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE1402: Uplink intra eNode B CoMP
• LTE1402: Uplink intra eNode B CoMP
• LTE805: Perf Counter • LTE805: Perf Counter Plus Plus Package for Res Package for Res Utilization and Utilization and Throughput I Throughput I • LTE805: Perf Counter • LTE805: Perf Counter Plus Plus Package for Res Package for Res Utilization and Utilization and Throughput I Throughput I • LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE805: Perf Counter • LTE805: Perf Counter Plus Plus Package for Res Package for Res Utilization and Utilization and Throughput I Throughput I
• LTE805: Perf Counter • LTE805: Perf Counter Plus Plus Package for Res Package for Res Utilization and Utilization and Throughput I Throughput I • LTE805: Perf Counter • LTE805: Perf Counter Plus Plus Package for Res Package for Res Utilization and Utilization and Throughput I Throughput I • LTE805: Perf Counter • LTE805: Perf Counter Plus Plus Package for Res Package for Res Utilization and Utilization and Throughput I Throughput I • LTE805: Perf Counter • LTE805: Perf Counter Plus Plus Package for Res Package for Res Utilization and Utilization and Throughput I Throughput I • LTE805: Perf Counter • LTE805: Perf Counter Plus Plus Package for Res Package for Res Utilization and Utilization and Throughput I Throughput I • LTE497: Smart admission • LTE497: Smart admission control control
• LTE497: Smart admission • LTE497: Smart admission control control
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE9: Service differentiation
• LTE9: Service differentiation
• LTE496: Support of QCI 2, 3 and 4
• LTE496: Support of QCI 2, 3 and 4
• LTE496: Support of QCI 2, 3 and 4
• LTE496: Support of QCI 2, 3 and 4
• LTE496: Support of QCI 2, 3 and 4
• LTE496: Support of QCI 2, 3 and 4
• LTE843: ETWS broadcast • LTE843: ETWS broadcast
• LTE843: ETWS broadcast • LTE843: ETWS broadcast
• LTE494: Commercial Mobile Alert System
• LTE494: Commercial Mobile Alert System
• LTE569: Downlink adaptive closed loop SU MIMO 4x4 - TM 4
#N/A
• LTE9: Service differentiation
• LTE9: Service differentiation
• LTE9: Service differentiation
• LTE9: Service differentiation
• LTE9: Service differentiation
• LTE9: Service differentiation
• LTE496: Support of QCI 2, 3 and 4
• LTE496: Support of QCI 2, 3 and 4
• LTE496: Support of QCI 2, 3 and 4
• LTE496: Support of QCI 2, 3 and 4
• LTE496: Support of QCI 2, 3 and 4
• LTE496: Support of QCI 2, 3 and 4
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE2023: User plane overload handling
• LTE2023: User plane overload handling
• LTE2023: User plane overload handling
• LTE2023: User plane overload handling
• LTE9: Service differentiation • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE651: Performance
• LTE9: Service differentiation • LTE2054: Measurement Report addition with PDCP KPI counter subset
Monitoring I • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE651: Performance Monitoring I • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE651: Performance
• LTE651: Performance Monitoring I • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE651: Performance Monitoring I • LTE2054: Measurement Report addition with PDCP KPI counter subset
• LTE651: Performance Monitoring I Monitoring I • LTE2054: Measurement Report • LTE2054: Measurement addition with PDCP KPI counter Report addition with PDCP subset KPI counter subset
• LTE9: Service differentiation • LTE2054: Measurement Report addition with PDCP KPI counter subset
• LTE9: Service differentiation • LTE2054: Measurement Report addition with PDCP KPI counter subset
• LTE496: Support of QCI 2, 3 and 4 • LTE2054: Measurement Report addition with PDCP KPI counter subsetof QCI • LTE496: Support
• LTE496: Support of QCI 2, 3 and 4 • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE496: Support of QCI 2, 3 and
2, 3 and 4 • LTE2054: Measurement Report addition with PDCP KPI counter subsetof QCI • LTE496: Support
4 • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE496: Support of QCI 2, 3 and
2, 3 and 4 • LTE2054: Measurement Report addition with PDCP KPI counter subset
4 • LTE2054: Measurement Report addition with PDCP KPI counter subset
• LTE1788: Automatic access class barring
• LTE1788: Automatic access class barring
• LTE9: Service differentiation • LTE2054: Measurement Report addition with PDCP KPI counter subsetof QCI • LTE496: Support
• LTE9: Service differentiation • LTE2054: Measurement Report addition with PDCP KPI counter subset
2, 3 and 4 • LTE2054: Measurement Report addition with PDCP KPI counter subsetof QCI • LTE496: Support
• LTE496: Support of QCI 2, 3 and 4 • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE496: Support of QCI 2, 3 and
2, 3 and 4 • LTE2054: Measurement Report addition with PDCP KPI counter subsetof QCI • LTE496: Support
4 • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE496: Support of QCI 2, 3 and
2, 3 and 4 • LTE2054: Measurement Report addition with PDCP KPI counter subset
4 • LTE2054: Measurement Report addition with PDCP KPI counter subset
• LTE10: EPS bearers for conversational voice • LTE496: Support of QCI 2, 3 and 4
• LTE10: EPS bearers for conversational voice • LTE496: Support of QCI 2, 3 and 4
• LTE10: EPS bearers for conversational voice • LTE496: Support of QCI 2, 3 and 4
• LTE10: EPS bearers for conversational voice • LTE496: Support of QCI 2, 3 and 4
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE569: Downlink adaptive closed loop SU MIMO 4x4 - TM 4
#N/A
• LTE1089: Downlink carrier aggregation • LTE1558: TDD Downlink carrier aggregation
• LTE1089: Downlink carrier aggregation • LTE1558: TDD Downlink carrier aggregation
• LTE1089: Downlink carrier aggregation • LTE1558: TDD Downlink carrier aggregation
• LTE1089: Downlink carrier aggregation • LTE1558: TDD Downlink carrier aggregation
• LTE1089: Downlink carrier aggregation • LTE1558: TDD Downlink carrier aggregation
• LTE1089: Downlink carrier aggregation • LTE1558: TDD Downlink carrier aggregation
• LTE1803: Downlink carrier aggregation 3 CC - 40 MHz • LTE1836: TDD downlink carrier aggregation - 60 Mhz • LTE1803: Downlink carrier
• LTE1803: Downlink carrier aggregation 3 CC - 40 MHz • LTE1836: TDD downlink carrier aggregation - 60 Mhz
aggregation 3 CC - 40 MHz • LTE1836: TDD downlink carrier aggregation - 60 Mhz • LTE1803: Downlink carrier aggregation 3 CC - 40 MHz • LTE1836: TDD downlink carrier aggregation - 60 Mhz • LTE770: Basic Performance Counter Collection II
• LTE1803: Downlink carrier aggregation 3 CC - 40 MHz • LTE1836: TDD downlink carrier aggregation - 60 Mhz • LTE1803: Downlink carrier aggregation 3 CC - 40 MHz • LTE1836: TDD downlink carrier aggregation - 60 Mhz • LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE761: Advanced target #N/A cell selection and HO retry for intra- freq HO • LTE1899: Dedicated PMcounters forAdditional E-RAB QoS • LTE1361: Additional QoS • LTE1361: Management performance failure causes performance measurements measurements • LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE9: Service • LTE7: Support of multiple EPS differentiation bearer • LTE7: Support of multiple • LTE9: Service differentiation EPS bearer • LTE9: Service • LTE7: Support of multiple EPS differentiation bearer • LTE7: Support of multiple • LTE9: Service differentiation EPS bearer • LTE9: Service • LTE7: Support of multiple EPS differentiation bearer • LTE7: Support of multiple • LTE9: Service differentiation EPS bearer • LTE9: Service • LTE7: Support of multiple EPS differentiation bearer • LTE7: Support of multiple • LTE9: Service differentiation EPS bearer • LTE9: Service #N/A differentiation • LTE7: Support of multiple EPS bearer •• LTE1899: Dedicated PM- • LTE651: Performance Monitoring I LTE651: Performance counters for Monitoring I E-RAB Management failure causes • LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE1074: Multimedia priority services
• LTE1074: Multimedia priority services
• LTE1074: Multimedia priority services
• LTE1074: Multimedia priority services
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1042: Nominal Bitrate • LTE1042: Nominal Bitrate for nonfor non-GBR bearers GBR bearers
• LTE1042: Nominal Bitrate • LTE1042: Nominal Bitrate for nonfor non-GBR bearers GBR bearers
• LTE1042: Nominal Bitrate • LTE1042: Nominal Bitrate for nonfor non-GBR bearers GBR bearers
• LTE1042: Nominal Bitrate • LTE1042: Nominal Bitrate for nonfor non-GBR bearers GBR bearers
• LTE1321: eRAB modification - GBR
• LTE1321: eRAB modification GBR
• LTE1321: eRAB modification - GBR
• LTE1321: eRAB modification GBR
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes
• LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes
• LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE1899: Dedicated PM- • LTE1899: Dedicated PM-counters counters for E-RAB for E-RAB Management failure Management failure causes causes • LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE1935: PM counters for • LTE1935: PM counters for E-RAB E-RAB HO incoming; HO incoming; RRC/ERAB setup RRC/ERAB setup time time • LTE1935: PM counters for • LTE1935: PM counters for E-RAB E-RAB HO incoming; HO incoming; RRC/ERAB setup RRC/ERAB setup time time • LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE735: RRC Connection • LTE735: RRC Connection ReRe-establishment establishment
• LTE735: RRC Connection • LTE735: RRC Connection ReRe-establishment establishment
• LTE735: RRC Connection • LTE735: RRC Connection ReRe-establishment establishment
• LTE735: RRC Connection • LTE735: RRC Connection ReRe-establishment establishment
• LTE735: RRC Connection • LTE735: RRC Connection ReRe-establishment establishment
• LTE735: RRC Connection • LTE735: RRC Connection ReRe-establishment establishment
• LTE782: ANR Fully UE based
• LTE782: ANR Fully UE based
• LTE782: ANR Fully UE based
• LTE782: ANR Fully UE based
• LTE908: ANR Inter-RAT UTRAN - Fully UE Based
• LTE908: ANR Inter-RAT UTRAN Fully UE Based
• LTE908: ANR Inter-RAT UTRAN - Fully UE Based
• LTE908: ANR Inter-RAT UTRAN Fully UE Based
• LTE908: ANR Inter-RAT UTRAN - Fully UE Based
• LTE908: ANR Inter-RAT UTRAN Fully UE Based
• LTE1442: Open access home eNode B mobility
• LTE1442: Open access home eNode B mobility
• LTE494: Commercial • LTE494: Commercial Mobile Alert Mobile Alert System System • LTE843: ETWS broadcast • LTE843: ETWS broadcast • LTE1935: PM counters for • LTE1935: PM counters for E-RAB E-RAB HO incoming; HO incoming; RRC/ERAB setup RRC/ERAB setup time time • LTE1935: PM counters for • LTE1935: PM counters for E-RAB E-RAB HO incoming; HO incoming; RRC/ERAB setup RRC/ERAB setup time time • LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE703: Downlink adaptive closed loop MIMO for two antennas • LTE569: Downlink adaptive loop SU • LTE703:closed Downlink MIMO 4x4 TM 4 adaptive closed loop MIMO
• LTE569: Downlink adaptive closed loop SU MIMO 4x4 - TM 4 • LTE703: Downlink adaptive closed loop MIMO for two antennas
for two antennas • LTE569: Downlink adaptive closed loop SU MIMO 4x4 - TM 4
• LTE569: Downlink adaptive closed loop SU MIMO 4x4 - TM 4 • LTE703: Downlink adaptive closed loop MIMO for two antennas
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE703: Downlink • LTE703: Downlink adaptive closed adaptive closed loop MIMO loop MIMO for two antennas for two antennas • LTE1035: Outer loop link adaptation for PDCCH
• LTE1035: Outer loop link adaptation for PDCCH
• LTE1035: Outer loop link adaptation for PDCCH
• LTE1035: Outer loop link adaptation for PDCCH
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE805: Perf Counter • LTE805: Perf Counter Plus Plus Package for Res Package for Res Utilization and Utilization and Throughput I Throughput I • LTE805: Perf Counter • LTE805: Perf Counter Plus Plus Package for Res Package for Res Utilization and Utilization and Throughput I Throughput I • LTE805: Perf Counter • LTE805: Perf Counter Plus Plus Package for Res Package for Res Utilization and Utilization and Throughput I Throughput I • LTE805: Perf Counter • LTE805: Perf Counter Plus Plus Package for Res Package for Res Utilization and Utilization and Throughput I Throughput I • LTE805: Perf Counter • LTE805: Perf Counter Plus Plus Package for Res Package for Res Utilization and Utilization and Throughput I Throughput I • LTE805: Perf Counter • LTE805: Perf Counter Plus Plus Package for Res Package for Res Utilization and Utilization and Throughput I Throughput I • LTE805: Perf Counter • LTE805: Perf Counter Plus Plus Package for Res Package for Res Utilization and Utilization and Throughput I Throughput I • LTE805: Perf Counter • LTE805: Perf Counter Plus Plus Package for Res Package for Res Utilization and Utilization and Throughput I Throughput I • LTE805: Perf Counter • LTE805: Perf Counter Plus Plus Package for Res Package for Res Utilization and Utilization and Throughput I Throughput I • LTE805: Perf Counter • LTE805: Perf Counter Plus Plus Package for Res Package for Res Utilization and Utilization and Throughput I Throughput I • LTE805: Perf Counter • LTE805: Perf Counter Plus Plus Package for Res Package for Res Utilization and Utilization and Throughput I Throughput I
• LTE805: Perf Counter • LTE805: Perf Counter Plus Plus Package for Res Package for Res Utilization and Utilization and Throughput I Throughput I • LTE805: Perf Counter • LTE805: Perf Counter Plus Plus Package for Res Package for Res Utilization and Utilization and Throughput I Throughput I • LTE805: Perf Counter • LTE805: Perf Counter Plus Plus Package for Res Package for Res Utilization and Utilization and Throughput I Throughput I • LTE805: Perf Counter • LTE805: Perf Counter Plus Plus Package for Res Package for Res Utilization and Utilization and Throughput I Throughput I • LTE805: Perf Counter • LTE805: Perf Counter Plus Plus Package for Res Package for Res Utilization and Utilization and Throughput I Throughput I • LTE805: Perf Counter • LTE805: Perf Counter Plus Plus Package for Res Package for Res Utilization and Utilization and Throughput I Throughput I • LTE805: Perf Counter • LTE805: Perf Counter Plus Plus Package for Res Package for Res Utilization and Utilization and Throughput I Throughput I • LTE616: Usage based PDCCH adaptation
• LTE616: Usage based PDCCH adaptation
• LTE616: Usage based PDCCH adaptation
• LTE616: Usage based PDCCH adaptation
• LTE616: Usage based PDCCH adaptation
• LTE616: Usage based PDCCH adaptation
• LTE907: TTI bundling
• LTE907: TTI bundling
• LTE907: TTI bundling
• LTE907: TTI bundling
• LTE907: TTI bundling
• LTE907: TTI bundling
• LTE907: TTI bundling
• LTE907: TTI bundling
• LTE907: TTI bundling
• LTE907: TTI bundling
• LTE1089: Downlink carrier aggregation • LTE1558: TDD Downlink carrier aggregation
• LTE1089: Downlink carrier aggregation • LTE1558: TDD Downlink carrier aggregation
• LTE1089: Downlink carrier aggregation • LTE1558: TDD Downlink carrier aggregation
• LTE1089: Downlink carrier aggregation • LTE1558: TDD Downlink carrier aggregation
• LTE1170: Inter-frequency • LTE1170: Inter-frequency load load balancing balancing
• LTE1382: Cell resource groups
• LTE1382: Cell resource groups
• LTE1382: Cell resource groups
• LTE1382: Cell resource groups
• LTE1382: Cell resource groups
• LTE1382: Cell resource groups
• LTE1382: Cell resource groups
• LTE1382: Cell resource groups
• LTE1382: Cell resource groups
• LTE1382: Cell resource groups
• LTE1382: Cell resource groups
• LTE1382: Cell resource groups
• LTE1382: Cell resource groups
• LTE1382: Cell resource groups
• LTE1382: Cell resource groups
• LTE1382: Cell resource groups
• LTE1382: Cell resource groups
• LTE1382: Cell resource groups
• LTE1382: Cell resource groups
• LTE1382: Cell resource groups
• LTE1140: Intra-frequency • LTE1140: Intra-frequency load load balancing balancing
• LTE1140: Intra-frequency • LTE1140: Intra-frequency load load balancing balancing
• LTE1140: Intra-frequency • LTE1140: Intra-frequency load load balancing balancing
• LTE1140: Intra-frequency • LTE1140: Intra-frequency load load balancing balancing
• LTE1140: Intra-frequency • LTE1140: Intra-frequency load load balancing balancing
• LTE1140: Intra-frequency • LTE1140: Intra-frequency load load balancing balancing
• LTE1800: Downlink interference shaping
• LTE1800: Downlink interference shaping
• LTE1800: Downlink interference shaping
• LTE1800: Downlink interference shaping
• LTE1800: Downlink interference shaping
• LTE1800: Downlink interference shaping
• LTE1113: eICIC - macro
• LTE1113: eICIC - macro
• LTE1113: eICIC - macro
• LTE1113: eICIC - macro
• LTE1113: eICIC - macro
• LTE1113: eICIC - macro
• LTE1113: eICIC - macro
• LTE1113: eICIC - macro
• LTE1113: eICIC - macro
• LTE1113: eICIC - macro
• LTE1113: eICIC - macro
• LTE1113: eICIC - macro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1357: Load balancing • LTE1357: Load balancing between LTE and UTRAN between LTE and UTRAN
• LTE1113: eICIC - macro
• LTE1113: eICIC - macro
• LTE2006: Flexible Scell selection
• LTE2006: Flexible Scell selection
• LTE1836: TDD downlink carrier aggregation - 60 Mhz • LTE1804: Downlink carrier aggregation 3 CCdownlink - 60 MHz • LTE1836: TDD •carrier LTE1921: eICIC aggregation micro - 60 Mhz • LTE1804: Downlink carrier aggregation 3 CC - 60 MHz • LTE651: Performance •Monitoring LTE1921: IeICIC - micro
• LTE1804: Downlink carrier aggregation 3 CC - 60 MHz • LTE1836: TDD downlink carrier aggregation - 60 Mhz •• LTE1921: - micro LTE1804: eICIC Downlink carrier aggregation 3 CC - 60 MHz • LTE1836: TDD downlink carrier aggregation - 60 Mhz •• LTE1921: eICIC - microMonitoring I LTE651: Performance
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE9: Service differentiation
• LTE9: Service differentiation
• LTE9: Service differentiation
• LTE9: Service differentiation
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE829: Increased uplink • LTE829: Increased uplink MCS MCS range range
• LTE1089: Downlink carrier aggregation • LTE1558: TDD Downlink carrier aggregation
• LTE1089: Downlink carrier aggregation • LTE1558: TDD Downlink carrier aggregation
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE572: IMS emergency sessions • LTE22: Emergency call handling
• LTE22: Emergency call handling • LTE572: IMS emergency sessions
• LTE42: DRX in RRC connected mode
• LTE42: DRX in RRC connected mode
• LTE42: DRX in RRC connected mode
• LTE42: DRX in RRC connected mode
• LTE651: Performance Monitoring I • LTE572: IMS emergency sessions • LTE22: Emergency call handling
• LTE22: Emergency call handling • LTE572: IMS emergency sessions • LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I • LTE572: IMS emergency sessions •• LTE22: LTE534:Emergency ARP basedcall handling admission control for E-
• LTE22: Emergency call handling • LTE572: IMS emergency sessions • LTE651: Performance Monitoring I • LTE534: ARP based admission control for E-RABs
RABs • LTE1047: Control plane overload handling
• LTE1047: Control plane overload handling
• LTE1047: Control plane overload handling
• LTE1047: Control plane overload handling
• LTE1074: Multimedia priority services
• LTE1074: Multimedia priority services
• LTE1074: Multimedia priority services
• LTE1074: Multimedia priority services
• LTE1074: Multimedia priority services
• LTE1074: Multimedia priority services
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1749: MRO InterRat UTRAN
• LTE1749: MRO InterRat UTRAN
• LTE1912: RRC establishment monitoring extensions
• LTE1912: RRC establishment monitoring extensions
• LTE1912: RRC establishment monitoring extensions
• LTE1912: RRC establishment monitoring extensions
• LTE1912: RRC establishment monitoring extensions
• LTE1912: RRC establishment monitoring extensions
• LTE1912: RRC establishment monitoring extensions
• LTE1912: RRC establishment monitoring extensions
• LTE1912: RRC establishment monitoring extensions
• LTE1912: RRC establishment monitoring extensions
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE54: Intra-LTE handover via S1
• LTE54: Intra-LTE handover via S1
• LTE54: Intra-LTE handover via S1
• LTE54: Intra-LTE handover via S1
• LTE54: Intra-LTE handover via S1
• LTE54: Intra-LTE handover via S1
• LTE54: Intra-LTE handover via S1
• LTE54: Intra-LTE handover via S1
• LTE54: Intra-LTE handover via S1
• LTE54: Intra-LTE handover via S1
• LTE54: Intra-LTE handover via S1
• LTE54: Intra-LTE handover via S1
• LTE54: Intra-LTE handover via S1
• LTE54: Intra-LTE handover via S1
• LTE1944: Dynamic handover blacklisting
• LTE1944: Dynamic handover blacklisting
• LTE797: Performance Counter Plus Package for Handover I • LTE1708: Extend maximum of X2 • LTE797: number Performance links Counter Plus Package for
• LTE797: Performance Counter Plus Package for Handover I • LTE1708: Extend maximum number of X2 links
Handover I • LTE1708: Extend maximum of X2 • LTE797: number Performance links Counter Plus Package for Handover I • LTE1708: Extend maximum number of X2 • LTE54: Intra-LTE links handover via S1 • LTE1708: Extend maximum number of X2 links
• LTE797: Performance Counter Plus Package for Handover I • LTE1708: Extend maximum number of X2 links • LTE797: Performance Counter Plus Package for Handover I • LTE1708: Extend maximum number of X2 links • LTE54: Intra-LTE handover via S1 • LTE1708: Extend maximum number of X2 links
• LTE54: Intra-LTE handover via S1 • LTE1708: Extend maximum number of X2 links • LTE54: Intra-LTE handover via S1 • LTE1708: Extend maximum number of X2 links • LTE54: Intra-LTE handover via S1 • LTE1708: Extend maximum number of X2 links • LTE54: Intra-LTE handover via S1 • LTE1708: Extend maximum number of X2 links • LTE54: Intra-LTE handover via S1 • LTE1708: Extend maximum number of X2 links • LTE797: Performance Counter Plus Package for Handover I • LTE1708: Extend maximum • LTE533: number Mobility of X2 links Robustness • LTE1708: Extend maximum number of X2 links • LTE533: Mobility Robustness • LTE1708: Extend maximum number of X2 links • LTE533: Mobility
• LTE54: Intra-LTE handover via S1 • LTE1708: Extend maximum number of X2 links • LTE54: Intra-LTE handover via S1 • LTE1708: Extend maximum number of X2 links • LTE54: Intra-LTE handover via S1 • LTE1708: Extend maximum number of X2 links • LTE54: Intra-LTE handover via S1 • LTE1708: Extend maximum number of X2 links • LTE54: Intra-LTE handover via S1 • LTE1708: Extend maximum number of X2 links • LTE797: Performance Counter Plus Package for Handover I • LTE1708: Extend maximum number of X2 links • LTE533: Mobility Robustness • LTE1708: Extend maximum number of X2 links • LTE533: Mobility Robustness • LTE1708: Extend maximum number of X2 links
• LTE533: Mobility Robustness Robustness • LTE1708: Extend maximum • LTE1708: Extend number of X2 links maximum number of X2 links • LTE1768: MRO Ping Pong • LTE1768: MRO Ping Pong
• LTE1441: Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) • LTE562: CSFB to UTRAN or GSM via Enhanced redirect CS • LTE1441: •fallback LTE874: CSFB to to CDMA/1xRTT CDMA/1xRTT for dual RX (e1xCSFB) UEs • LTE562: CSFB to UTRAN or GSM via Enhanced redirect CS • LTE1441: •fallback LTE874: CSFB to to CDMA/1xRTT CDMA/1xRTT for dual RX (e1xCSFB) UEs • LTE22: Emergency call handling • LTE56: Inter RAT •handover LTE874: to CSFB to WCDMA CDMA/1xRTT for dual RX UEs
• LTE1441: Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) • LTE562: CSFB to UTRAN or GSM via redirect •• LTE874: to CDMA/1xRTT LTE1441:CSFB Enhanced CS fallback for dual RX UEs to CDMA/1xRTT (e1xCSFB) • LTE562: CSFB to UTRAN or GSM via redirect •• LTE874: CSFB to CDMA/1xRTT LTE22: Emergency call handling for dual RX UEs • LTE1441: Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) • LTE874: CSFB to CDMA/1xRTT for dual RX UEs • LTE56: Inter RAT handover to WCDMA
• LTE56: Inter RAT handover to WCDMA
• LTE56: Inter RAT handover to WCDMA
• LTE56: Inter RAT handover to WCDMA
• LTE56: Inter RAT handover to WCDMA
• LTE56: Inter RAT handover to WCDMA
• LTE56: Inter RAT handover to WCDMA
• LTE56: Inter RAT handover to WCDMA
• LTE56: Inter RAT handover to WCDMA
• LTE56: Inter RAT handover to WCDMA
• LTE56: Inter RAT handover to WCDMA
• LTE56: Inter RAT handover to WCDMA
• LTE56: Inter RAT handover to WCDMA
• LTE442: Network Assisted • LTE442: Network Assisted Cell Cell Change to GSM Change to GSM
• LTE872: SRVCC to WCDMA
• LTE872: SRVCC to WCDMA
• LTE872: SRVCC to WCDMA
• LTE872: SRVCC to WCDMA
• LTE872: SRVCC to WCDMA
• LTE872: SRVCC to WCDMA
• LTE736: CS fallback to UTRAN
• LTE736: CS fallback to UTRAN
• LTE873: Relationship Model GERAN changes in eNB
• LTE873: Relationship Model GERAN changes in eNB
• LTE873: Relationship Model GERAN changes in eNB
• LTE873: Relationship Model GERAN changes in eNB
• LTE873: Relationship Model GERAN changes in eNB
• LTE873: Relationship Model GERAN changes in eNB
• LTE738: SRVCC to 1xRTT/CDMA
• LTE738: SRVCC to 1xRTT/CDMA
• LTE738: SRVCC to 1xRTT/CDMA
• LTE738: SRVCC to 1xRTT/CDMA
• LTE738: SRVCC to 1xRTT/CDMA
• LTE738: SRVCC to 1xRTT/CDMA
• LTE738: SRVCC to 1xRTT/CDMA
• LTE738: SRVCC to 1xRTT/CDMA
• LTE738: SRVCC to 1xRTT/CDMA
• LTE738: SRVCC to 1xRTT/CDMA
• LTE738: SRVCC to 1xRTT/CDMA
• LTE738: SRVCC to 1xRTT/CDMA
• LTE738: SRVCC to 1xRTT/CDMA
• LTE738: SRVCC to 1xRTT/CDMA
• LTE1357: Load balancing • LTE1357: Load balancing between LTE and UTRAN between LTE and UTRAN
• LTE1357: Load balancing • LTE1357: Load balancing between LTE and UTRAN between LTE and UTRAN
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
• LTE56: Inter RAT handover to WCDMA • LTE1708: Extend maximum number of X2 links • LTE56: Inter RAT
• LTE56: Inter RAT handover to WCDMA • LTE1708: Extend maximum number of X2 links
handover to WCDMA • LTE1708: Extend maximum number of X2 links • LTE56: Inter RAT handover to WCDMA • LTE1708: Extend maximum number of X2 links • LTE56: Inter RAT handover to WCDMA • LTE1708: Extend maximum number of X2 links
• LTE56: Inter RAT handover to WCDMA • LTE1708: Extend maximum number of X2 links • LTE56: Inter RAT handover to WCDMA • LTE1708: Extend maximum number of X2 links • LTE56: Inter RAT handover to WCDMA • LTE1708: Extend maximum number of X2 links
• LTE56: Inter RAT handover to WCDMA • LTE1708: Extend maximum number of X2 links • LTE56: Inter RAT handover to WCDMA • LTE1708: Extend maximum number of X2 links • LTE56: Inter RAT handover to WCDMA • LTE1708: Extend maximum number of X2 links • LTE872: SRVCC to WCDMA • LTE1708: Extend maximum number of X2 links • LTE872: SRVCC to WCDMA • LTE1708: Extend maximum number of X2 links • LTE872: SRVCC to WCDMA • LTE1708: Extend maximum number of X2 links
• LTE56: Inter RAT handover to WCDMA • LTE1708: Extend maximum number of X2 links • LTE56: Inter RAT handover to WCDMA • LTE1708: Extend maximum number of X2 links • LTE56: Inter RAT handover to WCDMA • LTE1708: Extend maximum number of X2 links • LTE872: SRVCC to WCDMA • LTE1708: Extend maximum number of X2 links • LTE872: SRVCC to WCDMA • LTE1708: Extend maximum number of X2 links • LTE872: SRVCC to WCDMA • LTE1708: Extend maximum number of X2 links
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE522: S1 partial reset
• LTE522: S1 partial reset
• LTE522: S1 partial reset
• LTE522: S1 partial reset
• LTE522: S1 partial reset
• LTE522: S1 partial reset
• LTE522: S1 partial reset
• LTE522: S1 partial reset
• LTE442: Network Assisted Cell Change to GSM • LTE1708: Extend maximum number of X2 links • LTE873: Relationship Model GERAN changes in eNB • LTE1708: Extend maximum of X2 • LTE873: number Relationship links Model GERAN changes in eNB • LTE1708: Extend maximum of X2 • LTE873: number Relationship links Model GERAN changes in eNB • LTE1708: Extend maximum • LTE770: number Basic of X2 links Performance Counter
• LTE442: Network Assisted Cell Change to GSM • LTE1708: Extend maximum number of X2 links • LTE873: Relationship Model GERAN changes in eNB • LTE1708: Extend maximum number of X2 links • LTE873: Relationship Model GERAN changes in eNB • LTE1708: Extend maximum number of X2 links • LTE873: Relationship Model GERAN changes in eNB • LTE1708: Extend maximum number of X2 links • LTE770: Basic Performance Counter Collection II
Collection II • LTE1103: Load based Power Saving
• LTE1103: Load based Power Saving
• LTE1103: Load based Power Saving
• LTE1103: Load based Power Saving
• LTE432: Cell Outage Detection
• LTE432: Cell Outage Detection
• LTE1103: Load based Power Saving
• LTE1103: Load based Power Saving
• LTE1103: Load based Power Saving
• LTE1103: Load based Power Saving
• LTE432: Cell Outage Detection
• LTE432: Cell Outage Detection
• LTE1103: Load based Power Saving
• LTE1103: Load based Power Saving
• LTE1103: Load based Power Saving
• LTE1103: Load based Power Saving
• LTE55: Inter-frequency handover
• LTE55: Inter-frequency handover
• LTE55: Inter-frequency handover
• LTE55: Inter-frequency handover
• LTE55: Inter-frequency handover
• LTE55: Inter-frequency handover
• LTE55: Inter-frequency handover
• LTE55: Inter-frequency handover
• LTE55: Inter-frequency handover
• LTE55: Inter-frequency handover
• LTE55: Inter-frequency handover
• LTE55: Inter-frequency handover
• LTE572: IMS emergency sessions
• LTE572: IMS emergency sessions
• LTE1127: Service based mobility trigger
• LTE1127: Service based mobility trigger
• LTE1127: Service based mobility trigger
• LTE1127: Service based mobility trigger
• LTE572: IMS emergency sessions
• LTE572: IMS emergency sessions
• LTE572: IMS emergency sessions
• LTE572: IMS emergency sessions
• LTE572: IMS emergency sessions
• LTE572: IMS emergency sessions
• LTE42: DRX in RRC connected mode
• LTE42: DRX in RRC connected mode
• LTE42: DRX in RRC connected mode
• LTE42: DRX in RRC connected mode
• LTE533: Mobility Robustness
• LTE533: Mobility Robustness
• LTE533: Mobility Robustness
• LTE533: Mobility Robustness
• LTE533: Mobility Robustness
• LTE533: Mobility Robustness
• LTE1170: Inter-frequency load balancing • LTE1841: Inter-Frequency Load Equalization
• LTE1170: Inter-frequency load balancing • LTE1841: Inter-Frequency Load Equalization
• LTE1170: Inter-frequency load balancing • LTE1841: Inter-Frequency Load Equalization
• LTE1170: Inter-frequency load balancing • LTE1841: Inter-Frequency Load Equalization
• LTE1935: PM counters for • LTE1935: PM counters for E-RAB E-RAB HO incoming; HO incoming; RRC/ERAB setup RRC/ERAB setup time time • LTE1935: PM counters for • LTE1935: PM counters for E-RAB E-RAB HO incoming; HO incoming; RRC/ERAB setup RRC/ERAB setup time time
• LTE1935: PM counters for • LTE1935: PM counters for E-RAB E-RAB HO incoming; HO incoming; RRC/ERAB setup RRC/ERAB setup time time • LTE1935: PM counters for • LTE1935: PM counters for E-RAB E-RAB HO incoming; HO incoming; RRC/ERAB setup RRC/ERAB setup time time • LTE1935: PM counters for • LTE1935: PM counters for E-RAB E-RAB HO incoming; HO incoming; RRC/ERAB setup RRC/ERAB setup time time • LTE1935: PM counters for • LTE1935: PM counters for E-RAB E-RAB HO incoming; HO incoming; RRC/ERAB setup RRC/ERAB setup time time • LTE1935: PM counters for • LTE1935: PM counters for E-RAB E-RAB HO incoming; HO incoming; RRC/ERAB setup RRC/ERAB setup time time • LTE1935: PM counters for • LTE1935: PM counters for E-RAB E-RAB HO incoming; HO incoming; RRC/ERAB setup RRC/ERAB setup time time • LTE1935: PM counters for • LTE1935: PM counters for E-RAB E-RAB HO incoming; HO incoming; RRC/ERAB setup RRC/ERAB setup time time • LTE1935: PM counters for • LTE1935: PM counters for E-RAB E-RAB HO incoming; HO incoming; RRC/ERAB setup RRC/ERAB setup time time • LTE1935: PM counters for • LTE1935: PM counters for E-RAB E-RAB HO incoming; HO incoming; RRC/ERAB setup RRC/ERAB setup time time • LTE1935: PM counters for • LTE1935: PM counters for E-RAB E-RAB HO incoming; HO incoming; RRC/ERAB setup RRC/ERAB setup time time • LTE64: Service based handover thresholds
• LTE64: Service based handover thresholds
• LTE64: Service based handover thresholds
• LTE64: Service based handover thresholds
• LTE782: ANR Fully UE based
• LTE782: ANR Fully UE based
• LTE782: ANR Fully UE based
• LTE782: ANR Fully UE based
• LTE518: Operator specific • LTE518: Operator specific QCI QCI
• LTE518: Operator specific • LTE518: Operator specific QCI QCI
• LTE518: Operator specific • LTE518: Operator specific QCI QCI
• LTE518: Operator specific • LTE518: Operator specific QCI QCI
• LTE518: Operator specific • LTE518: Operator specific QCI QCI
• LTE518: Operator specific • LTE518: Operator specific QCI QCI
• LTE518: Operator specific • LTE518: Operator specific QCI QCI
• LTE518: Operator specific • LTE518: Operator specific QCI QCI
• LTE518: Operator specific • LTE518: Operator specific QCI QCI
• LTE518: Operator specific • LTE518: Operator specific QCI QCI
• LTE518: Operator specific • LTE518: Operator specific QCI QCI
• LTE518: Operator specific • LTE518: Operator specific QCI QCI
• LTE490: SPID selective mobility profiles
• LTE490: SPID selective mobility profiles
• LTE490: SPID selective mobility profiles
• LTE490: SPID selective mobility profiles
• LTE490: SPID selective mobility profiles
• LTE490: SPID selective mobility profiles
• LTE490: SPID selective mobility profiles
• LTE490: SPID selective mobility profiles
• LTE490: SPID selective mobility profiles
• LTE490: SPID selective mobility profiles
• LTE490: SPID selective mobility profiles
• LTE490: SPID selective mobility profiles
• LTE490: SPID selective mobility profiles
• LTE490: SPID selective mobility profiles
• LTE490: SPID selective mobility profiles
• LTE490: SPID selective mobility profiles
• LTE490: SPID selective mobility profiles
• LTE490: SPID selective mobility profiles
• LTE518: Operator specific • LTE518: Operator specific QCI QCI
• LTE518: Operator specific • LTE518: Operator specific QCI QCI
• LTE518: Operator specific • LTE518: Operator specific QCI QCI
• LTE518: Operator specific • LTE518: Operator specific QCI QCI
• LTE518: Operator specific • LTE518: Operator specific QCI QCI
• LTE518: Operator specific • LTE518: Operator specific QCI QCI
• LTE518: Operator specific • LTE518: Operator specific QCI QCI
• LTE487: Idle mode mobility load balancing
• LTE487: Idle mode mobility load balancing
• LTE487: Idle mode mobility load balancing
• LTE487: Idle mode mobility load balancing
• LTE487: Idle mode mobility load balancing
• LTE487: Idle mode mobility load balancing
• LTE487: Idle mode mobility load balancing
• LTE487: Idle mode mobility load balancing
• LTE487: Idle mode mobility load balancing
• LTE487: Idle mode mobility load balancing
• LTE487: Idle mode mobility load balancing
• LTE487: Idle mode mobility load balancing
• LTE487: Idle mode mobility load balancing
• LTE487: Idle mode mobility load balancing
• LTE487: Idle mode mobility load balancing
• LTE487: Idle mode mobility load balancing
• LTE60: Inter RAT • LTE60: Inter RAT handover to handover to HRPD/3GPP2 HRPD/3GPP2
• LTE60: Inter RAT • LTE60: Inter RAT handover to handover to HRPD/3GPP2 HRPD/3GPP2
• LTE60: Inter RAT • LTE60: Inter RAT handover to handover to HRPD/3GPP2 HRPD/3GPP2
• LTE60: Inter RAT • LTE60: Inter RAT handover to handover to HRPD/3GPP2 HRPD/3GPP2
• LTE60: Inter RAT • LTE60: Inter RAT handover to handover to HRPD/3GPP2 HRPD/3GPP2
• LTE60: Inter RAT • LTE60: Inter RAT handover to handover to HRPD/3GPP2 HRPD/3GPP2
• LTE60: Inter RAT • LTE60: Inter RAT handover to handover to HRPD/3GPP2 HRPD/3GPP2
• LTE60: Inter RAT • LTE60: Inter RAT handover to handover to HRPD/3GPP2 HRPD/3GPP2
• LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP • LTE1361: Additional QoS KPI counter subset performance
• LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS
performance measurements measurements • LTE2054: Measurement Report • LTE2054: Measurement addition with PDCP KPI counter Report addition with PDCP subset KPI counter subset
• LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP • LTE1361: Additional QoS KPI counter subset performance measurements • LTE2054: Measurement Report addition with PDCP • LTE1361: Additional QoS KPI counter subset performance measurements • LTE2054: Measurement Report addition with PDCP • LTE1361: Additional QoS KPI counter subset performance measurements • LTE2054: Measurement Report addition with PDCP • LTE1361: Additional QoS KPI counter subset performance measurements • LTE2054: Measurement Report addition with PDCP • LTE1361: Additional QoS KPI counter subset performance measurements • LTE2054: Measurement Report addition with PDCP • LTE1361: Additional QoS KPI counter subset performance measurements • LTE2054: Measurement Report addition with PDCP • LTE1361: Additional QoS KPI counter subset performance measurements • LTE2054: Measurement Report addition with PDCP • LTE1361: Additional QoS KPI counter subset performance measurements • LTE2054: Measurement Report addition with PDCP • LTE1361: Additional QoS KPI counter subset performance measurements • LTE2054: Measurement Report addition with PDCP • LTE1361: Additional QoS KPI counter subset performance measurements • LTE2054: Measurement Report addition with PDCP • LTE1361: Additional QoS KPI counter subset performance
• LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS
performance measurements measurements • LTE2054: Measurement Report • LTE2054: Measurement addition with PDCP KPI counter Report addition with PDCP subset KPI counter subset
• LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP • LTE1361: Additional QoS KPI counter subset performance measurements • LTE2054: Measurement Report addition with PDCP • LTE1361: Additional QoS KPI counter subset performance measurements • LTE2054: Measurement Report addition with PDCP • LTE1361: Additional QoS KPI counter subset performance measurements • LTE2054: Measurement Report addition with PDCP • LTE1361: Additional QoS KPI counter subset performance measurements • LTE2054: Measurement Report addition with PDCP • LTE1361: Additional QoS KPI counter subset performance
• LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS
performance measurements measurements • LTE2054: Measurement Report • LTE2054: Measurement addition with PDCP KPI counter Report addition with PDCP subset KPI counter subset
• LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP • LTE1361: Additional QoS KPI counter subset performance measurements • LTE2054: Measurement Report addition with PDCP • LTE1361: Additional QoS KPI counter subset performance measurements • LTE2054: Measurement Report addition with PDCP • LTE1361: Additional QoS KPI counter subset performance measurements • LTE2054: Measurement Report addition with PDCP • LTE1361: Additional QoS KPI counter subset performance measurements • LTE2054: Measurement Report addition with PDCP • LTE1361: Additional QoS KPI counter subset performance measurements • LTE2054: Measurement Report addition with PDCP • LTE1361: Additional QoS KPI counter subset performance measurements • LTE2054: Measurement Report addition with PDCP • LTE1361: Additional QoS KPI counter subset performance measurements • LTE2054: Measurement Report addition with PDCP • LTE1361: Additional QoS KPI counter subset performance
• LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS
performance measurements measurements • LTE2054: Measurement Report • LTE2054: Measurement addition with PDCP KPI counter Report addition with PDCP subset KPI counter subset
• LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition PDCP • LTE1617: RLFwith triggered KPI counter subset handover
• LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1617: RLF triggered handover
• LTE1617: RLF triggered handover
• LTE1617: RLF triggered handover
• LTE1617: RLF triggered handover
• LTE1617: RLF triggered handover
• LTE1617: RLF triggered handover
• LTE1617: RLF triggered handover
• LTE1617: RLF triggered handover
• LTE1617: RLF triggered handover
• LTE1617: RLF triggered handover
• LTE1617: RLF triggered handover
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1697: Timing Advance • LTE1697: Timing Advance Histogram PM-counter Histogram PM-counter
• LTE1900: Centralized RAN
• LTE1900: Dense RAN 20 MHz
• LTE1900: Centralized RAN
• LTE1900: Dense RAN 20 MHz
• LTE1900: Centralized RAN
• LTE1900: Dense RAN 20 MHz
• LTE1117: LTE MBMS
• LTE1117: LTE MBMS
• LTE1117: LTE MBMS
• LTE1117: LTE MBMS
• LTE1117: LTE MBMS
• LTE1117: LTE MBMS
• LTE1117: LTE MBMS
• LTE1117: LTE MBMS
• LTE1117: LTE MBMS
• LTE1117: LTE MBMS
• LTE1117: LTE MBMS
• LTE1117: LTE MBMS
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements
• LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1491: Additional Layer • LTE1491: Additional Layer 1 1 performance performance measurements measurements • LTE1749: MRO InterRat UTRAN
• LTE1749: MRO InterRat UTRAN
• LTE1749: MRO InterRat UTRAN
• LTE1749: MRO InterRat UTRAN
• LTE1749: MRO InterRat UTRAN
• LTE1749: MRO InterRat UTRAN
• LTE1749: MRO InterRat UTRAN
• LTE1749: MRO InterRat UTRAN
• LTE1749: MRO InterRat UTRAN
• LTE1749: MRO InterRat UTRAN
• LTE1749: MRO InterRat UTRAN
• LTE1749: MRO InterRat UTRAN
• LTE1879: Additional PMcounters for Mobility Event monitoring
• LTE1879: Additional PM-counters for Mobility Event monitoring
• LTE1879: Additional PMcounters for Mobility Event monitoring
• LTE1879: Additional PM-counters for Mobility Event monitoring
• LTE1879: Additional PMcounters for Mobility Event monitoring
• LTE1879: Additional PM-counters for Mobility Event monitoring
• LTE1879: Additional PMcounters for Mobility Event monitoring
• LTE1879: Additional PM-counters for Mobility Event monitoring
• LTE1879: Additional PMcounters for Mobility Event monitoring
• LTE1879: Additional PM-counters for Mobility Event monitoring
• LTE1879: Additional PMcounters for Mobility Event monitoring
• LTE1879: Additional PM-counters for Mobility Event monitoring
• LTE1879: Additional PMcounters for Mobility Event monitoring
• LTE1879: Additional PM-counters for Mobility Event monitoring
• LTE1879: Additional PMcounters for Mobility Event monitoring
• LTE1879: Additional PM-counters for Mobility Event monitoring
• LTE1879: Additional PMcounters for Mobility Event monitoring
• LTE1879: Additional PM-counters for Mobility Event monitoring
• LTE2051: Measurement based Idle Mode Load Balancing
• LTE2051: Measurement based Idle Mode Load Balancing
• LTE2051: Measurement based Idle Mode Load Balancing
• LTE2051: Measurement based Idle Mode Load Balancing
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
Transmission
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE1559: SCTP enhancements
• LTE770: Basic Performance Counter Collection II • LTE125: IPv6 for U/CPlane
• LTE125: IPv6 for U/C-Plane • LTE770: Basic Performance Counter Collection II
Transmission
Transmission
• LTE770: Basic Performance Counter Collection II • LTE125: IPv6 for U/CPlane • LTE770: Basic
Transmission
Performance Counter Collection II • LTE125: IPv6 for U/CPlane • LTE770: Basic
Transmission
Performance Counter Collection II • LTE125: IPv6 for U/CPlane
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
• LTE770: Basic Performance Counter Collection II • LTE125: IPv6 for U/CPlane
• LTE125: IPv6 for U/C-Plane • LTE770: Basic Performance Counter Collection II • LTE125: IPv6 for U/C-Plane • LTE770: Basic Performance Counter Collection II • LTE125: IPv6 for U/C-Plane • LTE770: Basic Performance Counter Collection II
• LTE125: IPv6 for U/C-Plane • LTE770: Basic Performance Counter Collection II
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
Transmission
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
Transmission
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
Transmission
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
Transmission
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
Transmission
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
Transmission
• LTE649: QoS aware Ethernet Switching
• LTE649: QoS aware Ethernet Switching
Transmission
• LTE649: QoS aware Ethernet Switching
• LTE649: QoS aware Ethernet Switching
Transmission
• LTE649: QoS aware Ethernet Switching
• LTE649: QoS aware Ethernet Switching
Transmission
• LTE649: QoS aware Ethernet Switching
• LTE649: QoS aware Ethernet Switching
Transmission
• LTE649: QoS aware Ethernet Switching
• LTE649: QoS aware Ethernet Switching
Transmission
• LTE649: QoS aware Ethernet Switching
• LTE649: QoS aware Ethernet Switching
Transmission
Transmission
• LTE649: QoS aware Ethernet Switching
• LTE649: QoS aware Ethernet Switching
Transmission
• LTE689: LTE IPsec Support for control and user plane
• LTE689: LTE IPsec Support for control and user plane
Transmission
• LTE689: LTE IPsec Support for control and user plane
• LTE689: LTE IPsec Support for control and user plane
Transmission
• LTE689: LTE IPsec Support for control and user plane
• LTE689: LTE IPsec Support for control and user plane
Transmission
• LTE689: LTE IPsec Support for control and user plane
• LTE689: LTE IPsec Support for control and user plane
Transmission
• LTE689: LTE IPsec Support for control and user plane
• LTE689: LTE IPsec Support for control and user plane
Transmission
• LTE689: LTE IPsec Support for control and user plane
• LTE689: LTE IPsec Support for control and user plane
Transmission
• LTE692: LTE Firewall Support
• LTE692: LTE Firewall Support
Transmission
• LTE692: LTE Firewall Support
• LTE692: LTE Firewall Support
Transmission
• LTE132: VLAN based traffic separation • LTE125: IPv6 for U/CPlane
• LTE125: IPv6 for U/C-Plane • LTE132: VLAN based traffic separation
Transmission
• LTE132: VLAN based traffic separation • LTE125: IPv6 for U/CPlane
• LTE125: IPv6 for U/C-Plane • LTE132: VLAN based traffic separation
Transmission
Transmission
• LTE132: VLAN based traffic separation • LTE125: IPv6 for U/CPlane
• LTE125: IPv6 for U/C-Plane • LTE132: VLAN based traffic separation
Transmission
• LTE132: VLAN based traffic separation • LTE125: IPv6 for U/CPlane
• LTE125: IPv6 for U/C-Plane • LTE132: VLAN based traffic separation
• LTE132: VLAN based traffic separation • LTE125: IPv6 for U/CPlane
• LTE125: IPv6 for U/C-Plane • LTE132: VLAN based traffic separation
• LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I
• LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
• LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I
• LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
• LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I
• LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
• LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I
• LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I
• LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I
• LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I
Transmission
Transmission
Transmission
Transmission
• LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I
• LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I
Transmission
Transmission
Transmission
Transmission
• LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for • LTE770: Basic Transport I Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I
• LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I
Transmission
Transmission
Transmission
Transmission
• LTE574: Transport network measurement
• LTE574: Transport network measurement
Transmission
• LTE574: Transport network measurement
• LTE574: Transport network measurement
Transmission
• LTE574: Transport network measurement
• LTE574: Transport network measurement
Transmission
• LTE574: Transport network measurement
• LTE574: Transport network measurement
Transmission
• LTE574: Transport network measurement
• LTE574: Transport network measurement
Transmission
• LTE144: Transport admission control
• LTE144: Transport admission control
Transmission
• LTE144: Transport admission control
• LTE144: Transport admission control
Transmission
• LTE144: Transport admission control
• LTE144: Transport admission control
Transmission
• LTE144: Transport admission control
• LTE144: Transport admission control
Transmission
• LTE144: Transport admission control
• LTE144: Transport admission control
Transmission
• LTE1401: Measurement based TAC
• LTE1401: Measurement based TAC
Transmission
• LTE1401: Measurement based TAC
• LTE1401: Measurement based TAC
Transmission
Transmission
• LTE1401: Measurement based TAC
• LTE1401: Measurement based TAC
Transmission
• LTE1401: Measurement based TAC
• LTE1401: Measurement based TAC
Transmission
Transmission
• LTE134: LTE Timing over • LTE134: LTE Timing over Packet Packet
Transmission
• LTE134: LTE Timing over • LTE134: LTE Timing over Packet Packet
Transmission
• LTE134: LTE Timing over • LTE134: LTE Timing over Packet Packet
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
Transmission
• LTE1961: WIFI for FlexiZone Micro
Transmission
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE761: Advanced target cell selection and HO retry for intra- freq HO • LTE9: Service differentiation • LTE7: Support of multiple EPS bearer • LTE9: Service differentiation • LTE7: Support of multiple EPS bearer
• LTE1961: WIFI for FlexiZone Micro
• LTE9: Service differentiation • LTE7: Support of multiple EPS bearer • LTE9: Service differentiation • LTE7: Support of multiple EPS bearer • LTE534: ARP based admission control for ERABs • LTE534: ARP based admission control for ERABs • LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE761: Advanced target cell selection and HO retry for intra- freq HO • LTE770: Basic Performance Counter Collection II • LTE770: Basic Performance Counter Collection II • LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
Related to Feature in release RL70
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE522: S1 partial reset
• LTE522: S1 partial reset
• LTE522: S1 partial reset
• LTE522: S1 partial reset
• LTE562: CSFB to UTRAN or GSM via redirect
Related to Standard
3GPP Measurement Name (Clause Header)
• LTE805: Perf Counter Plus Package for Res Utilization and Throughput I • LTE805: Perf Counter Plus Package for Res Utilization and Throughput I • LTE9: Service differentiation • LTE572: IMS emergency sessions • LTE7: Support of multiple EPS bearer • LTE9: Service differentiation • LTE572: IMS emergency sessions • LTE7: Support of multiple EPS bearer • LTE9: Service differentiation • LTE572: IMS emergency sessions • LTE7: Support of multiple EPS bearer • LTE68: Support of cell based location service
• LTE68: Support of cell based location service
• LTE782: ANR Fully UE based
• LTE782: ANR Fully UE based
• LTE494: Commercial Mobile Alert System • LTE843: ETWS broadcast
• LTE494: Commercial Mobile Alert System • LTE843: ETWS broadcast • LTE494: Commercial Mobile Alert System
• LTE494: Commercial Mobile Alert System
#N/A
#N/A
#N/A
#N/A
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I • LTE829: Increased uplink MCS range • LTE651: Performance Monitoring I • LTE829: Increased uplink MCS range • LTE651: Performance Monitoring I • LTE829: Increased uplink MCS range • LTE651: Performance Monitoring I • LTE829: Increased uplink MCS range
• LTE651: Performance Monitoring I • LTE44: 64 QAM in UL
• LTE651: Performance Monitoring I • LTE44: 64 QAM in UL
• LTE651: Performance Monitoring I • LTE44: 64 QAM in UL
• LTE651: Performance Monitoring I • LTE44: 64 QAM in UL
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I • LTE939: Usage based PDCCH adaptation • LTE651: Performance Monitoring I • LTE939: Usage based PDCCH adaptation • LTE651: Performance Monitoring I • LTE939: Usage based PDCCH adaptation • LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I • LTE829: Increased uplink MCS range • LTE651: Performance Monitoring I • LTE829: Increased uplink MCS range • LTE651: Performance Monitoring I • LTE829: Increased uplink MCS range • LTE651: Performance Monitoring I • LTE829: Increased uplink MCS range • LTE651: Performance Monitoring I • LTE44: 64 QAM in UL
• LTE651: Performance Monitoring I • LTE44: 64 QAM in UL
• LTE651: Performance Monitoring I • LTE44: 64 QAM in UL
• LTE651: Performance Monitoring I • LTE44: 64 QAM in UL
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE1047: Control plane overload handling
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE1047: Control plane overload handling
• LTE770: Basic Performance Counter Collection II • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE770: Basic Performance Counter Collection II • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE770: Basic Performance Counter Collection II • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE1402: Uplink intra eNode B CoMP
• LTE805: Perf Counter Plus Package for Res Utilization and Throughput I • LTE805: Perf Counter Plus Package for Res Utilization and Throughput I • LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE805: Perf Counter Plus Package for Res Utilization and Throughput I
• LTE805: Perf Counter Plus Package for Res Utilization and Throughput I • LTE805: Perf Counter Plus Package for Res Utilization and Throughput I • LTE805: Perf Counter Plus Package for Res Utilization and Throughput I • LTE805: Perf Counter Plus Package for Res Utilization and Throughput I • LTE805: Perf Counter Plus Package for Res Utilization and Throughput I • LTE497: Smart admission control
• LTE497: Smart admission control
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE9: Service differentiation
• LTE496: Support of QCI 2, 3 and 4
• LTE496: Support of QCI 2, 3 and 4
• LTE496: Support of QCI 2, 3 and 4
• LTE843: ETWS broadcast
• LTE843: ETWS broadcast
• LTE494: Commercial Mobile Alert System
#N/A
• LTE9: Service differentiation
• LTE9: Service differentiation
• LTE9: Service differentiation
• LTE496: Support of QCI 2, 3 and 4
• LTE496: Support of QCI 2, 3 and 4
• LTE496: Support of QCI 2, 3 and 4
• LTE651: Performance Monitoring I
#N/A
#N/A
• LTE9: Service differentiation • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE651: Performance Monitoring I • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE651: Performance Monitoring I • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE651: Performance Monitoring I • LTE2054: Measurement Report addition with PDCP KPI counter subset
• LTE9: Service differentiation • LTE2054: Measurement Report addition with PDCP KPI counter subset
• LTE496: Support of QCI 2, 3 and 4 • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE496: Support of QCI 2, 3 and 4 • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE496: Support of QCI 2, 3 and 4 • LTE2054: Measurement Report addition with PDCP KPI counter subset
#N/A
• LTE9: Service differentiation • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE496: Support of QCI 2, 3 and 4 • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE496: Support of QCI 2, 3 and 4 • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE496: Support of QCI 2, 3 and 4 • LTE2054: Measurement Report addition with PDCP KPI counter subset
• LTE10: EPS bearers for conversational voice • LTE496: Support of QCI 2, 3 and 4 • LTE10: EPS bearers for conversational voice • LTE496: Support of QCI 2, 3 and 4 • LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE473: Extended DRX settings
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
#N/A
• LTE1089: Downlink carrier aggregation • LTE1558: TDD Downlink carrier aggregation
• LTE1089: Downlink carrier aggregation • LTE1558: TDD Downlink carrier aggregation • LTE1089: Downlink carrier aggregation • LTE1558: TDD Downlink carrier aggregation • LTE1803: Downlink carrier aggregation 3 CC - 40 MHz
• LTE1803: Downlink carrier aggregation 3 CC - 40 MHz
• LTE1803: Downlink carrier aggregation 3 CC - 40 MHz
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE761: Advanced target cell selection and HO retry for intra- freq HO • LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE9: Service differentiation • LTE7: Support of multiple EPS bearer • LTE9: Service differentiation • LTE7: Support of multiple EPS bearer • LTE9: Service differentiation • LTE7: Support of multiple EPS bearer • LTE9: Service differentiation • LTE7: Support of multiple EPS bearer • LTE9: Service differentiation • LTE7: Support of multiple EPS bearer • LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE1074: Multimedia priority services
• LTE1074: Multimedia priority services
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI) • LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI) • LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI) • LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI) • LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI) • LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI) • LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI) • LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI) • LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI) • LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI) • LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI) • LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI) • LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI) • LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI) • LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI) • LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI) • LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI) • LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI) • LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI) • LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI) • LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI) • LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI) • LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI) • LTE1960: PM-Counters for E-RAB Establishment monitoring (nonGBR QCI) • LTE1042: Nominal Bitrate for nonGBR bearers
• LTE1042: Nominal Bitrate for nonGBR bearers
• LTE1042: Nominal Bitrate for nonGBR bearers
• LTE1042: Nominal Bitrate for nonGBR bearers
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE1935: PM counters for E-RAB HO incoming; RRC/ERAB setup time • LTE1935: PM counters for E-RAB HO incoming; RRC/ERAB setup time • LTE651: Performance Monitoring I
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE735: RRC Connection Reestablishment
• LTE735: RRC Connection Reestablishment
• LTE735: RRC Connection Reestablishment
• LTE735: RRC Connection Reestablishment
• LTE735: RRC Connection Reestablishment
• LTE735: RRC Connection Reestablishment
• LTE782: ANR Fully UE based
• LTE782: ANR Fully UE based
• LTE908: ANR Inter-RAT UTRAN Fully UE Based
• LTE908: ANR Inter-RAT UTRAN Fully UE Based
• LTE908: ANR Inter-RAT UTRAN Fully UE Based
• LTE1442: Open access home eNode B mobility
• LTE494: Commercial Mobile Alert System • LTE843: ETWS broadcast • LTE1935: PM counters for E-RAB HO incoming; RRC/ERAB setup time • LTE1935: PM counters for E-RAB HO incoming; RRC/ERAB setup time • LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE703: Downlink adaptive closed loop MIMO for two antennas
• LTE703: Downlink adaptive closed loop MIMO for two antennas
• LTE770: Basic Performance Counter Collection II
• LTE703: Downlink adaptive closed loop MIMO for two antennas
• LTE1035: Outer loop link adaptation for PDCCH
• LTE1035: Outer loop link adaptation for PDCCH
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE798: Performance Counter Histogram Package I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE805: Perf Counter Plus Package for Res Utilization and Throughput I • LTE805: Perf Counter Plus Package for Res Utilization and Throughput I • LTE805: Perf Counter Plus Package for Res Utilization and Throughput I • LTE805: Perf Counter Plus Package for Res Utilization and Throughput I • LTE805: Perf Counter Plus Package for Res Utilization and Throughput I • LTE805: Perf Counter Plus Package for Res Utilization and Throughput I • LTE805: Perf Counter Plus Package for Res Utilization and Throughput I • LTE805: Perf Counter Plus Package for Res Utilization and Throughput I • LTE805: Perf Counter Plus Package for Res Utilization and Throughput I • LTE805: Perf Counter Plus Package for Res Utilization and Throughput I • LTE805: Perf Counter Plus Package for Res Utilization and Throughput I
• LTE805: Perf Counter Plus Package for Res Utilization and Throughput I • LTE805: Perf Counter Plus Package for Res Utilization and Throughput I • LTE805: Perf Counter Plus Package for Res Utilization and Throughput I • LTE805: Perf Counter Plus Package for Res Utilization and Throughput I • LTE805: Perf Counter Plus Package for Res Utilization and Throughput I • LTE805: Perf Counter Plus Package for Res Utilization and Throughput I • LTE805: Perf Counter Plus Package for Res Utilization and Throughput I • LTE616: Usage based PDCCH adaptation
• LTE616: Usage based PDCCH adaptation
• LTE616: Usage based PDCCH adaptation
• LTE907: TTI bundling
• LTE907: TTI bundling
• LTE907: TTI bundling
• LTE907: TTI bundling
• LTE907: TTI bundling
• LTE1089: Downlink carrier aggregation • LTE1558: TDD Downlink carrier aggregation • LTE1089: Downlink carrier aggregation • LTE1558: TDD Downlink carrier aggregation • LTE1170: Inter-frequency load balancing
• LTE1382: Cell resource groups
• LTE1382: Cell resource groups
• LTE1382: Cell resource groups
• LTE1382: Cell resource groups
• LTE1382: Cell resource groups
• LTE1382: Cell resource groups
• LTE1382: Cell resource groups
• LTE1382: Cell resource groups
• LTE1382: Cell resource groups
• LTE1382: Cell resource groups
• LTE1140: Intra-frequency load balancing
• LTE1140: Intra-frequency load balancing
• LTE1140: Intra-frequency load balancing
• LTE1140: Intra-frequency load balancing
• LTE1140: Intra-frequency load balancing
• LTE1140: Intra-frequency load balancing
• LTE1800: Downlink interference shaping
• LTE1800: Downlink interference shaping
• LTE1800: Downlink interference shaping
• LTE1113: eICIC - macro
• LTE1113: eICIC - macro
• LTE1113: eICIC - macro
• LTE1113: eICIC - macro
• LTE1113: eICIC - macro
• LTE1113: eICIC - macro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1496: eICIC - micro
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
#N/A
• LTE1113: eICIC - macro
#N/A
#N/A
#N/A
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE9: Service differentiation
• LTE9: Service differentiation
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE829: Increased uplink MCS range
• LTE1089: Downlink carrier aggregation • LTE1558: TDD Downlink carrier aggregation
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE572: IMS emergency sessions • LTE22: Emergency call handling
• LTE42: DRX in RRC connected mode
• LTE42: DRX in RRC connected mode
• LTE651: Performance Monitoring I • LTE572: IMS emergency sessions • LTE22: Emergency call handling
• LTE651: Performance Monitoring I • LTE572: IMS emergency sessions • LTE22: Emergency call handling • LTE534: ARP based admission control for E-RABs
• LTE1047: Control plane overload handling
• LTE1047: Control plane overload handling
• LTE1074: Multimedia priority services
• LTE1074: Multimedia priority services
• LTE1074: Multimedia priority services
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1361: Additional QoS performance measurements
• LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1740: PM Counters enhancement for RABmodification/context/TM7
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE651: Performance Monitoring I
• LTE54: Intra-LTE handover via S1
• LTE54: Intra-LTE handover via S1
• LTE54: Intra-LTE handover via S1
• LTE54: Intra-LTE handover via S1
• LTE54: Intra-LTE handover via S1
• LTE54: Intra-LTE handover via S1
• LTE54: Intra-LTE handover via S1
#N/A
• LTE797: Performance Counter Plus Package for Handover I • LTE1708: Extend maximum number of X2 links • LTE797: Performance Counter Plus Package for Handover I • LTE1708: Extend maximum number of X2 links • LTE797: Performance Counter Plus Package for Handover I • LTE1708: Extend maximum number of X2 links • LTE54: Intra-LTE handover via S1 • LTE1708: Extend maximum number of X2 links
• LTE54: Intra-LTE handover via S1 • LTE1708: Extend maximum number of X2 links • LTE54: Intra-LTE handover via S1 • LTE1708: Extend maximum number of X2 links • LTE54: Intra-LTE handover via S1 • LTE1708: Extend maximum number of X2 links • LTE54: Intra-LTE handover via S1 • LTE1708: Extend maximum number of X2 links • LTE54: Intra-LTE handover via S1 • LTE1708: Extend maximum number of X2 links • LTE797: Performance Counter Plus Package for Handover I • LTE1708: Extend maximum number of X2 links • LTE533: Mobility Robustness • LTE1708: Extend maximum number of X2 links • LTE533: Mobility Robustness • LTE1708: Extend maximum number of X2 links • LTE533: Mobility Robustness • LTE1708: Extend maximum number of X2 links • LTE1768: MRO Ping Pong
#N/A
#N/A
• LTE1441: Enhanced CS fallback to CDMA/1xRTT (e1xCSFB) • LTE562: CSFB to UTRAN or GSM via redirect •• LTE874: to CDMA/1xRTT LTE1441:CSFB Enhanced CS fallback for dual RX UEs to CDMA/1xRTT (e1xCSFB) • LTE562: CSFB to UTRAN or GSM via redirect •• LTE874: to CDMA/1xRTT LTE1441:CSFB Enhanced CS fallback for dual RX UEs to CDMA/1xRTT (e1xCSFB) • LTE22: Emergency call handling • LTE874: CSFB to CDMA/1xRTT for dual RX UEs • LTE56: Inter RAT handover to WCDMA
• LTE56: Inter RAT handover to WCDMA
• LTE56: Inter RAT handover to WCDMA
• LTE56: Inter RAT handover to WCDMA
• LTE56: Inter RAT handover to WCDMA
• LTE56: Inter RAT handover to WCDMA
• LTE56: Inter RAT handover to WCDMA
• LTE442: Network Assisted Cell Change to GSM
• LTE872: SRVCC to WCDMA
• LTE872: SRVCC to WCDMA
• LTE872: SRVCC to WCDMA
• LTE736: CS fallback to UTRAN
• LTE873: Relationship Model GERAN changes in eNB
• LTE873: Relationship Model GERAN changes in eNB
• LTE873: Relationship Model GERAN changes in eNB
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
• LTE56: Inter RAT handover to WCDMA • LTE1708: Extend maximum number of X2 links • LTE56: Inter RAT handover to WCDMA • LTE1708: Extend maximum number of X2 links • LTE56: Inter RAT handover to WCDMA • LTE1708: Extend maximum number of X2 links • LTE56: Inter RAT handover to WCDMA • LTE1708: Extend maximum number of X2 links
• LTE56: Inter RAT handover to WCDMA • LTE1708: Extend maximum number of X2 links • LTE56: Inter RAT handover to WCDMA • LTE1708: Extend maximum number of X2 links • LTE56: Inter RAT handover to WCDMA • LTE1708: Extend maximum number of X2 links • LTE872: SRVCC to WCDMA • LTE1708: Extend maximum number of X2 links • LTE872: SRVCC to WCDMA • LTE1708: Extend maximum number of X2 links • LTE872: SRVCC to WCDMA • LTE1708: Extend maximum number of X2 links • LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE522: S1 partial reset
• LTE522: S1 partial reset
• LTE522: S1 partial reset
• LTE522: S1 partial reset
• LTE442: Network Assisted Cell Change to GSM • LTE1708: Extend maximum number of X2 links • LTE873: Relationship Model GERAN changes in eNB • LTE1708: Extend maximum number of X2 links • LTE873: Relationship Model GERAN changes in eNB • LTE1708: Extend maximum number of X2 links • LTE873: Relationship Model GERAN changes in eNB • LTE1708: Extend maximum number of X2 links • LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE432: Cell Outage Detection
• LTE432: Cell Outage Detection
• LTE432: Cell Outage Detection
• LTE432: Cell Outage Detection
#N/A
#N/A
• LTE55: Inter-frequency handover
• LTE55: Inter-frequency handover
• LTE55: Inter-frequency handover
• LTE55: Inter-frequency handover
• LTE55: Inter-frequency handover
• LTE55: Inter-frequency handover
• LTE572: IMS emergency sessions
• LTE1127: Service based mobility trigger
• LTE1127: Service based mobility trigger
• LTE572: IMS emergency sessions
• LTE572: IMS emergency sessions
• LTE572: IMS emergency sessions
• LTE42: DRX in RRC connected mode
• LTE42: DRX in RRC connected mode
• LTE533: Mobility Robustness
• LTE533: Mobility Robustness
• LTE533: Mobility Robustness
• LTE1170: Inter-frequency load balancing • LTE1841: Inter-Frequency Load Equalization • LTE1170: Inter-frequency load balancing • LTE1841: Inter-Frequency Load Equalization • LTE1935: PM counters for E-RAB HO incoming; RRC/ERAB setup time • LTE1935: PM counters for E-RAB HO incoming; RRC/ERAB setup time
• LTE1935: PM counters for E-RAB HO incoming; RRC/ERAB setup time • LTE1935: PM counters for E-RAB HO incoming; RRC/ERAB setup time • LTE1935: PM counters for E-RAB HO incoming; RRC/ERAB setup time • LTE1935: PM counters for E-RAB HO incoming; RRC/ERAB setup time • LTE1935: PM counters for E-RAB HO incoming; RRC/ERAB setup time • LTE1935: PM counters for E-RAB HO incoming; RRC/ERAB setup time • LTE1935: PM counters for E-RAB HO incoming; RRC/ERAB setup time • LTE1935: PM counters for E-RAB HO incoming; RRC/ERAB setup time • LTE1935: PM counters for E-RAB HO incoming; RRC/ERAB setup time • LTE1935: PM counters for E-RAB HO incoming; RRC/ERAB setup time #N/A
#N/A
• LTE782: ANR Fully UE based
• LTE782: ANR Fully UE based
• LTE518: Operator specific QCI
• LTE518: Operator specific QCI
• LTE518: Operator specific QCI
• LTE518: Operator specific QCI
• LTE518: Operator specific QCI
• LTE518: Operator specific QCI
• LTE518: Operator specific QCI
• LTE518: Operator specific QCI
• LTE518: Operator specific QCI
• LTE518: Operator specific QCI
• LTE518: Operator specific QCI
• LTE518: Operator specific QCI
• LTE490: SPID selective mobility profiles
• LTE490: SPID selective mobility profiles
• LTE490: SPID selective mobility profiles
• LTE490: SPID selective mobility profiles
• LTE490: SPID selective mobility profiles
• LTE490: SPID selective mobility profiles
• LTE490: SPID selective mobility profiles
• LTE490: SPID selective mobility profiles
• LTE490: SPID selective mobility profiles
• LTE518: Operator specific QCI
• LTE518: Operator specific QCI
• LTE518: Operator specific QCI
• LTE518: Operator specific QCI
• LTE518: Operator specific QCI
• LTE518: Operator specific QCI
• LTE518: Operator specific QCI
• LTE487: Idle mode mobility load balancing
• LTE487: Idle mode mobility load balancing
• LTE487: Idle mode mobility load balancing
• LTE487: Idle mode mobility load balancing
• LTE487: Idle mode mobility load balancing
• LTE487: Idle mode mobility load balancing
• LTE487: Idle mode mobility load balancing
• LTE487: Idle mode mobility load balancing
• LTE60: Inter RAT handover to HRPD/3GPP2
• LTE60: Inter RAT handover to HRPD/3GPP2
• LTE60: Inter RAT handover to HRPD/3GPP2
• LTE60: Inter RAT handover to HRPD/3GPP2
• LTE60: Inter RAT handover to HRPD/3GPP2
• LTE60: Inter RAT handover to HRPD/3GPP2
• LTE60: Inter RAT handover to HRPD/3GPP2
• LTE60: Inter RAT handover to HRPD/3GPP2
• LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset
• LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset
• LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset
• LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset
• LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1617: RLF triggered handover
• LTE1617: RLF triggered handover
• LTE1617: RLF triggered handover
• LTE1617: RLF triggered handover
• LTE1617: RLF triggered handover
• LTE1617: RLF triggered handover
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
• LTE1697: Timing Advance Histogram PM-counter
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
• LTE1491: Additional Layer 1 performance measurements
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
• LTE770: Basic Performance Counter Collection II • LTE125: IPv6 for U/C-Plane
• LTE770: Basic Performance Counter Collection II • LTE125: IPv6 for U/C-Plane • LTE770: Basic Performance Counter Collection II • LTE125: IPv6 for U/C-Plane • LTE770: Basic Performance Counter Collection II • LTE125: IPv6 for U/C-Plane
• LTE770: Basic Performance Counter Collection II • LTE125: IPv6 for U/C-Plane
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE806: Performance Counter Plus Package for Transport I
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE770: Basic Performance Counter Collection II
• LTE649: QoS aware Ethernet Switching
• LTE649: QoS aware Ethernet Switching
• LTE649: QoS aware Ethernet Switching
• LTE649: QoS aware Ethernet Switching
• LTE649: QoS aware Ethernet Switching
• LTE649: QoS aware Ethernet Switching
• LTE649: QoS aware Ethernet Switching
• LTE689: LTE IPsec Support for control and user plane
• LTE689: LTE IPsec Support for control and user plane
• LTE689: LTE IPsec Support for control and user plane
• LTE689: LTE IPsec Support for control and user plane
• LTE689: LTE IPsec Support for control and user plane
• LTE689: LTE IPsec Support for control and user plane
• LTE692: LTE Firewall Support
• LTE692: LTE Firewall Support
• LTE132: VLAN based traffic separation • LTE125: IPv6 for U/C-Plane • LTE132: VLAN based traffic separation • LTE125: IPv6 for U/C-Plane
• LTE132: VLAN based traffic separation • LTE125: IPv6 for U/C-Plane • LTE132: VLAN based traffic separation • LTE125: IPv6 for U/C-Plane
• LTE132: VLAN based traffic separation • LTE125: IPv6 for U/C-Plane
#N/A
#N/A
#N/A
#N/A
#N/A
#N/A
• LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I
• LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I
• LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I
• LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I
• LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I
• LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I
• LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II • LTE806: Performance Counter Plus Package for Transport I
#N/A
#N/A
• LTE574: Transport network measurement
• LTE574: Transport network measurement
• LTE574: Transport network measurement
• LTE574: Transport network measurement
• LTE574: Transport network measurement
• LTE144: Transport admission control
• LTE144: Transport admission control
• LTE144: Transport admission control
• LTE144: Transport admission control
• LTE144: Transport admission control
• LTE1401: Measurement based TAC
• LTE1401: Measurement based TAC
• LTE1401: Measurement based TAC
• LTE1401: Measurement based TAC
• LTE134: LTE Timing over Packet
• LTE134: LTE Timing over Packet
• LTE134: LTE Timing over Packet
• LTE1961: WIFI for FlexiZone Micro
• LTE1961: WIFI for FlexiZone Micro
3GPP Measurement Type
Exceptions to Related Standard
Used from Release
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN2.0_LNT1.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN5.0_LNT3.0
FDTD_LN5.0_LNT3.0
FDTD_LN5.0_LNT3.0
FDTD_LN5.0_LNT3.0
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN6.0_LNT4.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN6.0_LNT4.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN6.0_LNT4.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
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FDTD_LN1.0_LNT1.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN0.5_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN3.0_LNT2.0
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FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN5.0_LNT3.0
FDTD_LN5.0_LNT3.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
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FDTD_LN0.5_LNT1.0
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FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN1.0_LNT1.0
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FDTD_LN2.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FD-LN6.0
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN3.0_LNT3.0
FDTD_LN3.0_LNT3.0
FDTD_LN3.0_LNT3.0
FDTD_LN5.0_LNT3.0
FDTD_LN5.0_LNT5.0
FDTD_LN5.0_LNT3.0
FDTD_LN5.0_LNT3.0
FDTD_LN5.0_LNT3.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT3.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FD-FL15A
FDTD_LN7.0_LNT5.0
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN2.0_LNT1.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN5.0_LNT4.0
FDTD_LN2.0_LNT1.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN5.0_LNT4.0
FDTD_LN6.0_LNT5.0
FDTD_LN6.0_LNT5.0
FDTD_LN6.0_LNT5.0
FDTD_LN6.0_LNT5.0
FDTD_LN6.0_LNT5.0
FDTD_LN6.0_LNT5.0
FDTD_LN6.0_LNT5.0
FDTD_LN6.0_LNT5.0
FDTD_LN6.0_LNT5.0
FDTD_LN6.0_LNT5.0
FDTD_LN6.0_LNT5.0
FDTD_LN6.0_LNT5.0
FDTD_LN6.0_LNT5.0
FDTD_LN6.0_LNT5.0
FDTD_LN6.0_LNT5.0
FDTD_LN6.0_LNT5.0
FDTD_LN6.0_LNT5.0
FDTD_LN6.0_LNT5.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN4.0_LNT3.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN2.0_LNT1.0
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FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_FL15A_TL15A
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN7.0_LNT5.0
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN4.0_LNT3.0
FDTD_LN4.0_LNT3.0
FDTD_LN4.0_LNT3.0
FDTD_LN4.0_LNT3.0
FDTD_LN4.0_LNT3.0
FDTD_LN4.0_LNT3.0
FDTD_LN4.0_LNT3.0
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FD-FL15A
FD-FL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN4.0_LNT3.0
FDTD_LN4.0_LNT3.0
FDTD_LN4.0_LNT3.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN5.0_LNT3.0
FDTD_LN5.0_LNT3.0
FDTD_LN3.0_LNT2.0
FDTD_LN4.0_LNT3.0
FDTD_LN4.0_LNT3.0
FDTD_LN4.0_LNT3.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN3.0_LNT2.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN5.0_LNT3.0
FDTD_LN5.0_LNT3.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN3.0_LNT2.0
FDTD_LN5.0_LNT3.0
FDTD_LN5.0_LNT3.0
FDTD_LN5.0_LNT3.0
FDTD_LN5.0_LNT3.0
FDTD_LN5.0_LNT3.0
FDTD_LN5.0_LNT3.0
FDTD_LN5.0_LNT3.0
FDTD_LN5.0_LNT3.0
FDTD_LN6.0_LNT4.0
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FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
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FDTD_LN6.0_LNT4.0
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FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
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FDTD_LN6.0_LNT4.0
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FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
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FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN7.0_LNT5.0
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FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_LNT5.0
FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_LNT5.0
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FD-FL15A
FD-FL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
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FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_LN7.0_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FD-LN8.0
FD-LN8.0
FD-LN8.0
FD-LN8.0
FD-LN8.0
FD-LN8.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN2.0_LNT2.0
FDTD_LN4.0_LNT2.0
FDTD_LN5.0_LNT3.0
FDTD_LN5.0_LNT3.0
FDTD_LN5.0_LNT3.0
FDTD_LN5.0_LNT3.0
FDTD_LN5.0_LNT3.0
FDTD_LN5.0_LNT3.0
FD-LN5.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FD-LN8.0
FD-LN8.0
FD-LN8.0
FD-LN8.0
FD-LN8.0
FD-LN8.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN1.0_LNT2.0
FDTD_LN2.0_LNT2.0
FDTD_LN2.0_LNT2.0
FDTD_LN2.0_LNT2.0
FDTD_LN2.0_LNT2.0
FDTD_LN2.0_LNT2.0
FDTD_LN2.0_LNT2.0
FDTD_LN2.0_LNT2.0
FDTD_LN2.0_LNT2.0
FDTD_LN5.0_LNT3.0
FDTD_FL15A_TL15A
FDTD_FL15A_TL15A
FD-LN4.0
FDTD_LN3.0_LNT3.0
FDTD_LN3.0_LNT3.0
FDTD_LN3.0_LNT3.0
FDTD_LN3.0_LNT3.0
FDTD_LN3.0_LNT3.0
FDTD_LN3.0_LNT3.0
FDTD_LN3.0_LNT3.0
FDTD_LN3.0_LNT3.0
FDTD_LN3.0_LNT3.0
FDTD_LN3.0_LNT3.0
FDTD_LN3.0_LNT3.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FD-LN4.0
FD-LN4.0
FD-LN4.0
FD-LN4.0
FD-LN4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FDTD_LN6.0_LNT4.0
FD-LN7.0
FD-LN7.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN2.0_LNT1.0
FDTD_LN4.0_LNT3.0
FDTD_LN4.0_LNT3.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN1.0_LNT1.0
FDTD_LN0.5_LNT1.0
FDTD_LN0.5_LNT1.0
Note: See the How to Read This Report tab for instructions on the usage of KPI List Changes between releases KPI ID RL70 (DN0969678) and FDD-LTE15A (DN0944219) LTE_5003a
Changed
LTE_5004b
LTE_5009b
LTE_5014a
LTE_5017a
Changed
LTE_5023e
Changed
LTE_5024e
Changed
LTE_5025e
LTE_5031b
LTE_5035a
New
LTE_5036a
LTE_5040b
LTE_5043a
LTE_5048b
LTE_5049b
LTE_5055b
LTE_5058b
Changed
LTE_5060i
LTE_5064b
LTE_5065b
LTE_5068a
LTE_5069a
LTE_5072b
LTE_5073a
Changed
LTE_5074c
Changed
LTE_5075b
LTE_5076b
LTE_5078a
LTE_5079a
LTE_5080a
LTE_5081a
LTE_5082a
LTE_5083a
LTE_5084a
Changed
LTE_5086b
Changed
LTE_5087b
Changed
LTE_5088b
Changed
LTE_5089b
Changed
LTE_5090c
Changed
LTE_5091c
Changed
LTE_5092d
LTE_5097a
LTE_5098a
LTE_5104a
LTE_5105a
LTE_5106a
LTE_5107a
LTE_5108a
Changed
LTE_5109a
Changed
LTE_5110a
Changed
LTE_5111a
LTE_5112c
LTE_5113c
LTE_5114a
LTE_5115a
LTE_5116a
Changed
LTE_5117b
LTE_5118a
Changed
LTE_5119d
LTE_5120b
LTE_5121a
LTE_5122b
LTE_5123a
LTE_5124a
LTE_5125a
LTE_5126a
LTE_5127a
LTE_5134a
LTE_5137a
Changed
LTE_5141a
Changed
LTE_5142a
LTE_5143a
LTE_5144a
Changed
LTE_5145a
LTE_5147a
LTE_5148a
Changed
LTE_5150b
Changed
LTE_5151b
LTE_5152a
LTE_5155a
LTE_5158a
LTE_5161a
LTE_5164a
Changed
LTE_5167a
Changed
LTE_5168a
Changed
LTE_5169a
Changed
LTE_5170a
Changed
LTE_5171a
Changed
LTE_5172a
Changed
LTE_5173a
LTE_5174a
LTE_5175a
LTE_5176a
LTE_5177a
LTE_5178a
LTE_5179a
Changed
LTE_5190a
Changed
LTE_5191b
Changed
LTE_5192a
Changed
LTE_5193a
Changed
LTE_5194a
Changed
LTE_5195a
Changed
LTE_5196a
Changed
LTE_5197a
Changed
LTE_5198b
New
LTE_5200b
LTE_5201a
Changed
LTE_5202a
Changed
LTE_5203a
LTE_5204b
LTE_5205b
LTE_5206c
LTE_5207b
LTE_5208a
Changed
LTE_5209b
LTE_5211a
LTE_5212a
LTE_5213a
LTE_5214b
Changed
LTE_5216a
LTE_5217c
Changed
LTE_5218f
Changed
LTE_5220b
Changed
LTE_5227c
Changed
LTE_5228c
Changed
LTE_5229e
Changed
LTE_5230e
LTE_5232a
LTE_5233a
LTE_5234a
Changed
LTE_5237c
Changed
LTE_5238c
LTE_5239a
LTE_5240a
LTE_5242a
Changed
LTE_5250a
Changed
LTE_5251a
LTE_5252a
LTE_5255b
LTE_5256b
LTE_5257b
LTE_5258b
LTE_5259b
LTE_5260b
Changed
LTE_5261b
LTE_5262a
LTE_5263b
LTE_5264a
LTE_5265a
LTE_5266a
LTE_5267a
LTE_5268a
LTE_5273b
LTE_5276b
Changed
LTE_5283b
Changed
LTE_5284b
LTE_5289d
Changed
LTE_5292d
Changed
LTE_5293c
Changed
LTE_5294c
LTE_5300a
Changed
LTE_5301a
Changed
LTE_5302a
LTE_5303a
LTE_5304b
LTE_5305b
LTE_5306b
LTE_5307b
LTE_5308b
LTE_5310b
LTE_5311b
LTE_5312b
LTE_5313b
LTE_5314b
Changed
LTE_5316a
LTE_5317a
LTE_5318b
Changed
LTE_5319b
Changed
LTE_5320a
LTE_5321c
LTE_5323a
LTE_5324a
LTE_5326b
Changed
LTE_5350a
Changed
LTE_5351a
Changed
LTE_5352a
Changed
LTE_5353a
Changed
LTE_5354a
Changed
LTE_5355a
Changed
LTE_5356a
Changed
LTE_5357a
Changed
LTE_5358a
Changed
LTE_5359a
Changed
LTE_5360a
Changed
LTE_5361a
Changed
LTE_5362a
Changed
LTE_5363a
Changed
LTE_5364a
Changed
LTE_5365a
Changed
LTE_5366a
Changed
LTE_5367a
LTE_5368a
LTE_5369a
LTE_5370a
LTE_5371a
LTE_5380a
LTE_5381a
LTE_5382a
LTE_5383a
LTE_5384a
LTE_5385a
LTE_5386a
LTE_5387a
LTE_5388a
LTE_5389a
LTE_5390a
LTE_5391a
Changed
LTE_5392c
LTE_5393a
LTE_5394a
LTE_5395a
LTE_5396a
LTE_5397a
LTE_5398a
LTE_5399a
LTE_5400a
LTE_5401a
LTE_5402a
Changed
LTE_5403b
New
LTE_5404b
Changed
LTE_5405a
LTE_5407a
LTE_5408a
LTE_5409a
LTE_5410a
LTE_5411a
LTE_5412a
LTE_5413a
LTE_5414a
LTE_5415a
LTE_5416a
LTE_5417a
LTE_5418a
LTE_5427a
LTE_5432b
Changed
LTE_5441b
Changed
LTE_5444b
LTE_5450a
LTE_5451a
LTE_5452a
LTE_5453a
LTE_5454a
LTE_5455a
LTE_5456a
LTE_5457a
LTE_5458a
LTE_5459a
LTE_5461a
LTE_5462a
LTE_5463a
LTE_5464a
LTE_5465a
LTE_5466a
LTE_5467a
LTE_5468a
LTE_5469a
LTE_5471a
LTE_5472a
LTE_5473a
LTE_5474a
LTE_5475a
LTE_5476a
LTE_5477a
LTE_5478a
LTE_5479a
LTE_5480a
LTE_5481a
Changed
LTE_5501a
Changed
LTE_5502a
LTE_5503a
LTE_5504a
LTE_5505a
LTE_5506a
LTE_5507a
LTE_5508a
LTE_5509a
LTE_5510a
LTE_5511a
LTE_5512a
LTE_5513a
LTE_5514a
LTE_5515a
LTE_5516a
LTE_5517a
LTE_5518a
LTE_5519a
LTE_5520a
LTE_5522a
LTE_5523a
LTE_5524a
LTE_5525a
LTE_5526a
Changed
LTE_5529a
LTE_5530a
LTE_5531a
LTE_5532a
LTE_5533a
Changed
LTE_5534a
Changed
LTE_5535a
LTE_5536a
Changed
LTE_5541b
Changed
LTE_5544b
LTE_5550b
LTE_5551b
LTE_5552b
LTE_5553b
LTE_5554b
LTE_5555b
Changed
LTE_5559b
Changed
LTE_5560b
Changed
LTE_5561b
Changed
LTE_5562a
Changed
LTE_5563a
Changed
LTE_5564a
LTE_5565a
LTE_5566a
LTE_5567a
LTE_5568a
Changed
LTE_5569a
Changed
LTE_5570d
Changed
LTE_5571c
Changed
LTE_5572b
Changed
LTE_5574e
Changed
LTE_5575a
Changed
LTE_5576a
Changed
LTE_5577a
Changed
LTE_5578a
Changed
LTE_5579a
Changed
LTE_5580a
LTE_5581b
LTE_5582b
LTE_5583b
LTE_5584b
LTE_5585b
LTE_5586b
Changed
LTE_5587c
Changed
LTE_5590c
LTE_5600a
LTE_5601a
LTE_5602a
LTE_5603a
LTE_5610a
Changed
LTE_5611a
Changed
LTE_5612a
Changed
LTE_5613a
Changed
LTE_5614a
Changed
LTE_5615a
Changed
LTE_5616a
Changed
LTE_5617a
Changed
LTE_5618a
LTE_5620a
LTE_5621a
LTE_5622a
LTE_5623a
LTE_5624a
Changed
LTE_5625b
Changed
LTE_5626b
Changed
LTE_5627b
Changed
LTE_5630a
Changed
LTE_5631a
LTE_5632a
LTE_5633a
LTE_5634a
LTE_5635a
Changed
LTE_5636a
Changed
LTE_5637a
LTE_5640a
LTE_5641a
LTE_5642a
LTE_5643a
LTE_5644a
LTE_5645a
LTE_5646a
LTE_5647a
LTE_5648a
LTE_5649a
LTE_5650a
LTE_5658a
LTE_5659a
LTE_5660a
LTE_5661a
LTE_5662a
LTE_5663b
Changed
LTE_5664c
Changed
LTE_5665b
LTE_5670a
LTE_5671a
LTE_5672a
Changed
LTE_5673a
LTE_5674a
LTE_5676b
LTE_5677b
LTE_5680a
Changed
LTE_5681a
Changed
LTE_5686a
New
LTE_5690a
New
LTE_5691a
New
LTE_5692a
New
LTE_5693a
New
LTE_5694a
New
LTE_5695a
New
LTE_5696a
New
LTE_5697a
New
LTE_5698a
New
LTE_5699a
New
LTE_5700a
New
LTE_5701a
New
LTE_5702a
New
LTE_5703a
New
LTE_5704a
New
LTE_5705a
New
LTE_5706a
New
LTE_5707a
New
LTE_5708a
New
LTE_5709a
New
LTE_5711a
New
LTE_5712a
New
LTE_5713a
New
LTE_5714a
New
LTE_5716a
New
LTE_5718a
New
LTE_5720a
New
LTE_5722a
New
LTE_5723a
New
LTE_5724a
New
LTE_5725a
New
LTE_5726a
New
LTE_5727a
New
LTE_5728a
New
LTE_5729a
New
LTE_5730a
New
LTE_5731a
New
LTE_5732a
New
LTE_5733a
New
LTE_5734a
New
LTE_5735a
New
LTE_5736a
New
LTE_5737a
New
LTE_5738a
New
LTE_5739a
New
LTE_5740a
New
LTE_5741a
New
LTE_5742a
New
LTE_5743a
New
LTE_5744a
New
LTE_5745a
New
LTE_5747a
New
LTE_5748a
New
LTE_5749a
LTE_5750a
Changed
LTE_5751a
Changed
LTE_5752a
New
LTE_5761a
New
LTE_5762a
New
LTE_5763a
New
LTE_5765a
New
LTE_5771a
New
LTE_5772a
New
LTE_5773a
New
LTE_5774a
LTE_5800d
LTE_5801d
LTE_5802a
LTE_5803a
LTE_5804c
LTE_5805c
Changed
LTE_5806c
Changed
LTE_5807c
Changed
LTE_5808c
LTE_5810a
Changed
LTE_5812b
Changed
LTE_5813a
Changed
LTE_5814a
Changed
LTE_5815b
Changed
LTE_5816a
Changed
LTE_5817a
KPI Name
KPI Abbreviation
E-UTRAN Data Radio Bearer Setup Success Ratio
Data RB stp SR
E-UTRAN Radio Bearer Drop Ratio
RB DR
E-UTRAN Initial Context Setup Success Ratio
S1 init ctxt stp SR
E-UTRAN S1 Setup Success Ratio
S1 stp SR
E-UTRAN E-RAB Setup Success Ratio
E-UTRAN E-RAB stp SR
E-UTRAN E-RAB Normal Release Ratio User Perspective
E-RAB norm RelR EPC init
E-UTRAN E-RAB Normal Release Ratio RAN View
E-RAB normal rel R, RAN
E-UTRAN E-RAB Drop Ratio, RAN View
E-RAB DR RAN
E-UTRAN RRC Paging Discard Ratio
E-UTRAN RRC Paging Discard Ratio
E-UTRAN HO Success Ratio, intra eNB
Intra eNB HO SR
E-UTRAN HO Preparation Success Ratio, intra Intra eNB HO prep SR eNB
E-UTRAN HO Failure Ratio, intra eNB
intra eNB E-UTRAN HO FR
E-UTRAN Total HO Success Ratio, intra eNB
Intra eNB HO SR total
E-UTRAN HO Success Ratio, Inter eNB X2 based
inter eNB E-UTRAN HO SR X2
E-UTRAN HO Preparation Success Ratio, inter inter eNB E-UTRAN HO prepSR X2 eNB X2 based
E-UTRAN HO Failure Ratio, inter eNB X2 based
inter eNB E-UTRAN HO FR X2
E-UTRAN Total HO Success Ratio, inter eNB X2 based
inter eNB E-UTRAN tot HO SR X2
E-UTRAN Initial E-RAB Accessibility
E-UTRAN Init E-RAB acc
E-UTRAN Average incoming Signaling Throughput on X2
Avg incoming Sign Thp X2
E-UTRAN Average outgoing Signaling Throughput on X2
Avg outgoing Sign Thp X2
E-UTRAN Average incoming Data Throughput on X2
Avg incoming Data Thp X2
E-UTRAN Average outgoing data Throughput on X2
Avg outgoing Sign Thp X2
E-UTRAN IP outgoing Traffic Volume
E-UTRAN IP outgoing volume
E-UTRAN IP incoming traffic volume
E-UTRAN IP incoming Volume
E-UTRAN IP outgoing Traffic Throughput
E-UTRAN IP outgoing thp
E-UTRAN IP incoming Throughput
E-UTRAN IP incoming Thp
E-UTRAN incoming IP Traffic Error Ratio
E-UTRAN incmg IP Traf ER
E-UTRAN HO Preparation Success Ratio, inter E-UTRAN HO Prep SR, inter eNB S1 eNB S1 based
E-UTRAN HO Preparation Failure Ratio per Cause, inter eNB S1 based, due to "timer TS1RELOCprep" failure (TIME)
E-UTRAN HO prep FR, timer TS1RELOCprep
E-UTRAN HO Preparation Failure Ratio per Cause, inter eNB S1 based due to percentage of "lack of resources" failure
E-UTRAN HO prep FR, percentage of lack of resources
E-UTRAN HO Preparation Failure Ratio per Cause, inter eNB S1 based due to percentage of "other" failure (OTHER)
E-UTRAN HO prep FR, percentage of other failure
E-UTRAN HO Success Ratio, inter eNB S1 based
E-UTRAN HO SR, inter eNB S1
E-UTRAN HO Failure Ratio, inter eNB S1 based
E-UTRAN HP FR, inter eNB S1
E-UTRAN Total HO Success Ratio, inter eNB S1 based
E-UTRAN Total HO SR, inter eNB S1
E-UTRAN E-RAB Setup Failure Ratio per Cause RNL
E-RAB SFR RNL
E-UTRAN E-RAB Setup Failure Ratio per Cause TRPORT
E-RAB SFR TRPORT
E-UTRAN E-RAB Setup Failure Ratio per Cause RESOUR
E-RAB SFR RESOUR
E-UTRAN E-RAB Setup Failure Ratio per Cause OTH
E-RAB SFR OTH
E-UTRAN E-RAB Drop Ratio per Cause RNL
E-RAB DR RNL eNB
E-UTRAN E-RAB Drop Ratio per Cause TNL
E-RAB DR TNL eNB
E-UTRAN E-RAB drop ratio due to other (OTH) E-RAB DR OTH eNB cause initiated by eNB
E-UTRAN S1 Setup Failure Ratio per Cause No_RESP
S1 SFR NO_RESP
E-UTRAN S1 Setup Failure Ratio per Cause MME
S1 SFR MME
E-UTRAN HO Preparation Failure Ratio per Cause, intra eNB AC
Intra HO prep FR AC
E-UTRAN HO Preparation Failure Ratio per Cause, intra eNB OTH
Intra HO prep FR OTH
E-UTRAN HO Preparation Failure Ratio per Cause, inter eNBX2 based TIME
Inter X2 based HO prep FR TIME
E-UTRAN HO Preparation Failure Ratio per Cause, inter eNBX2 based AC
Inter X2 based HO prep FR AC
E-UTRAN HO Preparation Failure Ratio per Cause, inter eNBX2 based OTHER
Inter X2 based HO prep FR OTH
E-UTRAN CS Fallback Attempts with redirection via RRC Connection Release Distribution Rate, connected mode
E-UTRAN CS Fallback att red, conn mode
E-UTRAN CS Fallback Attempts with redirection via RRC Connection Release Distribution Rate, idle mode
E-UTRAN CS Fallback att red, idle mode
E-UTRAN CS Fallback Attempts with redirection via RRC Connection Release Distribution Rate, emergency call
E-UTRAN CS Fallback att red, emergency call
E-UTRAN Initial E-RAB Setup Success Ratio
E-UTRAN Ini E-RAB stp SR
E-UTRAN Additional E-RAB Setup Success Ratio
E-UTRAN Add E-RAB stp SR
E-UTRAN Inter-Frequency HO Success Ratio
E-UTRAN Inter-Freq HO SR
E-UTRAN Inter-Frequency HO Success Ratio Measurement Gap assisted
E-UTRAN Inter-Freq HO SR meas gap
E-UTRAN Data Radio Bearer Attempts
DATA RB STP ATT
E-UTRAN Radio Bearer Success Ratio
RB SR
E-UTRAN E-RAB Setup Attempt
E-RAB SAtt
E-UTRAN E-RAB Drop Ratio, User Perspective E-RAB DR, User Perspective
E-UTRAN Initial Context Setup Attempts
S1 init ctxt stp att
E-UTRAN S1 Setup Attempts
S1 Satt
E-UTRAN RRC Paging Records
E-UTRAN Paging Records
E-UTRAN HO Preparations, intra eNB
Intra HO preps
E-UTRAN HO Attempts, intra eNB
Intra HO Att
E-UTRAN HO Attempts, inter eNB X2 based
Inter X2 based HO Att
E-UTRAN HO Preparation, inter eNB X2 based Inter X2 based HO prep
E-UTRAN HO Preparations, inter eNB S1 based
E-UTRAN HO prep, inter eNB S1
E-UTRAN Average Latency Downlink
Avg Latency DL
E-UTRAN Average Latency Uplink
Avg Latency Uplink
RRC Connection Re-establishment Attempts, HO fail
RRC Re-estab Att, HO
RRC Connection Re-establishment Attempts, other fails
RRC Re-estab Att, other
Total E-UTRAN RRC Connection Reestablishment Success Ratio
Total RRC Conn Re-estab SR
Total E-UTRAN RRC Connection Reestablishment rejection Ratio
Total RRC Conn Re-estab reject Ratio
Total E-UTRAN RRC Connection Reestablishment failure Ratio
Total RRC Connection Re-estab FR
E-UTRAN S1 Partial Reset Distribution Rate, eNB init
S1 Partial Reset Distribution Rate, eNB init
E-UTRAN S1 Partial Reset Distribution Rate, MME init
S1 Partial Reset Distribution Rate, MME init
E-UTRAN Graceful Cell Shutdown Drop Rate
Graceful Cell Shutdown DR
Total E-UTRAN Graceful Cell Shutdown Drop Rate
Total Graceful Cell Shutdown DR
E-UTRAN HO Preparations for IMS emergecny HO Prep, IMS emg sessions sessions
E-UTRAN HO Preparation Success Ratio for IMS emergency Sessions
HO Prep SR, IMS emg Sessions
E-UTRAN HO Attempts for IMS emergency Sessions
HO Att, IMS emg Sessions
E-UTRAN HO Success Ratio for IMS emergency Sessions,
HO SR, IMS emg Sessions
E-UTRAN Total HO Success Ratio for IMS emergency Sessions
Total HO SR, IMS emg Sessions
E-UTRAN Total PDCCH Order Attempts
Total PDCCH Order Att
E-UTRAN Initial PDCCH Order Attempts
Initial PDCCH Order Att
E-UTRAN PDCCH Order Attempts Success Ratio
E-UTRAN PDCCH Order Att SR
Total E-UTRAN PDCCH Order Attempts Success Ratio
Total PDCCH Order Att SR
E-UTRAN Unavailability of dedicated preamble, Unavail of dedicated preamble, PDCCH order PDCCH order
E-UTRAN Unavailability of dedicated preamble, Unavail of dedicated preamble, HO Handover
E-UTRAN Unavailability of dedicated preamble, Unavail of dedicated preamble, other other
E-UTRAN Number of Late HO Events
Number of Late HO Events
E-UTRAN Number of Type 1 Early HO Events
Number of Type 1 Early HO Events
E-UTRAN Number of Type 2 Early HO Events
Number of Type 2 Early HO Events
E-UTRAN HO Attempts for UEs running in DRX HO Attempts for UEs running in DRX mode mode
E-UTRAN HO Success Ratio for Ues running in E-UTRAN HO SR, UEs in DRX mode DRX mode
E-UTRAN NACC Attempts from LTE to GSM
NACC Attempts from LTE to GSM
E-UTRAN Inter RAT HO Preparations
Inter RAT HO Preparations
E-UTRAN Inter RAT HO Preparation Success Ratio
Inter RAT HO Preparation SR
E-UTRAN Inter RAT HO Preparation Failure Ratio due to timer
Inter RAT HO Prep FR, timer
E-UTRAN Inter RAT HO Preparation Failure Ratio due to Admission control
Inter RAT HO Prep FR, AC
E-UTRAN Inter RAT HO Preparation Failure Ratio due to Other
Inter RAT HO Prep Fratio, Other
E-UTRAN Inter RAT PS-HO to WCDMA Success Ratio
Inter RAT PS HO WCDMA SR
E-UTRAN Inter RAT PS-HO to WCDMA Attempts
Inter RAT PS HO WCDMA Att
E-UTRAN Inter RAT PS-HO to WCDMA Failure Inter RAT PS HO WCDMA FR Ratio
E-UTRAN Inter RAT Total HO Success Ratio
Inter RAT Total HO SR
E-UTRAN incoming IP Traffic Error Ratio
Inc IP Traffic Err Ratio
E-UTRAN Additional E-RAB Setup Attempts for Add E-RAB Stp Att, IMS Emg IMS Emergency Sessions
E-UTRAN Additional E-RAB Setup Success Ratio for IMS Emergency Sessions
Add E-RAB Stp SR, IMS Emg
E-UTRAN Additional E-RAB Setup Failures for Add E-RAB Stp Fails, IMS Emg IMS Emergency Sessions
E-UTRAN E-RAB Setup Success Ratio, QCI1
E-RAB Stp SR, QCI1
E-UTRAN E-RAB Setup Attempts, QCI1
E-RAB Stp Att, QCI1
E-UTRAN E-RAB Setup Attempts, non GBR
E-RAB Stp Att, non GBR
E-UTRAN RLC PDU Re-transmission Ratio Uplink
RLC PDU Re-transmission UL
E-UTRAN RLC PDU Re-transmission Ratio Downlink
RLC PDU Re-transmission DL
E-UTRAN E-RAB QCI1 Normal Release Ratio User Perspective
E-RAB QCI1 normal rel, User
E-UTRAN RLC PDU Volume DL
RLC PDU Vol DL
E-UTRAN PDCP SDU Volume DL
PDCP SDU Volume, DL
E-UTRAN PDCP SDU Volume UL
PDCP SDU Volume, UL
E-UTRAN Maximum of Average Active Connected UEs
Max of Avg Active Conn UEs
E-UTRAN MAC PDU Re-transmission Ratio Downlink
MAC PDU Re-trans ratio
E-UTRAN E-RAB Setup Success Ratio, non GBR
E-RAB Stp SR, non GBR
Total E-UTRAN RRC Connection Setup Success Ratio
RRC conn stp SR
E-UTRAN UE Transaction to ECM-IDLE State Success Ratio
E-UTRAN UE Transact ECM-IDLE SR
Total E-UTRAN RRC Connection Setup Success Ratio for emergency calls
E-UTRAN RRC conn stp SR emg calls
RRC Connection Setup Attempts
RRC Conn Stp Att, emerg
E-UTRAN RRC Connection Setup Failure Ratio RRC Conn Stp FR, timer expiry per Cause, RRC timer expiry
E-UTRAN RRC Connection Setup Failure Ratio RRC Conn Stp FR, protocol err per Cause, RRC protocol error
RRC Connection Setup Attempts MO Sig
SIGN_CONN_ESTAB_ATT MO-S
RRC Connection Setup Attempts MT Access
SIGN_CONN_ESTAB_ATT MT-Acc
RRC Connection Setup Attempts MO Data
SIGN_CONN_ESTAB_ATT MT-Data
E-UTRAN E-RAB Drop Ratio per Cause RNL EPC
E-RAB DR RNL EPC
E-UTRAN E-RAB Drop Ratio per Cause OTH EPC
E-RAB DR OTH EPC
E-UTRAN Cell Availability, excluding blocked by CELL AVR BLU user state (BLU)
E-UTRAN HO Attempts, inter eNB S1 based
E-UTRAN HP att, inter eNB S1
E-UTRAN Average RRC Connected UEs
E-UTRAN avg RRC conn UEs
E-UTRAN Inter RAT HO Success Ratio
E-UTRAN InterRAT HO SR
E-UTRAN Inter RAT HO Attempts
E-UTRAN InterRAT HO att
E-UTRAN Inter RAT HO Failure Ratio
E-UTRAN InterRAT HO FR
E-UTRAN PDCP SDU Discard Ratio in DL
E-UTRAN PDCP SDU disc R DL
E-UTRAN PDCP SDU Discard Ratio in DL, QCI1
PDCP SDU Discard Ratio in DL, QCI1
E-UTRAN PDCP SDU Discard Ratio in DL, QCI2
E-UTRAN PDCP SDU disc R DL, QCI2
E-UTRAN PDCP SDU Discard Ratio in DL, QCI3
PDCP SDU Discard Ratio in DL, QCI3
E-UTRAN PDCP SDU Discard Ratio in DL, QCI4
PDCP SDU Discard Ratio in DL, QCI4
E-UTRAN PDCP SDU Discard Ratio in DL, non E-UTRAN PDCP SDU Discard Ratio in DL, non GBR GBR
E-UTRAN S1 WRITE-REPLACE Warning Request Success ratio
S1 WRITE-REPLACE req SR
E-UTRAN S1 WRITE-REPLACE Warning Requests
S1 WRITE-REPLACE warn req
E-UTRAN S1 KILL-REQUEST Success ratio
S1 KILL req SR
E-UTRAN S1 KILL-REQUEST Messages
S1 KILL req msg
E-UTRAN Primary ETWS Notifications
E-UTRAN prim ETWS notif
E-UTRAN Secondary ETWS Notifications
E-UTRAN second ETWS notif
E-UTRAN CMAS Notifications
E-UTRAN CMAS notif
E-UTRAN RRC Pagings for ETWS or CMAS
RRC pagings ETWS CMAS
E-UTRAN Average PRB usage per TTI UL
Avg PRB usage per TTI UL
E-UTRAN average PRB usage per TTI DL
E-UTRAN Avg PRB usage per TTI DL
E-UTRAN Average RLC Layer Cell Throughput Avg RLC Cell Thp UL UL
E-UTRAN average RLC Layer Cell Throughput Avg RLC Layer cell thp, DL DL
E-UTRAN average PDCP Layer Active Cell Throughput UL
Avg PDCP cell thp UL
E-UTRAN average PDCP Layer Active Cell Throughput DL
Avg PDCP cell thp DL
E-UTRAN average PDCP Layer Active Cell Throughput DL for QCI1 DRBs
E-UTRAN ave PDCP layer cell thr DL QCI1 DRBs
E-UTRAN average PDCP Active Layer Cell Throughput UL for QCI1 DRBs
E-UTRAN ave PDCP layer cell thr UL QCI1 DRBs
E-UTRAN Redirect to Home eNB
Redir home eNB
E-UTRAN Number of requested CGI reports for E-UTRAN Nbr req CGI rep UTRAN UTRAN
E-UTRAN CGI reports for UTRAN Success Ratio
E-UTRAN CGI rep UTRAN SR
E-UTRAN CGI reports for UTRAN Failure Ratio E-UTRAN CGI rep UTRAN FR
E-UTRAN PDCP SDU Loss Ratio in the DL
E-UTRAN PDCP SDU DL LR
E-UTRAN PDCP SDU Loss Ratio in the DL, QCI1
E-UTRAN PDCP SDU DL QCI1 LR
E-UTRAN PDCP SDU Loss Ratio in the DL, QCI2
E-UTRAN PDCP SDU DL QCI2 LR
E-UTRAN PDCP SDU t Loss Ratio in the DL, QCI3
E-UTRAN PDCP SDU DL QCI3 LR
E-UTRAN PDCP SDU Loss Ratio in the DL, QCI4
E-UTRAN PDCP SDU DL QCI4 LR
E-UTRAN PDCP SDU Loss Ratio in the UL
E-UTRAN PDCP SDU UL LR
E-UTRAN PDCP SDU Loss Ratio in the UL, QCI1
E-UTRAN PDCP SDU UL QCI1 LR
E-UTRAN PDCP SDU Loss Ratio in the UL, QCI2
E-UTRAN PDCP SDU UL QCI2 LR
E-UTRAN PDCP SDU Loss Ratio in the UL, QCI3
E-UTRAN PDCP SDU UL QCI3 LR
E-UTRAN PDCP SDU Loss Ratio in the UL, QCI4
E-UTRAN PDCP SDU UL QCI4 LR
E-UTRAN Number of Load Balancing HO Atempts
E-UTRAN Nbr Load Balancing HO Att
E-UTRAN Load Balancing HO Success Ratio
E-UTRAN Load Balancing HO SR
E-UTRAN Average CA Capable UEs for 2 CCs Avg CA capab UEs DL in DL
E-UTRAN Average UEs with Configured one SCell in DL
Avg UEs CA config DL
E-UTRAN Average UEs with an Activated SCell Avg UEs active SCell DL in DL
E-UTRAN Penetration of the CA Capable UEs for 2CCs into the Network
Penetr CA capab UEs in Nw
E-UTRAN SCell Configuration Success Ratio
Scell config SR
E-UTRAN RLC PDU Volume DL via Scell
RLC PDU vol DL v Scell
E-UTRAN Average UEs configured for TTI Bundling Mode
Avg UEs conf TTI bundl mode
E-UTRAN Averaged IP scheduled Throughput in DL, QCI1
E-UTRAN avg IP sched thp DL, QCI1
E-UTRAN Averaged IP scheduled Throughput in DL, QCI2
E-UTRAN avg IP sched thp DL, QCI2
E-UTRAN Averaged IP scheduled Throughput in DL, QCI3
E-UTRAN avg IP sched thp DL, QCI3
E-UTRAN Averaged IP scheduled Throughput in DL, QCI4
E-UTRAN avg IP sched thp DL, QCI4
E-UTRAN Averaged IP scheduled Throughput in DL, QCI5
E-UTRAN avg IP sched thp DL, QCI5
E-UTRAN Averaged IP scheduled Throughput in DL, QCI6
E-UTRAN avg IP sched thp DL, QCI6
E-UTRAN Averaged IP scheduled Throughput in DL, QCI7
E-UTRAN avg IP sched thp DL, QCI7
E-UTRAN Averaged IP scheduled Throughput in DL, QCI8
E-UTRAN avg IP sched thp DL, QCI8
E-UTRAN Averaged IP scheduled Throughput in DL, QCI9
E-UTRAN avg IP sched thp DL, QCI9
E-UTRAN Averaged IP scheduled Throughput in UL, QCI1
E-UTRAN avg IP sched thp UL, QCI1
E-UTRAN Averaged IP scheduled Throughput in UL, QCI2
E-UTRAN avg IP sched thp UL, QCI2
E-UTRAN Averaged IP scheduled Throughput in UL, QCI3
E-UTRAN avg IP sched thp UL, QCI3
E-UTRAN Averaged IP scheduled Throughput in UL, QCI4
E-UTRAN avg IP sched thp UL, QCI4
E-UTRAN Averaged IP scheduled Throughput in UL, QCI5
E-UTRAN avg IP sched thp UL, QCI5
E-UTRAN Averaged IP scheduled Throughput in UL, QCI6
E-UTRAN avg IP sched thp UL, QCI6
E-UTRAN Averaged IP scheduled Throughput in UL, QCI7
E-UTRAN avg IP sched thp UL, QCI7
E-UTRAN Averaged IP scheduled Throughput in UL, QCI8
E-UTRAN avg IP sched thp UL, QCI8
E-UTRAN Averaged IP scheduled Throughput in UL, QCI9
E-UTRAN avg IP sched thp UL, QCI9
E-UTRAN Average RSSI per Cell for PUCCH
Avg RSSI per cell PUCCH
E-UTRAN Average RSSI per Cell for PUSCH
Avg RSSI per cell PUSCH
E-UTRAN Average SINR per Cell for PUCCH
Avg SINR per cell PUCCH
E-UTRAN Average SINR per Cell for PUSCH
Avg SINR per cell PUSCH
RRC Connection Setup Attempts due to delay tolerant access
SIGN_CONN_ESTAB_ATT delay tol
RRC Connection Setup Attempts due to high priority calls
SIGN_CONN_ESTAB_ATT high prio
Total E-UTRAN RRC Connection Setup Success Ratio for mobile originating signaling.
RRC conn stp SR mos
Total E-UTRAN RRC Connection Setup Success Ratio for mobile originating calls.
RRC conn stp SR moc
Total E-UTRAN RRC Connection Setup Success Ratio for mobile terminating access.
RRC conn stp SR mta
Total E-UTRAN RRC Connection Setup Success Ratio for delay tolerant access.
RRC conn stp SR del tol
Total E-UTRAN RRC Connection Setup Success Ratio for high priority calls.
RRC conn stp SR high prio
Total E-UTRAN RRC Connection Setup RRC conn stp Rej R MOS Rejection Ratio for mobile originating signaling.
Total E-UTRAN RRC Connection Setup Rejection Ratio for mobile originating calls.
RRC conn stp Rej R MOC
Total E-UTRAN RRC Connection Setup Rejection Ratio for mobile terminating access.
RRC conn stp Rej R MTA
Total E-UTRAN RRC Connection Setup Rejection Ratio for delay tolerant access.
RRC conn stp Rej R del tol
Total E-UTRAN RRC Connection Setup Rejection Ratio for high priority calls.
RRC conn stp Rej R high prio
Total E-UTRAN RRC Connection Setup Rejection Ratio for emergency calls.
RRC conn stp Rej R, emerg
E-UTRAN E-RAB Setup Success Ratio for High Priority Calls
E-RAB stp SR high prio
E-UTRAN Average Number of Simultaneous QCI1 E-RABs
Avg Nr simult E-RABs QCI1
E-UTRAN Average Number of Simultaneous QCI2 E-RABs
Avg Nr simult E-RABs QCI2
E-UTRAN Average Number of Simultaneous QCI3 E-RABs
Avg Nr simult E-RABs QCI3
E-UTRAN Average Number of Simultaneous QCI4 E-RABs
Avg Nr simult E-RABs QCI4
E-UTRAN Average Number of Simultaneous QCI5 E-RABs
Avg Nr simult E-RABs QCI5
E-UTRAN Average Number of Simultaneous QCI6 E-RABs
Avg Nr simult E-RABs QCI6
E-UTRAN Average Number of Simultaneous QCI7 E-RABs
Avg Nr simult E-RABs QCI7
E-UTRAN Average Number of Simultaneous QCI8 E-RABs
Avg Nr simult E-RABs QCI8
E-UTRAN Average Number of Simultaneous QCI9 E-RABs
Avg Nr simult E-RABs QCI9
E-UTRAN Average number of UEs utilizing UL intra-eNB CoMP
Avg Nr Ues UL intra-eNB CoMP
E-UTRAN Number of requested CGI reports for Nr req CGI reports E-UTRAN
E-UTRAN CGI reports for E-UTRAN Success Ratio
CGI reports SR
E-UTRAN X2 Setup Success Ratio
X2 stp SR
E-UTRAN X2 Setup Attempts
X2 stp att
E-UTRAN X2 IP Address Retrieval Success Ratio
X2 IP add retriv SR
E-UTRAN X2 IP Adress Retrieval Attempts
X2 IP add retriv att
E-UTRAN Cell Resource Group 1 Utilization Ratio in DL
Cell res grp 1 util R DL
E-UTRAN Cell Resource Group 2 Utilization Ratio in DL
Cell res grp 2 util R DL
E-UTRAN Cell Resource Group 3 Utilization Ratio in DL
Cell res grp 3 util R DL
E-UTRAN Cell Resource Group 4 Utilization Ratio in DL
Cell res grp 4 util R DL
E-UTRAN Cell Resource Group 1 Utilization Ratio in UL
Cell res grp 1 util R UL
E-UTRAN Cell Resource Group 2 Utilization Ratio in UL
Cell res grp 2 util R UL
E-UTRAN Cell Resource Group 3 Utilization Ratio in UL
Cell res grp 3 util R UL
E-UTRAN Cell Resource Group 4 Utilization Ratio in UL
Cell res grp 4 util R UL
E-UTRAN Average CQI
Average CQI
E-UTRAN Average CQI Offset
E-UTRAN Avg CQI Offset
E-UTRAN Average RSSI for PUCCH
Avg RSSI for PUCCH
Average RSSI for PUSCH
Avg RSSI for PUSCH
E-UTRAN PDCP SDU Loss Ratio in the DL, QCI5
PDCP SDU LR DL QCI5
E-UTRAN PDCP SDU Loss Ratio in the DL, QCI6
PDCP SDU LR DL QCI6
E-UTRAN PDCP SDU Loss Ratio in the DL, QCI7
PDCP SDU LR DL QCI7
E-UTRAN PDCP SDU Loss Ratio in the DL, QCI8
PDCP SDU LR DL QCI8
E-UTRAN PDCP SDU Loss Ratio in the DL, QCI9
PDCP SDU LR DL QCI9
E-UTRAN PDCP SDU Loss Ratio in the UL, QCI5
PDCP SDU LR UL QCI5
E-UTRAN PDCP SDU Loss Ratio in the UL, QCI6
PDCP SDU LR UL QCI6
E-UTRAN PDCP SDU Loss Ratio in the UL, QCI7
PDCP SDU LR UL QCI7
E-UTRAN PDCP SDU Loss Ratio in the UL, QCI8
PDCP SDU LR UL QCI8
E-UTRAN PDCP SDU Loss Ratio in the UL, QCI9
PDCP SDU LR UL QCI9
E-UTRAN Inter RAT HO Preparations to eHRPD
IRAT HO eHRPD prep
E-UTRAN Inter RAT HO Preparation to eHRPD IRAT HO eHRPD prep SR Success Ratio
E-UTRAN Inter RAT HO Preparation to eHRPD IRAT HO eHRPD prep FR TUlHoPrep Failure Ratio per Cause expiration of guarding timer TUlHoPrepTransferHrpd E-UTRAN Inter RAT HO Preparation to eHRPD IRAT HO eHRPD prep FR TC2KReloc Failure Ratio per Cause expiration of guarding timer TC2KRelocPrepHrpd E-UTRAN Inter RAT HO Preparation to eHRPD IRAT HO eHRPD prep FR rcvd fail msg Failure Ratio per Cause received HO Failure indication
E-UTRAN Inter RAT HO to eHRPD Success Ratio
IRAT HO eHRPD SR
E-UTRAN Inter RAT to eHRPD HO Attempts
IRAT HO eHRPD att
E-UTRAN Inter RAT HO to eHRPD Failure Ratio
IRAT HO eHRPD FR
E-UTRAN Inter RAT Total HO to eHRPD Success Ratio
IRAT HO eHRPD tot SR
E-UTRAN Average PDCP SDU Delay in DL, QCI1
Avg PDCP SDU Delay DL QCI1
E-UTRAN Average PDCP SDU Delay in DL, QCI2
Avg PDCP SDU Delay DL QCI2
E-UTRAN Average PDCP SDU Delay in DL, QCI3
Avg PDCP SDU Delay DL QCI3
E-UTRAN Average PDCP SDU Delay in DL, QCI4
Avg PDCP SDU Delay DL QCI4
E-UTRAN Average PDCP SDU Delay in DL, QCI5
Avg PDCP SDU Delay DL QCI5
E-UTRAN Average PDCP SDU Delay in DL, QCI6
Avg PDCP SDU Delay DL QCI6
E-UTRAN Average PDCP SDU Delay in DL, QCI7
Avg PDCP SDU Delay DL QCI7
E-UTRAN Average PDCP SDU Delay in DL, QCI8
Avg PDCP SDU Delay DL QCI8
E-UTRAN Average PDCP SDU Delay in DL, QCI9
Avg PDCP SDU Delay DL QCI9
E-UTRAN Average number of UEs with unlimited power supply resources
Avg UEs unlimit pwr supply
E-UTRAN Penetration of the UEs with unlimited power supply resources into the network
Penetr UEs unlimit pwr supply
E-UTRAN Average Active UEs with Scheduled Data in DL
Avg act UEs sched data DL
E-UTRAN Average Active UEs with Scheduled Data in UL
Avg act UEs sched data UL
E-UTRAN Averaged IP Throughput in DL, QCI1 Avg IP thp DL QCI1
E-UTRAN Averaged IP Throughput in DL, QCI2 Avg IP thp DL QCI2
E-UTRAN Averaged IP Throughput in DL, QCI3 Avg IP thp DL QCI3
E-UTRAN Averaged IP Throughput in DL, QCI4 Avg IP thp DL QCI4
E-UTRAN Averaged IP Throughput in DL, QCI5 Avg IP thp DL QCI5
E-UTRAN Averaged IP Throughput in DL, QCI6 Avg IP thp DL QCI6
E-UTRAN Averaged IP Throughput in DL, QCI7 Avg IP thp DL QCI7
E-UTRAN Averaged IP Throughput in DL, QCI8 Avg IP thp DL QCI8
E-UTRAN Averaged IP Throughput in DL, QCI9 Avg IP thp DL QCI9
E-UTRAN Averaged IP Throughput in UL, QCI1 Avg IP thp UL QCI1
E-UTRAN Averaged IP Throughput in UL, QCI2 Avg IP thp UL QCI2
E-UTRAN Averaged IP Throughput in UL, QCI3 Avg IP thp UL QCI3
E-UTRAN Averaged IP Throughput in UL, QCI4 Avg IP thp UL QCI4
E-UTRAN Averaged IP Throughput in UL, QCI5 Avg IP thp UL QCI5
E-UTRAN Averaged IP Throughput in UL, QCI6 Avg IP thp UL QCI6
E-UTRAN Averaged IP Throughput in UL, QCI7 Avg IP thp UL QCI7
E-UTRAN Averaged IP Throughput in UL, QCI8 Avg IP thp UL QCI8
E-UTRAN Averaged IP Throughput in UL, QCI9 Avg IP thp UL QCI9
E-UTRAN Initial Context Setup Failure Ratio due to Failed Radio Interface Procedure
Init Contx stp FR due fail Rd IF proc
E-UTRAN UE Context Modification Success Rate
UE Contx mod SR
E-UTRAN Initial Context Setup Success Ratio being Subject for CS Fallback
Init Contx stp SR for CSFB
E-UTRAN Modification of UE Context being Subject for CS Fallback Success Rate
Mod UE contx subj CSFB SR
E-UTRAN UE-specific logical S1 Signaling Connection Success Rate
UE-spec log S1 sig conn SR
E-UTRAN Service Based HO Success Ratio
SB HO SR
E-UTRAN Service Based HO Attempts
SB HO att
E-UTRAN HO Preparation due to RLF Success HO prep SR due to RLF Ratio
E-UTRAN HO Preparation due to RLF Attempts HO prep att due to RLF
E-UTRAN Total HO due to RLF Success ratio
HO exec SR due to RLF
E-UTRAN UE Context Retrievals due to RLF Success ratio
UE Contx retriv due RLF SR
E-UTRAN UE Context Retrievals due to RLF Attempts
UE Contx retriv att due RLF
E-UTRAN UE Context Retrievals due to RLF Failure Ratio
UE Contx retriv due RLF FR
E-UTRAN Average SINR for PUCCH
Avg SINR for PUCCH
E-UTRAN Average SINR for PUSCH
Avg SINR for PUSCH
E-UTRAN E-RAB Setup Attempts, QCI2
E-RAB Stp Att, QCI2
E-UTRAN E-RAB Setup Attempts, QCI3
E-RAB Stp Att, QCI3
E-UTRAN E-RAB Setup Attempts, QCI4
E-RAB Stp Att, QCI4
E-UTRAN E-RAB Setup Success Ratio, QCI2
E-RAB Stp SR, QCI2
E-UTRAN E-RAB Setup Success Ratio, QCI3
E-RAB Stp SR, QCI3
E-UTRAN E-RAB Setup Success Ratio, QCI4
E-RAB Stp SR, QCI4
E-UTRAN Average Active UEs with data in the buffer for DRBs of QCI2 DL
Avg active Ues for DRBs, QCI2, DL
E-UTRAN Average Active UEs with data in the buffer for DRBs of QCI3 DL
Avg active Ues for DRBs, QCI3, DL
E-UTRAN Average Active UEs with data in the buffer for DRBs of QCI4 DL
Avg active Ues for DRBs, QCI3, DL
E-UTRAN Inter RAT HO Attempts to UTRAN SRVCC
Inter RAT HO Att, UTRAN, SRVCC
E-UTRAN Inter RAT HO UTRAN with SRVCC Failure Ratio
Inter RAT HO FR, UTRAN, SRVCC
E-UTRAN Inter RAT HO UTRAN with SRVCC Success Ratio
Inter RAT HO SR, UTRAN, SRVCC
E-UTRAN Inter RAT HO Attempts to GERAN SRVCC
Inter RAT HO Att, GERAN, SRVCC
E-UTRAN Inter RAT HO GERAN with SRVCC Failure Ratio
Inter RAT HO FR, GERAN, SRVCC
E-UTRAN Inter RAT HO GERAN with SRVCC Success Ratio
Inter RAT HO SR, GERAN, SRVCC
E-UTRAN Intra-Frequency HO Success Ratio
E-UTRAN Intra-Freq HO Att
E-UTRAN RACH Setup Completion Success Rate
RACH Stp Completion SR
E-UTRAN E-RAB active drop ratio with data in the buffer due to RNL Radio Connection with UE Lost.
E-RAB DR Activ RNL
E-UTRAN E-RAB QCI1 with data in the queue E-RAB DR Activ QCI1 RNL drop ratio, RAN View, RNL Failure with UE Lost
E-UTRAN E-RAB QCI1 Drop Ratio, RAN View
E-RAB QCI1 DR, RAN view
E-UTRAN Additional E-RAB Accessibility
E-UTRAN Add E-RAB acc
E-UTRAN Total E-RAB Active Time
E-UTRAN E-RAB act time
E-UTRAN E-RAB Active Time QCI1
E-UTRAN E-RAB act time QCI1
E-UTRAN E-RAB Active Time QCI2
E-UTRAN E-RAB act time QCI2
E-UTRAN E-RAB Active Time QCI3
E-UTRAN E-RAB act time QCI3
E-UTRAN E-RAB Active Time QCI4
E-UTRAN E-RAB act time QCI4
E-UTRAN E-RAB Active Time nonGBR
E-UTRAN E-RAB act time nonGBR
E-UTRAN E-RAB Retainability Rate, RAN View, RNL Failure with UE Lost
E-UTRAN E-RAB ret RAN v, RNL fail
E-UTRAN QCI1 E-RAB Retainability Rate, RAN View, RNL Failure with UE Lost
E-UTRAN QCI1 E-RAB ret RAN v, RNL fail
E-UTRAN QCI2 E-RAB Retainability Rate, RAN View, RNL Failure with UE Lost
E-UTRAN QCI2 E-RAB ret RAN v, RNL fail
E-UTRAN QCI3 E-RAB Retainability Rate, RAN View, RNL Failure with UE Lost
E-UTRAN QCI3 E-RAB ret RAN v, RNL fail
E-UTRAN QCI4 E-RAB Retainability Rate, RAN View, RNL Failure with UE Lost
E-UTRAN QCI4 E-RAB ret RAN v, RNL fail
E-UTRAN non GBR E-RAB Retainability Rate, E-UTRAN nonGBR E-RAB ret RAN v, RNL fail RAN View, RNL Failure with UE Lost
E-UTRAN E-RAB Release ratio due to Radio resources not available
E-RAB Rel R RRNA
E-UTRAN RRC Connection Setup Failure Ratio RRC Conn Stp FR, rej eNB per Cause, Rejection from eNB
E-UTRAN Mean E-RAB Setup Time
Mean E-RAB stp time
E-UTRAN Maximum E-RAB Setup Time
Max E-RAB stp time
E-UTRAN Mean RRC Connection Setup Time
Mean RRC conn stp time
E-UTRAN Maximum RRC Connection Setup Time
Max RRC conn stp time
E-UTRAN Maximum Number of Simultaneous QCI1 E-RABs
Max Nr simult E-RABs QCI1
E-UTRAN Maximum Number of Simultaneous QCI2 E-RABs
Max Nr simult E-RABs QCI2
E-UTRAN Maximum Number of Simultaneous QCI3 E-RABs
Max Nr simult E-RABs QCI3
E-UTRAN Maximum Number of Simultaneous QCI4 E-RABs
Max Nr simult E-RABs QCI4
E-UTRAN Maximum Number of Simultaneous QCI5 E-RABs
Max Nr simult E-RABs QCI5
E-UTRAN Maximum Number of Simultaneous QCI6 E-RABs
Max Nr simult E-RABs QCI6
E-UTRAN Maximum Number of Simultaneous QCI7 E-RABs
Max Nr simult E-RABs QCI7
E-UTRAN Maximum Number of Simultaneous QCI8 E-RABs
Max Nr simult E-RABs QCI8
E-UTRAN Maximum Number of Simultaneous QCI9 E-RABs
Max Nr simult E-RABs QCI9
E-UTRAN E-RAB Modification Success Rate per QCI5
E-RAB mod SR QCI5
E-UTRAN E-RAB Modification Success Rate per QCI6
E-RAB mod SR QCI6
E-UTRAN E-RAB Modification Success Rate per QCI7
E-RAB mod SR QCI7
E-UTRAN E-RAB Modification Success Rate per QCI8
E-RAB mod SR QCI8
E-UTRAN E-RAB Modification Success Rate per QCI9
E-RAB mod SR QCI9
E-UTRAN E-RAB Modification Failure Ratio due to "Failure in the Radio Interface Procedure"
E-RAB mod FR R IF Proc
E-UTRAN E-RAB Modification Failure Ratio due to "Not supported QCI value"
E-RAB mod FR not supp QCI
E-UTRAN E-RAB Modification Failure Ratio due to "Radio Network Layer Cause unspecified"
E-RAB mod FR RNL unspec
E-UTRAN Average Number of Preffered PRBs Avg prefer PRBs per TTI DL per TTI DL
E-UTRAN Number of Changes of Preffered PRBs
Nr changes prefer PRBs
E-UTRAN Mean Number of non-GBR E-RABs with Configured NBR in DL
Mean non-GBR E-RABs w conf NBR DL
E-UTRAN Mean Number of non-GBR E-RABs with Configured NBR in UL
Mean non-GBR E-RABs w conf NBR UL
E-UTRAN Mean Number of non-GBR E-RABs not Reaching NBR in DL due to Overload
Mean non-GBR E-RABs not reach NBR due overload DL
E-UTRAN Mean Number of non-GBR E-RABs not Reaching NBR in UL due to Overload
Mean non-GBR E-RABs not reach NBR due overload UL
E-UTRAN Percentage of Time of non-GBR E- Perc t non-GBR E-RABs not reach NBR due RABs not Reaching NBR in DL due to Overload overload DL
E-UTRAN Percentage of Time of non-GBR E- Perc t non-GBR E-RABs not reach NBR due RABs not Reaching NBR in UL due to Overload overload UL
E-UTRAN Average Number of Cells in TA
Avg nr Cells in TA
E-UTRAN E-RAB Setup Attempts, QCI5
E-RAB Stp Att, QCI5
E-UTRAN E-RAB Setup Attempts, QCI6
E-RAB Stp Att, QCI6
E-UTRAN E-RAB Setup Attempts, QCI7
E-RAB Stp Att, QCI7
E-UTRAN E-RAB Setup Attempts, QCI8
E-RAB Stp Att, QCI8
E-UTRAN E-RAB Setup Attempts, QCI9
E-RAB Stp Att, QCI9
E-UTRAN E-RAB Setup Success Ratio, QCI5
E-RAB Stp SR, QCI5
E-UTRAN E-RAB Setup Success Ratio, QCI6
E-RAB Stp SR, QCI6
E-UTRAN E-RAB Setup Success Ratio, QCI7
E-RAB Stp SR, QCI7
E-UTRAN E-RAB Setup Success Ratio, QCI8
E-RAB Stp SR, QCI8
E-UTRAN E-RAB Setup Success Ratio, QCI9
E-RAB Stp SR, QCI9
E-UTRAN Number of Incoming HO Preparation Nr In HO prep att Attempts
E-UTRAN Incoming HO Preparation Success Ratio
In HO prep SR
E-UTRAN Incoming HO Preparation Failure Ratio due to Missing Radio Resources
In HO prep FR miss rad rsrc
E-UTRAN Incoming HO Preparation Failure Ratio due to Missing Transport Resources
In HO prep FR miss trans rsrc
E-UTRAN IP incoming VLAN traffic volume
E-UTRAN IP inc VLAN traf
E-UTRAN IP outgoing Traffic Volume
E-UTRAN IP outg VLAN traf
E-UTRAN IP outgoing Traffic Throughput
E-UTRAN IP outg VLAN thp
E-UTRAN IP incoming traffic throughput
E-UTRAN IP inc VLAN thp
E-UTRAN Complete Contention Based RACH Setup Success Rate
Comp Cont based RACH stp SR
E-UTRAN Average CA Capable UEs for 3 CCs Avg CA cap UEs for 3CCs DL in DL
E-UTRAN Average UEs with Configured two SCells in DL
Avg UEs conf 2 Scell DL
E-UTRAN Penetration of the CA Capable UEs for 3CCs into the Network
Penetr CA cap UEs for 3CCs
E-UTRAN Average UEs with Activated Two SCells in DL
Avg UEs activ 2 Scell DL
E-UTRAN Number of Almost Blank SubFrames
Nr of ABS
E-UTRAN eICIC Utilization
eICIC util
E-UTRAN Average PRB usage for CRE UEs per DL ABS
Avg PRB usg CRE UEs DL ABS
E-UTRAN Average PRB usage for CRE UEs per UL ABS
Avg PRB usg CRE UEs UL ABS
E-UTRAN UE Transaction to ECM-IDLE State Ratio due to Radio Resource not Available
UE trans to ECM-idle R due rad rscr not avail
E-UTRAN E-CID Measurement Initiation Request Success Ratio
E-CID meas init req SR
E-UTRAN E-CID Measurement Initiation E-CID meas init req FR req item not sup Request Failure Ratio due to " Requested Item not Supported" E-UTRAN E-CID Measurement Initiation E-CID meas init req FR req item not avail Request Failure Ratio due to " Requested Item Temporarily not Available" E-UTRAN E-RAB Modification Success Rate per QCI1
E-RAB mod SR QCI1
E-UTRAN E-RAB Modification Success Rate per QCI2
E-RAB mod SR QCI2
E-UTRAN E-RAB Modification Success Rate per QCI3.
E-RAB mod SR QCI3
E-UTRAN E-RAB Modification Success Rate per QCI4.
E-RAB mod SR QCI4
E-UTRAN E-RAB Modification Failure Ratio due to " Radio Network Layer Cause - Radio resources not available"
E-RAB mod FR RNL rsrc unavail
E-UTRAN E-RAB Modification Failure Ratio due to " Transport Layer cause - Transport Resource Unavailable"
E-RAB mod FR TNL rsrc unavail
E-UTRAN Percentage of Automatic Access Class Barring due to Overload Duration
Perc of aut acc class barring due overload dur
E-UTRAN SCell Scheduling Blocking Rate due SCell Sched block r, conflict PUCCH format to Conflicts on PUCCH Format 1bwcs 1bwcs rsrc Resources E-UTRAN SCell Scheduling Blocking Rate due SCell Sched block r, conflict PUCCH format 3 to Conflicts on PUCCH Format 3 Resources rsrc
E-UTRAN Cell in Power Saving Mode Ratio
Cell pwr saving mode R
E-UTRAN E-RAB Drop Ratio per Cause due to E-RAB DR, EUTRAN reas init eNB E-UTRAN generated reason cause initiated by eNB E-UTRAN E-RAB Drop Ratio per Cause due to E-RAB DR, fail HO init eNB failed handover cause initiated by eNB
E-UTRAN E-RAB Drop Ratio per Cause due to E-RAB DR, partial HO due to partial handover cause
E-UTRAN Average CQI for Code Word 1
Average CQI for code word 1
E-UTRAN RRC Connection Setup Failure Ratio RRC conn stp FR rej eNB overload lack rsrc per Cause Rejection from eNB due to Overload and Lack of Resources E-UTRAN Percentage of Time the Cell was in the C-Plane Overload State
Perc time cell C-Plane overload
E-UTRAN Percentage of Time the Cell was in the U-Plane Overload State
Perc time cell U-Plane overload
E-UTRAN Inter-Frequency QCI1 HO Attempts
Inter Freq QCI1 HO Att
E-UTRAN Inter-Frequency HO Success Ratio Measurement Gap assisted
Inter Frequency QCI1 HO SR
Inter RAT HO preparation attempts to 1xRTT with SRVCC
Inter RAT HO 1xRTT SRVCC Prep Att
Inter RAT HO preparation SR to 1xRTT with SRVCC
Inter RAT HO 1xRTT SRVCC Prep SR
Inter RAT HO preparation FR #1 to 1xRTT with Inter RAT HO 1xRTT SRVCC Prep FR #1 SRVCC
Inter RAT HO preparation FR #2 to 1xRTT with Inter RAT HO 1xRTT SRVCC Prep FR #2 SRVCC
Inter RAT HO preparation FR #3 to 1xRTT with Inter RAT HO 1xRTT SRVCC Prep FR #3 SRVCC
Inter RAT HO preparation FR #4 to 1xRTT with Inter RAT HO 1xRTT SRVCC Prep FR #4 SRVCC
Inter RAT HO attempts to 1xRTT with SRVCC
Inter RAT HO 1xRTT SRVCC Att
Percentage of SRVCC 1xRTT attempts followed with UE Context Release Request.
Inter RAT HO 1xRTT SRVCC FR
Average Number of CRAN receptions with 2Rx Avg num of CRAN recept - 2RX Antennas Antennas
Average Number of CRAN receptions with 4Rx Avg num of CRAN recept - 4RX Antennas Antennas
Average Number of CRAN receptions with 8Rx Avg num of CRAN recept - 8RX Antennas Antennas
E-UTRAN Load Balancing HO Success Ratio
LB HO Att to UTRAN
Load Balancing HO Success Ratio to UTRAN
LB HO SR to UTRAN
Active Load Balancing state to UTRAN time ratio
Active LB state to UTRAN time R
Successful SCell Swap to Successful SCell Configuration Ratio
SCell Config to Swapped SR
Average number of activated MBMS sessions in the cell
Avg activ MBMS sessions in the cell
MBMS user data volume on M1 interface
MBMS user data vol on M1 interface
MBMS user data volume on eUu interface
MBMS user data vol on eUu interface
Lost MBMS user data volume on M1 interface type #1
Lost MBMS user data vol on M1 interface type #1
Dropped MBMS user data volume on M1 interface type #1
Dropped MBMS user data vol on M1 interface type #1
Dropped MBMS user data volume on M1 interface type #2
Dropped MBMS user data vol on M1 interface type #2
A4 measurement activations for MBIMLB
A4 measurement activations for MBIMLB
A4 measurement activation Success Ratio for MBIMLB
A4 measurement activation SR for MBIMLB
E-UTRAN Average CQI for Code Word 0
AVG CQI for CW0
CSFB Parameter requests to 1xRTT
CSFB param req to 1xRTT
CSFB Parameter Response Ratio to 1xRTT
CSFB param resp R to 1xRTT
CSFB preparations to 1xRTT
CSFB prep to 1xRTT
CSFB Preparation Transfer SR to 1xRTT
CSFB prep transf SR to 1xRTT
CSFB preparation Failure Ratio to 1xRTT due to HO Failure
CSFB prep FR to 1xRTT due to HO fail
DL Spectral efficiency
DL Spectral efficiency
UL Spectral efficiency
UL Spectral efficiency
Percentage of UEs using CoMP in the cell
Perc UEs use CoMP
E-UTRAN Cell Availability Ratio
E-UTRAN Cell AvailR
E-UTRAN Planned Cell Unavailability Ratio
E-UTRAN Plan Cell UnavailR
E-UTRAN Unplanned Cell Unavailability Ratio
E-UTRAN Unplanned Cell UnavailR
E-UTRAN E-RAB Setup Failure Ratio per Cause : "Radio Network Layer Cause (RNL) Failure in the Radio Interface Procedure"
E-RAB stp FR RNL
E-UTRAN E-RAB Setup Failure Ratio per Cause "Miscellaneous Cause - Not enough User Plane Processing Resources"
E-RAB stp FR misc
E-UTRAN E-RAB Setup Failure Ratio per Cause "due to mobility procedures like Handover, Redirect, CS Fallback" cause
E-RAB stp FR mobil
E-UTRAN E-RAB Drop Ratio per Cause TNL unspecified
E-RAB DR TNL unspec eNB
E-UTRAN Average Active UE with specific UE Category 1
Avg act UE cat 1
E-UTRAN Average Active UE with specific UE Category 2
Avg act UE cat 2
E-UTRAN Average Active UE with specific UE Category 3
Avg act UE cat 3
E-UTRAN Average Active UE with specific UE Category 4
Avg act UE cat 4
E-UTRAN Average Active UEs with data in the buffer DL
Avg Act UEs DL
E-UTRAN Average Active UEs with data in the buffer UL
Avg Act UEs UL
E-UTRAN Maximum Active UEs with data in the buffer per cell DL
Max Act UEs per cell DL
E-UTRAN Maximum Active UEs with data in the buffer per cell UL
Max Act UEs per cell UL
E-UTRAN Average Active Connected UEs
Avg Act connected UEs
E-UTRAN Average Active UEs with data in the buffer for DRBs of QCI1 DL
E-UTRAN ave act UEs data in buffer for DRBs of QCI1 DL
E-UTRAN Average Active UEs with data in the buffer for non-GBR DRBs (QCI5..9) DL
E-UTRAN ave act UEs data in buffer for nonGBR DRBs DL
E-UTRAN Average Active UEs with data in the buffer for QCI1 DRBs UL
E-UTRAN ave act Ues data in buffer for QCI1 DRBs UL
E-UTRAN Average Active UEs with data in the buffer for non-GBR DRBs UL
E-UTRAN ave act Ues data in buffer for nonGBR DRBs UL
E-UTRAN RLC PDU Volume UL
E-UTRAN RLC PDU Vol UL
E-UTRAN E-RAB Drops per PDCP SDU volume, User Perspective
E-RAB Drops per PDCP SDU vol
E-UTRAN Ethernet incoming traffic throughput, Eth incoming traff thp, eth eth
E-UTRAN Ethernet incoming traffic throughput, Eth incoming traff thp, vlan vlan
E-UTRAN Ethernet outgoing traffic throughput
Eth out traffic thp
E-UTRAN Ethernet outgoing traffic throughput
Eth OUTG traffic Thp
E-UTRAN incoming IP Traffic Error Ratio
IP INC Traffic Err R
Description
Note
The KPI shows the setup success ratio for the data radio bearer setup procedure. The RRC connection reconfiguration elementary procedure is used in this context to set up a user-plane (data) radio The KPI shows the ratiobearer. of dropped radio bearers.
The KPI shows the setup success ratio for the "Initial Context Setup" elementary procedure, used to set up an initial UE context in MME (UE-associated logical S1-connection). The KPI shows the setup success ratio for the "S1 Setup" elementary procedure. When this procedure is finished, the S1 interface is operational and other S1 messages can be exchanged. The KPI indicates the setup success ratio of the elementary E-RAB setup procedure, used to set up the E-RAB between MME and UE. It shows the E-UTRAN's contribution to network theof end user, not the This KPIaccessibility indicates thefor ratio normally whole end-to-end service accessibility. released E-RABs from the user's perspective.
Only initial E-RAB setups are considered since the addition of E-RABs is not supported in this release.
1. Each bearer of the "Bearer to be Released List" IE is counted This KPI corresponds to a Connection 2. E-RAB releases due to "No Radio Completion Ratio. Resources Available" initiated by eNB are excluded as they real drops This KPI indicates the ratio of normally 1. Each bearer of are the not "Bearer to be resulted from any radio quality released E-RABs from the RAN's point of view. Released List" IE is counted problems. They are counted as normal 2. In both the numerator and releases. 3. In both the numerator andnormal Edenominator of the formula denominator of the formula normal E-intra RAB releases successful This KPI indicates the ratio of abnormally 1. Each bearerexcept of the the "Bearer to be RAB releases except the successful LTE and inter are counted. intra released (dropped) E-RABs from the RAN's Released List"RAT IE isHO counted. LTE and inter RAT HO are counted. 3. E-RAB releases due to S1that RESET point of view. 2. RAN point of view means as are 4. E-RAB releases due to S1 RESET are not counted at all. abnormal E-RAB not counted at all.drops only those ones This KPI indicates the paging request discard initiated by eNB are counted. 3. E-RAB releases due to "No Radio ratio on the RRC level. Resources Available" initiated by eNB are counted as normal releases as they are not real drops resulted from any radio This KPI indicates the success ratio for the quality problems. handover execution phase when the source 4. In the denominator of the formula eNB receives information that the UE is normal and abnormal E-RAB releases successfully connected to the target cell within except the successful intra LTE and inter its own eNB. RAT HO are counted. 5. E-RAB releases due to S1 RESET are not counted at all.
This KPI indicates the success ratio for the handover preparation phase when the source eNB attempts to prepare resources and finally starts to attempt the handover to a neighboring cell its own eNB. Thiswithin KPI indicates the ratio of failed intra-eNB handovers (triggered by THOoverall expiry) to all attempted intra-eNB handovers. This KPI represents the case of a failed handover when all UEKPI resources allocated to the This indicatesare thestill total intra-eNB HOUE. success ratio from an HO preparation start until a successful HO execution. This KPI indicates the success ratio for the inter-eNB X2-based handover execution phase when the source eNB receives information that the UE is successfully connected to This KPI indicates the success ratio for the the target cell within handover the target preparation eNB. inter-eNB X2-based phase when the source eNB attempts to prepare resources and finally starts to attempt the This KPI indicates the ratio of failed inter-eNB handover to a neighboring cell inbya target eNB. X2-based handovers (triggered TX2RELOCoverall expiry) to all attempted inter-eNB handovers. This KPI represents the case of adescribes failed handover when UE HO This KPI the total interalleNB resources are still allocated to the UE. Success Ratio from the HO preparation start until the successful HO execution. This KPI shows the eNB's (radio part) observed probability to set up an end-to-end connection. Under the end-to-end a connection to be provided with an initial E-RAB at request is meant. This KPI shows the average incoming signaling throughput on X2AP layer per eNB.
This KPI shows the average outgoing signaling throughput on X2AP layer per eNB.
This KPI shows the average incoming userplane data throughput on X2AP layer per eNB.
This KPI shows the average outgoing userplane data throughput on X2AP layer per eNB.
This KPI shows the total data volume for IPbased traffic in an outgoing direction. This KPI shows the total data volume for IPbased traffic in an incoming direction.
This KPI shows the total throughput for IPbased traffic in an outgoing direction. This KPI shows the total throughput for IPbased traffic in an incoming direction.
This KPI shows the error ratio for IP-based incoming traffic.
This KPI describes the success ratio for the inter eNB S1 based handover preparation phase, when the source eNB attempts to prepare resources and finally starts to attempt the to a neighboring in a target Thishandover KPI indicates the ratio of acell specific intereNB. eNB S1-based handover preparation failure cause to the total number of inter-eNB S1based HO preparations. The source eNB fails to prepare resources forratio the of handover to inter a This KPI describes the a specific neighboring cell in a target eNB. eNB S1based handover preparation failure cause related to total number of inter eNB S1 based HO preparations. The source eNB fails to prepare resources forratio the of handover to inter a This KPI describes the a specific neighboring cell in a target eNB. eNB S1based handover preparation failure cause related to total number of inter eNB S1 based HO preparations. The source eNB fails to prepare resources the handover a This KPI indicates thefor success ratio fortothe neighboring cell in a target eNB. inter-eNB S1-based handover execution phase when the source eNB receives information that the UE is successfully connected to the target cell the target eNB. Thiswithin KPI indicates the ratio of failed inter-eNB S1-based handovers (triggered by TS1RELOCoverall expiry) to all attempted inter-eNB handovers. This KPI represents the case of aindicates failed handover all UES1-based This KPI the totalwhen inter-eNB resources are still allocated to the UE. HO success ratio from an HO preparation start until a successful HO execution.
The throughput is calculated as ratio of the IP volume and measurement period (i.e. not only time intervals where there is outgoing IP data but all ones are considered). The throughput is calculated as ratio of the IP volume and measurement period (i.e. not only time intervals where there is incoming IP data but all ones are considered).
This KPI indicates the ratio of a specific failure cause to all EPS bearer setup attempts. Cause: radio network layer failure (RNL) This KPI indicates the ratio of a specific failure cause to all EPS bearer setup attempts. Cause: transport layer failure (TRPORT) This KPI indicates the ratio of a specific failure cause to all EPS bearer setup attempts. Cause: resource failure (RESOUR) This KPI indicates the ratio of a specific failure cause to all EPS bearer setup attempts. Cause: other failure (OTH) This KPI indicates the ratio of a specific E-RAB drop (abnormal release) cause to all E-RAB releases. Cause: E-RAB drop ratio due to radio network layer (RNL) due to loss of connection to theKPI UEindicates initiated by eNB. This thethe ratio of a specific E-RAB
1. Each bearer of the "Bearer to be Released List" IE is counted. 2. There is an overlapping in the abnormal E-RABs counted within the LTE_5090c andofLTE_5570d 1. Each bearer the "Bearerbut to from be network planning and optimization point drop (abnormal release) cause to all E-RAB Released List" IE is counted. of view it is mandatory to have also an releases. Cause: E-RAB drop ratio due to 2. There is an overlapping in the own indicator dealing with active E-RAB insufficient transport network layer (TNL) abnormal E-RABs counted within the drops with data in the buffer only. resources initiated by the eNB andof LTE_5570d but This KPI indicates the ratio of a specific E-RAB LTE_5090c 1. Eachformula bearer the "Bearer to from be to 3. The LTE_5571c is needed network planning and optimization point drop (abnormal release) cause to all E-RAB Released List" IE is counted. monitor the VoIP Call Drop Ratio. of view it is mandatory to have also an releases. Cause: E-RAB drop ratio due to other 2. There is an overlapping informula the 4. In indicator the denominator of the own dealing with active E-RAB (OTH) causes initiated by the eNB abnormal E-RABs counted within the normal and abnormal releases drops with data in the E-RAB buffer only. LTE_5090c and LTE_5570d but from except the successful intra LTE and inter This KPI indicates the ratio of a specific S1 3. The formula LTE_5571c is needed to network planning and optimization point RAT HO are counted. setup failure monitor the VoIP Call Drop Ratio. of view it isreleases mandatory have also anare 5. E-RAB dueofto tothe S1formula RESET cause to all S1 setup attempts. Cause: "no 4. In indicator the denominator own dealing with active E-RAB not counted at all. response" failure (NO_RESP) normal anddata abnormal E-RAB releases drops with in the buffer only. 6. E-RAB releases due to "No Radio except the successful intra LTE and inter This KPI indicates the ratio of a specific S1 3. The formula LTE_5571c is needed Resources Available" initiated by eNB to are RAT HO are counted. setup failure monitor the VoIP Call Drop Ratio. counted as normal releases as they are E-RAB releases dueoftothe S1formula RESET are cause to all S1 setup attempts. Cause: "MME" 5. 4. Inreal thedrops denominator not resulted from any radio not counted at all. failure (IND_BY_MME) normal and abnormal E-RAB releases quality problems. 6. E-RAB dueintra to "No thereleases successful LTERadio and inter This KPI describes the ratio of a specific intra except Resources Available" initiated by eNB are RAT HO are counted. eNB handover preparation failure cause counted normal due releases they are 5. E-RABasreleases to S1as RESET are related to total number of intra eNB HO not real drops resulted from any radio counted at all. preparations. The source eNB fails to prepare not quality problems. 6. E-RAB releases due to "No Radio resources for the handover to a neighboring This KPI describes the ratio of a specific intra Resources Available" initiated by eNB are cell the own eNB. failure cause eNBwithin handover preparation counted as normal releases as they are "admission control" failure (AC)eNB cause related to total number of intra HO not real drops resulted from any radio preparations. The source eNB fails to prepare quality problems. resources for the handover This KPI describes the ratioto ofaaneighboring specific inter cell within the own eNB. eNB X2 based handover preparation failure "other" failure (OTH) cause related to total cause number of inter eNB X2 based HO preparations. The source eNB fails to prepare resources for the handover to a neighboring cell in a target eNB. "timer" failure (TIME) cause
This KPI describes the ratio of a specific inter eNB X2 based handover preparation failure cause related to total number of inter eNB X2 based HO preparations. The source eNB fails to prepare resources forratio the of handover to inter a This KPI describes the a specific neighboring cell in a target eNB. eNB X2 based handover preparation failure "admission control" failure (AC) cause related to total number ofcause inter eNB X2 based HO preparations. The source eNB fails to prepare resources theofhandover to a This KPI indicates thefor ratio specific CS neighboring cell in a target eNB. fallback attempts to all CS fallback attempts "other" failure (OTHER) with redirection via RRC cause connection release.
The LTE_5109a and LTE_5110a contain also CS Fallback Attempts for emergency calls reason (as they can be requested percentage CS fallback attempts for a UE in a both for UE in connected and idle mode) connected mode. the ratio of specific CS however for emergency calls it is contain This KPI indicates The LTE_5109a and LTE_5110a mandatory to provide also separate fallback attempts to all CS fallback attempts also CS Fallback Attempts afor emergency KPI (LTE_5111a) to monitor their with redirection via RRC connection release. calls reason (as they can be requested the network. percentage CS fallback attempts for a UE in an penetration both for UE into in connected and idle mode) idle mode. however for emergency calls it is contain This KPI indicates the ratio of specific CS The LTE_5109a and LTE_5110a mandatory to provide also a separate fallback attempts to all CS fallback attempts also CS Fallback Attempts for emergency KPI to monitor with redirection via RRC connection release. calls(LTE_5111a) reason (as they can be their requested penetration into the network. percentage CS fallback attempts for an both for UE in connected and idle mode) emergency call reason. The KPI indicates the setup success ratio for the elementary initial E-RAB setup procedure. It indicates the E-UTRAN's contribution to network accessibility for the end user, not the whole end-to-end accessibility. The KPI indicates service the setup success ratio for the elementary additional E-RAB setup procedure. It indicates the E-UTRAN's contribution to network the endratio user, This KPIaccessibility indicates thefor success fornot thethe whole end-to-end service accessibility. inter-frequency HO when the source eNB receives information that the UE is successfully connected to the target cell within the target eNB. Theindicates KPI is defined independently This KPI the success ratio for of an network topology (intra-eNB HO/inter-eNB HO) inter-frequency HO when measurement gaps and of the usage of measurement gaps. are configured for the UE when the source eNB receives information that the UE is successfully connected the target within The KPI shows the datatoradio bearercell attempts. the target eNB. The KPI is defined independently of network topology (intra-eNB HO/inter-eNB HO). The KPI shows the radio bearer success ratio given as 100 - radio bearer drop ratio.
The KPI indicates the number of E-RAB setup attempts.
however for emergency calls it is mandatory to provide also a separate KPI (LTE_5111a) to monitor their penetration into the network.
This KPI indicates the ratio of abnormally released (dropped) E-RABs from the user's perspective.
1. Each bearer of the "Bearer to be Released List" IE is counted. 2. User perspective means that, as abnormal E-RAB releases, the releases The KPI shows the number of S1 initial context initiated by eNB and EPC are counted. 3. E-RAB releases due to "No Radio setup attempts. Resources Available" initiated by eNB are counted as normal releases as they are not real drops resulted from any radio The KPI shows the number of S1 setup quality problems. attempts. 4. In the denominator of the formula normal and abnormal E-RAB releases except the successful intra LTE and inter RAT HO are counted. This KPI shows the number of RRC paging 5. E-RAB releases due to S1 RESET are records. not counted at all. This KPI shows the total number of intra-eNB HO preparations.
This KPI shows the number of intra-eNB handover attempts.
This KPI shows the number of inter-eNB X2based HO attempts.
This KPI shows the number of inter eNB X2 based Ho preparations.
This KPI shows the number of inter eNb S1 based HO preparations.
This KPI shows the retention period (delay) of a PDCP SDU (DL) inside an eNB. Time from reception of an IP packet to transmission of a first packet over the Uu interface This KPI shows the retention period (delay) of a PDCP SDU (UL) inside an eNB. Time starting at the arrival of the PDCP SDU in the eNB and ending at the first transmission of a packet over S1 segment of the SDU reThecontaining KPI showsa the RRC connection establishment attempts on a per cause basis: HO failure.
The KPI shows the RRC connection reestablishment attempts on a per cause basis: other failures. The KPI shows the setup success ratio for the RRC connection re-establishment procedure. The procedure is used in case of a failure situation (such as a radio or handover failure) to keep UE in LTE RRC_CONNECTED The KPIthe shows theansetup rejection ratio for the state and continue the RRC connection without RRC connection re-establishment procedure. going to an RRC_IDLE state. This happens if a UE is not allowed to do an RRC connection re-establishment for example due a reconfiguration during The to KPI shows the setuperror failure ratioE-RAB for the Since RRC connection re-establishment release or setup. RRC connection re-establishment procedure. failures calculated in an indirect way This happens if a UE is allowed to do an RRC when from attempts successful and connection, but for some reason the procedure rejected RRC connection reis notKPI completed theofRRC connection establishments are removed the KPI can This indicates(that the is, ratio specific S1 re-establishment complete message is not partial reset messages initiated by the eNB to sometimes provide negative values received fromreset MS, messages, or RRC connection release all S1 partial which allows the especially for cells with failures close to complete is sent). zero. This is due to fact that attempts eNode B to perform a 'bulk release' of many counted in one while successful and UE-associated S1-signaling This KPI indicates the ratio ofconnections specific S1 rejected RRC connection reavailable on messages an S1 link with a one-message partial reset initiated by the MME to establsihments may be counted in the exchange between an eNB and MME. all S1 partial reset messages, which allows the next measurement period. eNode B to perform a 'bulk release' of many UE-associated S1-signaling This KPI indicates the ratio ofconnections UE contexts 1. The KPI is used to monitor Graceful available on an S1 linkPartial with a Resets one-message released due to S1AP to the Cell Shutdown feature which is used to exchange between eNB the andstart MME. total number of UEsan before of a empty the cell from UEs whenever the graceful cell shutdown. Different indicators distinguish betweenthe theratio active andcontexts RRCThis KPI indicates of UE connected UEs. released due to S1AP Partial Resets to the
cell of an eNodeB shall be deactivated e.g. to execute service tasks. The UEs 1. The KPI is used to monitor Graceful are motivated to leave the cell by Cell Shutdown feature which is used to stepwise thewhenever eNodeB cell total number of UEs before the start of a empty thereduction cell from of UEs the TX power. After the power reduction graceful cell shutdown. Different indicators cell of an eNodeB shall be deactivated procedure is completed the eNB distinguish between the active and RRCe.g. to execute service tasks. Thewill UEs This KPI shows the total number of HO execute a S1 Partial Reset. Then the connected UEs. are motivated to leave the cell by preparations for IMS emergency sessions. remaining UE connections (e.g. located stepwise reduction of the eNodeB cell TX in the center of the cell) will be released. power. After the power reduction 2. In case the graceful shutdown feature procedure is completed the eNB will in connection to S1 partial reset is This KPI indicates the success ratio for the execute a S1 Partial Reset. Then the working correctly the indicator handover preparation phase for IMS remaining UE connections (e.g.shall located provide the values close to It should emergency sessions when the source eNB in the center of the cell) will zero. be released. noted that the assumption here is that attempts to prepare resources and finally starts be 2. In case the graceful shutdown feature during the measurement period an to attempt the handover to a neighboring cell connection to S1 partial reset is This KPI indicates the number of HO attempts in additional Reset procedure beside within own or target eNB. working correctly the indicator shallthe for IMSitsemergency sessions. graceful cell shutdown won't be provide the values close to zero.initiated It should otherwise a proper counting isn't possible be noted that the assumption here is that anyway since a UE may be affected during the measurement period an by graceful shutdown and additional This KPI indicates the success ratio for the additionalcell Reset procedure beside the reset procedures. handover execution phase when the source graceful cell shutdown won't be initiated eNB receives information that the UE is otherwise a proper counting isn't possible successfully connected to the target cell within anyway since a UE may be affected by its own or the target eNB. graceful cell shutdown and additional reset procedures.
This KPI indicates the total HO for IMS emergency sessions success ratio from an HO preparation start until a successful HO execution. The KPI indicates the number of PDCCH order attempts. Different indicators distinguish between the total number of PDCCH orders with initial and transmitted retransmissions and only initialindicates orders. the number of PDCCH order The KPI attempts. Different indicators distinguish between the total number of PDCCH orders with initial and transmitted retransmissions and only initial orders. There are two indicators defined. The first one indicates the ratio of successful PDCCH orders to PDCCH order attempts, except for cases when a dedicated preamble could not be assigned of a lack of dedicated There arebecause two indicators defined. The first one preamble resources while at the PDCCH denominator indicates the ratio of successful orders of the second indicator, they are counted. Both to PDCCH order attempts, except for cases indicators provide a PDCCH order attempts when a dedicated preamble could not be success ratio from of a UE's of view; that is, assigned because lackpoint of of dedicated The KPI indicates theanumber events when transmitted retransmissions are counted. preamble resources while at not the not denominator a dedicated preamble could be assigned of the -> second indicator, are counted. Both (eNB UE) because ofthey insufficient dedicated indicators provide a PDCCH order attemts preamble resources in the cell. Different success ratio from a UE's pointthe of purposes view; thatof is, indicators distinguish The KPI indicates thebetween number ofnot events when transmitted retransmissions are counted. a a dedicated dedicated preamble. preamble could not be assigned
1. The PDCCH order is used to provide a RACH parameters to UEs which are in UL Out-of-Synchronization state. The intention is in the case to re-open downlink traffic for a UE. 1. The PDCCH order is used to provide a 2. The indicator LTE_5167a can be RACH parameters to UEs which areused in to monitor blocking on PDCCH, meaning UL Out-of-Synchronization state. The that if certain is re-open reached some intention is in threshold the case to preventive actions can directly be started downlink traffic for a UE. This KPI can be used to monitor to reduce this kind of blocking. 2. The indicator be used fruitfulness of theLTE_5167a resumptioncan of the to monitor blocking on PDCCH, meaning downlink traffic for a UE without and with that if certainthe threshold is reached considering unavailability of some preventive actions can directly be started dedicated preamble. This KPI can used to monitor to reduce thisbe kind of blocking. fruitfulness of the resumption of the downlink traffic for a UE without and with considering the unavailability of dedicated preamble. The indicators can be used to monitor a blocking due to lack of dedicated preambles on a purpose basis meaning that if certain threshold is reached some preventive actions directly started The indicators can can be used to be monitor a to reduce this kind of blocking. blocking due to lack of dedicated
(eNB -> UE) because of insufficient dedicated preamble resources in the cell. Different indicators distinguish theevents purposes of The KPI indicates thebetween number of when a dedicated preamble. a dedicated preamble could not be assigned
preambles on a purpose basis meaning that if certain threshold is reached some preventive actions directly started The indicators can can be used to be monitor a to reduce this kind of blocking. blocking due to lack of dedicated
(eNB -> UE) because of insufficient dedicated preamble resources in the cell. Different indicators distinguish thelate purposes of The KPI indicates thebetween number of HO a dedicated preamble. events. Where a late handover is a sequence
preambles on a purpose basis meaning that if certain threshold is reached some preventive actions can directly be started to reduce this kind of blocking.
of a missed HO attempt (instead of HO: RLF on a UE side and optionally recoverable RLF on eNB side) inthe onenumber cell followed by1an TheanKPI indicates of Type early RRC connection re-establishment request HO events, where an early handover Type in 1 is another cell.of a failed HO attempt, followed by a sequence an RRC connection re-establishment in the HO source The KPIcell. indicates the number of Type 2 early HO events, where an early handover Type 2 is either a sequence of a successful connection establishment in an HO target cell (attempted HO followed by anof RRC Thiscompleted), KPI indicates the number HO attempts connection reestablishment in another for the UEs running in a DRX mode. cell a short time after 'HO completion' or a sequence of a successful random access in HO target, followed by failed Msg3 reception (attempted HO not completed), followed by a reestablishment request in another cell.
This KPI indicates the success ratio for the handover execution phase when the source cell receives information that the UE running in a DRX mode is successfully connected to the target cell. This KPI indicates the number of NACC attempts from LTE to GSM.
This KPI shows the total number of inter-RAT HO preparations.
This KPI indicates the success ratio for the inter-RAT handover preparation phase when the source attempts to prepare resources and finally starts to attempt the handover to a neighboring cell. the ratio of a specific interThis KPI indicates RAT handover preparation failure cause to the total number of inter-RAT HO preparations. The source eNB fails to prepare resources for the to a neighboring withininterits Thishandover KPI indicates the ratio of acell specific own eNB. RAT handover preparation failure cause to the
1. The HOs to eHRPD are not counted in this KPI. 2. This KPI is updated in case of PS-HO to UTRAN, Inter System Handover to WCDMA/GERAN with SRVCC and in in 1. The HOs to eHRPD are not counted case of CSFB to UTRAN with PS-HO. this KPI. 2. This KPI is updated in case of PS-HO to UTRAN, Inter System Handover to WCDMA/GERAN with SRVCC and in in 1. The HOs to eHRPD are not counted case of CSFB to UTRAN with PS-HO. this KPI. 2. This KPI is updated in case of PS-HO to UTRAN, Inter System Handover to WCDMA/GERAN with SRVCC and in in 1. The HOs to eHRPD are not counted case of CSFB to UTRAN with PS-HO. this KPI.
total number of inter-RAT HO preparations. The source eNB fails to prepare resources for the to a neighboring withininterits Thishandover KPI indicates the ratio of acell specific own eNB. RAT handover preparation failure cause to the
2. This KPI is updated in case of PS-HO to UTRAN, Inter System Handover to WCDMA/GERAN with SRVCC and in in 1. The HOs to eHRPD are not counted case of CSFB to UTRAN with PS-HO. this KPI.
total number of inter-RAT HO preparations. The source eNB fails to prepare resources for the to a neighboring its Thishandover KPI indicates the successcell ratiowithin for the own eNB. inter-RAT handover execution phase when the
2. This KPI is updated in case of PS-HO to UTRAN, Inter System Handover to WCDMA/GERAN with SRVCC in This KPI is also triggered for theand CSFB case of CSFB to UTRAN with PS-HO. via PS-HO, but it is not triggered for the
source eNB receives information that the UE is HO with SRVCC to UTRAN. successfully connected to the target cell (WCDMA). This KPI shows the number of inter-RAT This KPI is also triggered for the CSFB handover attempts. via PS-HO, but it is not triggered for the HO with SRVCC to UTRAN. This KPI indicates the ratio of failed inter-RAT PS-HOs triggered by TS1RELOCoverall expiry to all attempted inter-RAT PS-HOs to WCDMA. This KPI represents the case of a failed handover when all the UE total resources are still This KPI indicates inter-RAT HO allocated to the UE. success ratio from an HO preparation start until a successful HO execution. This KPI shows the error ratio for IP-based incoming traffic.
This KPI is also triggered for the CSFB via PS-HO, but it is not triggered for the HO with SRVCC to UTRAN. 1. The HOs to eHRPD are not counted in this KPI. 2. This KPI is updated in case of PS-HO to UTRAN, Inter System Handover to WCDMA/GERAN with SRVCC and in case of CSFB to UTRAN with PS-HO.
This KPI indicates the number of additional ERAB setup attempts for IMS emergency sessions. This KPI indicates the setup success ratio of the elementary additional E-RAB setup procedure for IMS emergency sessions. It indicates the E-UTRAN's contribution to network the end not the The KPI accessibility indicates thefor number of user, additional Ewhole end-to-end service accessibility. RAB setup failures for IMS emergency sessions due to missing radio bearer resources. The KPI indicates the setup success ratio for the elementary E-RAB setup procedure, used to set up the E-RAB between MME and UE for QCI1 DRBs. It indicates the E-UTRAN's contribution to network accessibility for the end The KPI indicates the number of E-RAB setup user, not the whole end-to-end service attempts for QCI1. accessibility.
Due to importance of emergency calls it is mandatory to provide an own KPI (in addition to LTE_5113a) to monitor their connection setup and thus penetration into network. The the indicator can be used to monitor a blocking resources for IMS emergency sessions meaning that if certain threshold is reached some preventive actions can directly be started to reduce this kind of blocking.
This KPI indicates the number of E-RAB setup attempts for non-GBR.
This KPI shows the retransmission ratio for RLC PDUs in an uplink direction.
This KPI shows the retransmission ratio for RLC PDUs in a downlink direction.
This KPI indicates the ratio of normally released QCI1 E-RABs from the user's perspective. This KPI corresponds to a connection completion ratio. This KPI shows the RLC PDU volume per cell in a downlink direction.
This KPI shows the PDCP SDU volume on an eUu interface per cell in a downlink direction.
This KPI shows the PDCP SDU volume on an eUu interface per cell in an uplink direction.
1. Each QCI1 bearer of the "Bearer to be Released List" IE is counted. 2. 3. In both the numerator and denominator of the formula normal ERAB releases except the successful intra LTE and inter RAT HO are counted. 4. QCI1 E-RAB releases due to S1 RESET are not counted at all.
This KPI shows the maximum or average number of UEs having one SRB and at least one DRB during the measurement period per eNB. This KPI shows the retransmission ratio for MAC PDUs in a downlink direction related to DL SCH.
Since RL50 / 45TD, in case of activated Carrier Aggregation feature and using the observed cell as PCell, the indicator has shown the re-transmission ratio This KPI indicates the setup success ratio for irrespective of the physical cell used for the elementary E-RAB setup procedure, used data transmision (i.e. both (re) to set up the E-RAB between MME and UE for transmissions via PCell and SCell are counted in the PCell) . non-GBR services. It indicates the E-UTRAN This KPI shows the setup contribution success ratiotofor the network accessibility for the end-user, not the RRC connection establishment elementary whole end-to-end service accessibility. procedure, used to set up a radio connection from a UE to an eNB (involves SRB1 establishment). This KPI indicates the ratio of normal to all UE
The PRE_EMPT_UE_CONTEXT_NON_GBR counter provide the total number of released released UE context due to This KPI shows the setup success ratio for the "Radio resources not available" despite a pre-emption used in the counter name. RRC connection establishment elementary Those releases are counted as normal procedure, used to set up a radio connection ones as do not represent any radio from a UE to an eNB (involves SRB1 quality problem. establishment) calls. setup This KPI showsfor theemergency RRC connection attempts on a per cause basis: emergency calls. Transaction to ECM-IDLE State.
This KPI indicates the ratio of a specific RRC connection setup failure cause to all RRC connection requests: RRC timer expiry cause. This KPI indicates the ratio of a specific RRC connection setup failure cause to all RRC connection requests: RRC protocol error cause. This KPI shows the RRC connection setup attempts on a per cause basis. Cause: MO signalling. This KPI shows the RRC connection setup attempts on a per cause basis. Cause: due to MT access. This KPI shows the RRC connection setup attempts on a per cause basis. Cause: due to MO data.
This KPI indicates the ratio of a specific E-RAB drop (abnormal release) cause to all E-RAB releases; E-RAB drop ratio due to the radio network layer (RNL) cause initiated by EPC. This KPI indicates the ratio of a specific E-RAB drop (abnormal release) cause to all E-RAB releases; E-RAB drop ratio due to other (OTH) causes initiated by EPC. This KPI shows cell availability, excluding the blocked by user state (BLU). That gives the percentage of available time compared to the total time that should be available. This KPI shows the number of inter-eNB S1based HO attempts.
This KPI shows the average number of UEs having one SRB during the measurement period. This KPI indicates the success ratio for the inter-RAT handover execution phase when the source eNB receives information that the UE is successfully connected to the target cell. This KPI shows the number of inter-RAT handover attempts.
This KPI indicates the ratio of failed inter-RAT handovers (triggered by TS1RELOCoverall expiry) to all attempted inter-RAT handovers. This KPI represents the case of a failed handover when all the UE ratio resources still of This KPI indicates of theare number allocated to the UE. discarded to the total number of PDCP SDUs
1. Each bearer of the "Bearer to be Released List" IE is counted. 2. There is an overlapping in the abnormal E-RABs counted within the LTE_5090c andofLTE_5570d 1. Each bearer the "Bearerbut to from be network planning and optimization point Released List" IE is counted. of view it is mandatory to have also an 2. There is an overlapping in the own indicator dealing with active E-RAB abnormal E-RABs counted within the drops with data the buffer only. LTE_5090c and in LTE_5570d but from 3. The formula LTE_5571c is needed to network planning and optimization point monitor the VoIP Call Drop Ratio. of view it is mandatory to have also an 4. In indicator the denominator of the formula own dealing with active E-RAB normal and abnormal E-RAB releases drops with data in the buffer only. except the successful intra LTE and inter 3. The formula LTE_5571c is needed to RAT HO are counted. monitor the VoIP Call Drop Ratio. 5. releases dueoftothe S1formula RESET are 4. E-RAB In the denominator not counted at all. normal and abnormal E-RAB releases 6. E-RAB dueintra to "No except thereleases successful LTERadio and inter Resources Available" initiated by eNB are RAT HO are counted. counted normal due releases they are 5. E-RABasreleases to S1as RESET are not real drops resulted from any radio not counted at all. quality problems. 6. E-RAB releases due to "No Radio The HOs eHRPD are not counted ResourcestoAvailable" initiated by eNBinare this KPI. counted as normal releases as they are not real drops resulted from any radio quality problems. The HOs to eHRPD are not counted in this KPI.
This KPI indicates the ratio of the number of discarded to the total number of PDCP SDUs in DL per QCI1.
1) The measuremenst providing the number of discarded PDCP SDUs are implemented according to 3GPP 36.314 chapter 4.1.5.1. 2) Discarded PDCP SDU meansthe a 1) The measurements providing packet of which no part has been number of discarded PDCP SDUs are transmitted over the air. to 3GPP 36.314 implemented according
This KPI indicates the ratio of the number of discarded to the total number of PDCP SDUs in DL per QCI2.
chapter 4.1.5.1. 2) Discarded PDCP SDU meansthe a 1) The measuremenst providing packet of which no part has been number of discarded PDCP SDUs are transmitted over the air. to 3GPP 36.314 implemented according
This KPI indicates the ratio of the number of discarded to the total number of PDCP SDUs in DL per QCI3.
chapter 4.1.5.1. 2) Discarded PDCP SDU meansthe a 1) The measuremenst providing packet of which no part has been number of discarded PDCP SDUs are transmitted over the air. to 3GPP 36.314 implemented according
in DL.
chapter 4.1.5.1. 2) Discarded PDCP SDU means a packet no part of which has been transmitted over the air.
This KPI indicates the ratio of the number of discarded to the total number of PDCP SDUs in DL per QCI4. This KPI indicates the ratio of the number of discarded to the total number of PDCP SDUs in DL per non-GBR services. 1. This KPI shows the WRITE-REPLACE warning request procedure success ratio defined as the ratio of WRITE-REPLACE warning responses to all requests. 2. The cases when S1AP: The KPI shows the an number ofWRITEWRITEREPLACE WARNING RESPONSE message is REPLACE warning requests. sent to the MME and the Broadcast Completed Area List IE is not included are considered as unsuccessful ones. 1. The KPI shows the KILL-REQUEST procedure success ratio defined as the ratio of KILL-REQUEST to KILL-RESPONSE messages. 2. The cases when S1AP: The KPI shows the an number ofKILL WRITERESPONSE message is sent to the MME and REQUEST messages. the Broadcast Cancelled Area List IE is not included are considered as unsuccessful ones.
1) The measurements providing the number of discarded PDCP SDUs are implemented according to 3GPP 36.314 chapter 4.1.5.1. 2) Discarded PDCP SDU meansthe a 1) The measurements providing packet no part of which has been number of discarded PDCP SDUs are transmitted over the air. to 3GPP 36.314 implemented according chapter 4.1.5.1. 2) Discarded PDCP SDU means a packet no part of which has been transmitted over the air.
This KPI indicates the number of primary ETWS notifications sent via SIB10.
This KPI indicates the number of secondary ETWS notifications sent via SIB11.
This KPI indicates the number of CMAS notifications sent via SIB12.
This KPI shows the number of RRC pagings for ETWS or CMAS, that is, how many times the paging campaign for the broadcast of ETWS/CMAS warning messages is started. This KPI shows the average value of the physical resource block (PRB) utilization per TTI in an uplink direction. The utilization is defined by the ratio of used to available PRBs per ThisTTI. KPI shows the average value of the physical resource block (PRB) utilization per TTI in a downlink direction. The utilization is defined by the ratio of used to available PRBs per TTI.
The monitoring also includes almost blank subframes (ABSs) for the cells that are configured as macro ones in the eICIC partnership.
This KPI shows the average RLC layer throughput per cell in an uplink direction
This KPI shows the average RLC layer throughput per cell in a downlink direction.
The throughput is calculated as ratio of the RLC PDU data volume and measurement period (i.e. not only time intervals where there is received data but all are considered). Theones throughput is calculated as ratio of
the RLC PDU data volume and measurement period (i.e. not only time intervals where there is transmitted data ones are is considered). This KPI shows the active average PDCP layer but Theall throughput calculated as the ratio throughput per cell in an uplink direction. of PDCP SDU data volume to the sum of time units (TTIs) where there is received data. This KPI shows the active average PDCP layer The throughput is calculated as the ratio throughput per cell in a downlink direction. of PDCP SDU data volume to the sum of time units (TTIs) where there is received data. This KPI shows the average PDCP layer throughput per cell in a downlink direction for QCI1 DRBs.
The throughput is calculated as ratio of the PDCP SDU data volume and sum of time units where there is transmitted data.
This KPI shows the average PDCP layer throughput per cell in an uplink direction for QCI1 DRBs.
The throughput is calculated as ratio of the PDCP SDU data volume and sum of time units where there is received data.
This KPI indicates the number of UEs attempted to be redirected to a home eNB via RRC connection release.
This indicator is used to estimate a traffic movement to the network, created from home eNBs on a UE basis.
This KPI indicates the total number of attempts This indicator is used to provide a to retrieve the cell global identifier (CGI) of a reference value for the LTE_5302a and UTRAN neighbor cell from the UE. LTE_5303a. This KPI indicates the ratio of successful attempts to all attempts to retrieve the cell global identifier (CGI) of a UTRAN neighbor cell from the UE.
This indicator is used to monitor the correctness of the ANR to UTRAN behavioural.
This KPI describes the ratio of failures and attempts to retrieve the Cell Global identifier (CGI) of a UTRAN neighbor cell from UE. This KPI indicates the ratio of lost PDCP SDUs 1) The lost and transmitted PDCP SDU to transmitted ones in the DL. both in DL and UL directions are counted according to 3GPP 36.314 chapter 4.1.5.2 and 4.1.5.3 respectively. of this indicator is SDU to This KPI indicates the ratio of lost PDCP SDUs 2) 1) The The objective lost and transmitted PDCP measure packets that are lost at Uu to transmitted ones in the DL per QCI1 both in DL and UL directions are counted transmission. services. according to 3GPP 36.314 chapter 4.1.5.2 and 4.1.5.3 respectively. 2) The objective of this indicator is to measure packets that are lost at Uu transmission.
This KPI indicates the ratio of lost PDCP SDUs 1) The lost and transmitted PDCP SDU to transmitted ones in the DL per QCI2 both in DL and UL directions are counted services. according to 3GPP 36.314 chapter 4.1.5.2 and 4.1.5.3 respectively. of this indicator is SDU to This KPI indicates the ratio of lost PDCP SDUs 2) 1) The The objective lost and transmitted PDCP measure packets that are lost at Uu to transmitted ones in the DL per QCI3 both in DL and UL directions are counted transmission. services. according to 3GPP 36.314 chapter 4.1.5.2 and 4.1.5.3 respectively. of this indicator is SDU to This KPI indicates the ratio of lost PDCP SDUs 2) 1) The The objective lost and transmitted PDCP measure packets that are lost at Uu to transmitted ones in the DL per QCI4 both in DL and UL directions are counted transmission. services. according to 3GPP 36.314 chapter 4.1.5.2 and 4.1.5.3 respectively. of this indicator is SDU to This KPI indicates the ratio of lost PDCP SDUs 2) 1) The The objective lost and transmitted PDCP measure packets that are lost at Uu to transmitted ones in the UL. both in DL and UL directions are counted transmission. according to 3GPP 36.314 chapter 4.1.5.2 and 4.1.5.3 respectively. of this indicator is SDU to This KPI indicates the ratio of lost PDCP SDUs 2) 1) The The objective lost and transmitted PDCP measure packets that are lost at Uu to transmitted ones in the UL per QCI1 both in DL and UL directions are counted transmission. services. according to 3GPP 36.314 chapter 4.1.5.2 and 4.1.5.3 respectively. of this indicator is SDU to This KPI indicates the ratio of lost PDCP SDUs 2) 1) The The objective lost and transmitted PDCP measure packets that are lost at Uu to transmitted ones in the UL per QCI2 both in DL and UL directions are counted transmission. services. according to 3GPP 36.314 chapter 4.1.5.2 and 4.1.5.3 respectively. of this indicator is SDU to This KPI indicates the ratio of lost PDCP SDUs 2) 1) The The objective lost and transmitted PDCP measure packets that are lost at Uu to transmitted ones in the UL per QCI3 both in DL and UL directions are counted transmission. services. according to 3GPP 36.314 chapter 4.1.5.2 and 4.1.5.3 respectively. of this indicator is SDU to This KPI indicates the ratio of lost PDCP SDUs 2) 1) The The objective lost and transmitted PDCP measure packets that are lost at Uu to transmitted ones in the UL per QCI4 both in DL and UL directions are counted transmission. services. according to 3GPP 36.314 chapter This KPI indicates the number of load balancing handover attempts.
4.1.5.2 and 4.1.5.3, respectively. 2) The objective of be thisused indicator is toa This indicator may to select measure packets that are lost at Uu high loaded cell and provide a reference transmission. value for the LTE_5317a.
This KPI indicates the ratio of successful load balancing handovers to all attempts.
This KPI shows the average number of DL carrier aggregated (CA) capable UEs for 2 CCs. This KPI shows the average number of UEs with one SCell configured.
1. The UE is CA capable for 2 CCs or not is meant if its UE-EUTRA-Capability (3GPP 36.331) indicates on: - the support at least one E-UTRA CA Band, The indicator can be compared to the -LTE_5318b accessStratumRelease thanUEs or and will showgreater how many equal rel10. are being configured with an SCell (as 2. indicator together the some theThe CA-capable UE needswith to meet LTE_5321c is used to help to operator additional criteria to be configured with on the decision to enable / disable the CA an SCell) . feature for 2 CCs.
This KPI shows the average number of UEs with an activated SCell.
This indicator can be compared to the LTE_5319b and will show how many of UEs are activated and run in fact the CA for 2CCs.This indicator provides the avergae number of CA with UEs the with one This KPI shows the ratio of the average The indicator, together activated SCell regardless the of number of CA-capable UEs for 2 CCs to the LTE_5318b, is used to help thenumber operator configured SCells for the UE, i.e. also average number of UEs in an decide whether to enable/disable the CA triggered case the UE has two SCells RRC_CONNECTED state. feature forin2CCs. configured but only one SCell activated. This KPI indicates the ratio of successful to The indicator is used to monitor the attempted SCell configurations. correctness of the configuration of the carrier aggregation (CA) feature when a UE that is configured for carrier connects tofor Primary This KPI shows the RLC PDU volume per cell aggregation A UE that is configured carrierServing Cell (known as the "PCell") and one or (a cell with a PCell role) in a downlink direction, aggregation connects to a Primary more Secondary Serving Cells (known which is transmitted via SCell. Serving Cell (known as the PCell) and as "Scell"). one or more Secondary Serving Cells This KPI shows the average number of UEs configured for the TTI bundling mode.
This KPI indicates the IP scheduled end-user throughput in DL for QCI1 services.
This KPI indicates the IP scheduled end-user throughput in DL for QCI2 services.
(known as Scells). for TTI Bundling A UE configuration Mode with activated an internal ttiBundling flag starts with a successful incoming inter cell handover and ends with a UE Context release. In case 1. The measurements providing theofIP cussessful intra cell handover it triggers scheduled end user throughput are the start and end time only if an internal implemented according to 3GPP 36.314 ttiBundlingStatusChange flag indicates chapter 4.1.6. the change from inactive to active and 1. The measurements providing the IP vice versa, respectively. scheduled end user throughput are implemented according to 3GPP 36.314 chapter 4.1.6.
This KPI indicates the IP scheduled end-user throughput in DL for QCI3 services.
1. The measurements providing the IP scheduled end user throughput are implemented according to 3GPP 36.314 chapter 4.1.6.
This KPI indicates the IP scheduled end-user throughput in DL for QCI4 services.
1. The measurements providing the IP scheduled end user throughput are implemented according to 3GPP 36.314 chapter 4.1.6.
This KPI indicates the IP scheduled end-user throughput in DL for QCI5 services.
1. The measurements providing the IP scheduled end-user throughput are implemented according to 3GPP 36.314 chapter 4.1.6.
This KPI indicates the IP scheduled end-user throughput in DL for QCI6 services.
1. The measurements providing the IP scheduled end user throughput are implemented according to 3GPP 36.314 chapter 4.1.6.
This KPI indicates the IP scheduled end-user throughput in DL for QCI7 services.
1. The measurements providing the IP scheduled end user throughput are implemented according to 3GPP 36.314 chapter 4.1.6.
This KPI indicates the IP scheduled end-user throughput in DL for QCI8 services.
1. The measurements providing the IP scheduled end user throughput are implemented according to 3GPP 36.314 chapter 4.1.6.
This KPI indicates the IP scheduled end-user throughput in DL for QCI9 services.
1. The measurements providing the IP scheduled end user throughput are implemented according to 3GPP 36.314 chapter 4.1.6.
This KPI indicates the IP scheduled end-user throughput in UL for QCI1 services.
1. The measurements providing the IP scheduled end user throughput are implemented according to 3GPP 36.314 chapter 4.1.6.
This KPI indicates the IP scheduled end-user throughput in UL for QCI2 services.
1. The measurements providing the IP scheduled end user throughput are implemented according to 3GPP 36.314 chapter 4.1.6.
This KPI indicates the IP scheduled end-user throughput in UL for QCI3 services.
1. The measurements providing the IP scheduled end user throughput are implemented according to 3GPP 36.314 chapter 4.1.6.
This KPI indicates the IP scheduled end-user throughput in UL for QCI4 services.
1. The measurements providing the IP scheduled end user throughput are implemented according to 3GPP 36.314 chapter 4.1.6.
This KPI indicates the IP scheduled end-user throughput in UL for QCI5 services.
1. The measurements providing the IP scheduled end user throughput are implemented according to 3GPP 36.314 chapter 4.1.6.
This KPI indicates the IP scheduled end-user throughput in UL for QCI6 services.
1. The measurements providing the IP scheduled end user throughput are implemented according to 3GPP 36.314 chapter 4.1.6.
This KPI indicates the IP scheduled end-user throughput in UL for QCI7 services.
1. The measurements providing the IP scheduled end user throughput are implemented according to 3GPP 36.314 chapter 4.1.6.
This KPI indicates the IP scheduled end-user throughput in UL for QCI8 services.
1. The measurements providing the IP scheduled end user throughput are implemented according to 3GPP 36.314 chapter 4.1.6.
This KPI indicates the IP scheduled end-user throughput in UL for QCI9 services.
1. The measurements providing the IP scheduled end user throughput are implemented according to 3GPP 36.314 chapter 4.1.6.
This KPI shows the average Received Signal Strength Indicator (RSSI) value measured in the eNB for a physical UL control channel (PUCCH) per cell and normalized per the number of PRBs applicable to PUCCH.
When using the formula, linear scale has to be used with calculations. This means that the dBm values in the counters must be converted to Watts and after the calculation is done, the result must be converted back to dBms. Aggregation of dBm values: P[dBm]=10*lg(P1/1mW) P1= 10^(P[dBm]/10)*1mW
This KPI shows the average Received Signal Strength Indicator (RSSI) value measured in the eNB for a physical UL shared channel (PUSCH) per cell and normalized per bandwidth (that is, total number of PRBs). This KPI shows theasignal-to-interference-andnoise ratio (SINR) measured in the eNB for a physical UL control channel (PUCCH) per cell. This KPI shows the signal-to-interference-andnoise ratio (SINR) measured in the eNB for a physical UL shared channel (PUSCH) per cell. The KPI shows the RRC connection setup attempts on a per cause basis; RRC connection setup attempts due to delaytolerant access. The KPI shows the RRC connection setup attempts on a per cause basis; RRC connection setup attempts due to high priority calls. The KPI shows the setup success ratio for the RRC connection establishment elementary procedure, used to set up a radio connection from a UE to an eNB (involves SRB1 establishment) signaling. The KPI shows for themobile-originating setup success ratio for the RRC connection establishment elementary procedure, used to set up a radio connection from a UE to an eNB (involves SRB1 establishment) calls. The KPI shows for themobile-originating setup success ratio for the RRC connection establishment elementary procedure, used to set up a radio connection from a UE to an eNB (involves SRB1 establishment) mobile-terminating access. The KPI shows for theasetup success ratio for the RRC connection establishment elementary procedure, used to set up a radio connection from a UE to an eNB (involves SRB1 establishment) delay-tolerant access. The KPI shows for theasetup success ratio for the RRC connection establishment elementary procedure, used to set up a radio connection from a UE to an eNB (involves SRB1 establishment) calls.setup The KPI shows for the high RRCpriority connection rejection ratio from an eNB for mobileoriginating signaling. The KPI shows the RRC connection setup rejection ratio from an eNB for mobileoriginating calls.
When using the formula, linear scale has to be used with calculations. This means that the dBm values in the counters must be converted to Watts and after the calculation is done, the result must be converted back to dBms. Aggregation of dBm values: P[dBm]=10*lg(P1/1mW) P1= 10^(P[dBm]/10)*1mW
The KPI shows the RRC connection setup rejection ratio for a mobile-terminating access.
The KPI shows the RRC connection setup rejection ratio for a delay-tolerant access.
The KPI shows the RRC connection setup rejection ratio for high priority calls.
The KPI shows the RRC connection setup rejection ratio for emergency calls.
The KPI indicates the setup success ratio of the elementary E-RAB setup procedure, used to set up the E-RAB between MME and UE for high priority calls. The KPI shows the average number of simultaneous QCI1 E-RABs.
The KPI shows the average number of simultaneous QCI2 E-RABs.
The KPI shows the average number of simultaneous QCI3 E-RABs.
The KPI shows the average number of simultaneous QCI4 E-RABs.
The KPI shows the average number of simultaneous QCI5 E-RABs.
The KPI shows the average number of simultaneous QCI6 E-RABs.
The KPI shows the average number of simultaneous QCI7 E-RABs.
The KPI shows the average number of simultaneous QCI8 E-RABs.
The KPI shows the average number of simultaneous QCI9 E-RABs.
This KPI shows the average number of UEs utilizing UL intra-eNB CoMP.
The average calculation is done per UL active cell time not per the whole measurement period.
This KPI indicates the total number of attempts This indicator is used to provide a to retrieve the cell global identifier (CGI) of a reference value for the LTE_5405a.The neighbor cell from the UE. CGI retrieval is applicable to intrafrequency and inter-frequency. This KPI indicates the ratio of successful attempts to all attempts to retrieve the cell global identifier (CGI) of a neighbor cell from the UE.
This indicator is used to monitor the correctness of the ANR to E-UTRAN behavior. The CGI retrieval is applicable to intra-frequency and inter-frequency.
The KPI shows the setup success ratio for the X2 Setup elementary procedure.
The KPI shows the number of X2 Setup attempts.
The KPI shows the X2 IP address retrieval success ratio.
This KPI indicates the number of E-UTRAN X2 IP adress retrieval attempts.
This KPI shows the cell resource group 1 utilization ratio in DL defined as the ratio of TTIs used by the cell resource group 1 to the total number of TTIs available in DL. This KPI shows the cell resource group 2 utilization ratio in DL defined as the ratio of TTIs used by the cell resource group 2 to the total number of TTIs available in DL.
Up to four resource groups can be configured per cell with UEs' selection according to PLMN ids. One of the resource groups is default one covering un-assigned PLMN ids. Onecan group Up to four resource groups be my cover multiple PLMN ids but one PLMN configured per cell with UEs' selection ids cannot be assigned to multiple according to PLMN ids. One of the resource resource groups. groups is default one covering
This KPI shows the cell resource group 3 utilization ratio in DL defined as the ratio of TTIs used by the cell resource group 3 to the total number of TTIs available in DL.
un-assigned PLMN ids. Onecan group Up to four resource groups be my cover multiple PLMN ids but one PLMN configured per cell with UEs' selection ids cannot be assigned to multiple according to PLMN ids. One of the resource resource groups. groups is default one covering un-assigned PLMN ids. One group my cover multiple PLMN ids but one PLMN ids cannot be assigned to multiple resource groups.
This KPI shows the cell resource group 4 utilization ratio in DL defined as the ratio of TTIs used by the cell resource group 4 to the total number of TTIs available in DL. This KPI shows the cell resource group 1 utilization ratio in UL defined as the ratio of TTIs used by the cell resource group 1 to the total number of TTIs available in UL.
Up to four resource groups can be configured per cell with UEs' selection according to PLMN ids. One of the resource groups is default one covering un-assigned PLMN ids. Onecan group Up to four resource groups be my cover multiple PLMN ids but one PLMN configured per cell with UEs' selection ids cannot be assigned to multiple according to PLMN ids. One of the resource resource groups. groups is defualt one covering
This KPI shows the cell resource group 2 utilization ratio in UL defined as the ratio of TTIs used by the cell resource group 2 to the total number of TTIs available in UL.
un-assigned PLMN ids. Onecan group Up to four resource groups be my cover multiple PLMN ids but one PLMN configured per cell with UEs' selection ids cannot be assigned to multiple according to PLMN ids. One of the resource resource groups. groups is defualt one covering
This KPI shows the cell resource group 3 utilization ratio in UL defined as the ratio of TTIs used by the cell resource group 3 to the total number of TTIs available in UL.
un-assigned PLMN ids. Onecan group Up to four resource groups be my cover multiple PLMN ids but one PLMN configured per cell with UEs' selection ids cannot be assigned to multiple according to PLMN ids. One of the resource resource groups. groups is defualt one covering
This KPI shows the cell resource group 4 utilization ratio in UL defined as the ratio of TTIs used by the cell resource group 4 to the total number of TTIs available in UL.
un-assigned PLMN ids. Onecan group Up to four resource groups be my cover multiple PLMN ids but one PLMN configured per cell with UEs' selection ids cannot be assigned to multiple according to PLMN ids. One of the resource resource groups. groups is defualt one covering
This KPI shows the average UE-reported channel quality indicator (CQI) value.
un-assigned PLMN ids. One group my cover multiple PLMN ids but one PLMN ids cannot be assigned to multiple resource groups.
This KPI shows the average eNB used offset (correction) value for channel quality indicators (CQIs). This KPI shows the average received signal This KPI provides average RSSI for strength indicator (RSSI) value for a physical PUCCH per UE and used PRBs. UL control channel (PUCCH), measured in the eNB. This KPI shows the average received signal This KPI provides average RSSI for strength indicator (RSSI) value for a physical PUSCH per UE and used PRBs. UL shared channel (PUSCH), measured in the eNB. This KPI indicates the ratio of lost PDCP SDUs 1) The lost and transmitted PDCP SDU to transmitted ones in the DL per QCI5 both in DL and UL directions are counted services. according to 3GPP 36.314 chapter 4.1.5.2 and 4.1.5.3 respectively. of this indicator is SDU to This KPI indicates the ratio of lost PDCP SDUs 2) 1) The The objective lost and transmitted PDCP measure packets that are lost at Uu to transmitted ones in the DL per QCI6 both in DL and UL directions are counted transmission. services. according to 3GPP 36.314 chapter 4.1.5.2 and 4.1.5.3 respectively. of this indicator is SDU to This KPI indicates the ratio of lost PDCP SDUs 2) 1) The The objective lost and transmitted PDCP measure packets that are lost at Uu to transmitted ones in the DL per QCI7 both in DL and UL directions are counted transmission. services. according to 3GPP 36.314 chapter 4.1.5.2 and 4.1.5.3 respectively. 2) The objective of this indicator is to measure packets that are lost at Uu transmission.
This KPI indicates the ratio of lost PDCP SDUs 1) The lost and transmitted PDCP SDU to transmitted ones in the DL per QCI8 both in DL and UL directions are counted services. according to 3GPP 36.314 chapter 4.1.5.2 and 4.1.5.3 respectively. of this indicator is SDU to This KPI indicates the ratio of lost PDCP SDUs 2) 1) The The objective lost and transmitted PDCP measure packets that are lost at Uu to transmitted ones in the DL per QCI9 both in DL and UL directions are counted transmission. services. according to 3GPP 36.314 chapter 4.1.5.2 and 4.1.5.3 respectively. of this indicator is SDU to This KPI indicates the ratio of lost PDCP SDUs 2) 1) The The objective lost and transmitted PDCP measure packets that are lost at Uu to transmitted ones in the UL per QCI5 both in DL and UL directions are counted transmission. services. according to 3GPP 36.314 chapter 4.1.5.2 and 4.1.5.3 respectively. of this indicator is SDU to This KPI indicates the ratio of lost PDCP SDUs 2) 1) The The objective lost and transmitted PDCP measure packets that are lost at Uu to transmitted ones in the UL per QCI6 both in DL and UL directions are counted transmission. services. according to 3GPP 36.314 chapter 4.1.5.2 and 4.1.5.3 respectively. of this indicator is SDU to This KPI indicates the ratio of lost PDCP SDUs 2) 1) The The objective lost and transmitted PDCP measure packets that are lost at Uu to transmitted ones in the UL per QCI7 both in DL and UL directions are counted transmission. services. according to 3GPP 36.314 chapter 4.1.5.2 and 4.1.5.3 respectively. of this indicator is SDU to This KPI indicates the ratio of lost PDCP SDUs 2) 1) The The objective lost and transmitted PDCP measure packets that are lost at Uu to transmitted ones in the UL per QCI8 both in DL and UL directions are counted transmission. services. according to 3GPP 36.314 chapter 4.1.5.2 and 4.1.5.3 respectively. of this indicator is SDU to This KPI indicates the ratio of lost PDCP SDUs 2) 1) The The objective lost and transmitted PDCP measure packets that are lost at Uu to transmitted ones in the UL per QCI9 both in DL and UL directions are counted transmission. services. according to 3GPP 36.314 chapter This KPI shows the total number of inter-RAT HO preparations to eHRPD.
4.1.5.2 and 4.1.5.3 respectively. 2) The objective of this indicator is results to Although the counter provides the measure packets that are lost at Uu per eHRPD bandclass, the KPI provides transmission. a total number of preparations, i.e. sum of all configured eHRPD bandclasses.
This KPI indicates the success ratio for the inter-RAT handover preparation phase to eHRPD.
The KPI provides a total ratio aggregated over all configured eHRPD bandclasses.
This KPI indicates the ratio of a specific interRAT handover preparation to eHRPD failure cause to the total number of inter-RAT HO preparations to eHRPD; Cause: expiration of guarding timer: TUlHoPrepTransferHrpd This KPI indicates the ratio of a specific inter-
The KPI provides a total ratio aggregated over all configured eHRPD bandclasses.
RAT handover preparation to eHRPD failure cause to the total number of inter-RAT HO preparations to eHRPD; Cause: expiration of guarding timer: TC2KRelocPrepHrpd This KPI indicates the ratio of a specific interRAT handover preparation to eHRPD failure cause to the total number of inter-RAT HO preparations to eHRPD; Cause: received HO failure indication
The KPI provides a total ratio aggregated over all configured eHRPD bandclasses.
The KPI provides a total ratio aggregated over all configured eHRPD bandclasses.
This KPI indicates the success ratio for the The KPI provides a total ratio aggregated inter-RAT handover to eHRPD execution phase over all configured eHRPD bandclasses. when the source eNB receives information that the UE is successfully connected to the target eHRPD This KPIbandclass. shows the number of inter-RAT The KPI provides a total ratio aggregated handover attempts to eHRPD. over all configured eHRPD bandclasses.
This KPI indicates the ratio of failed inter-RAT handovers to eHRPD caused by an expiration of guarding timer TC2KRelocOverallHRPD to all attempted inter-RAT handovers to eHRPD. This thetotal case of a failed This KPI KPI represents indicates the inter-RAT HO handover when all UE resources are still success to eHRPD ratio from an HO allocated to start the UE. preparation until a successful HO
The KPI provides a total ratio aggregated over all configured eHRPD bandclasses.
The KPI provides a total ratio aggregated over all configured eHRPD bandclasses.
execution. This KPI indicates the average PDCP SDU delay in DL for QCI1 services.
This KPI indicates the average PDCP SDU delay in DL for QCI2 services.
This KPI indicates the average PDCP SDU delay in DL for QCI3 services.
This KPI indicates the average PDCP SDU delay in DL for QCI4 services.
This KPI indicates the average PDCP SDU delay in DL for QCI5 services.
This KPI indicates the average PDCP SDU delay in DL for QCI6 services.
This KPI indicates the average PDCP SDU delay in DL for QCI7 services.
This KPI indicates the average PDCP SDU delay in DL for QCI8 services.
The measurements provide the average PDCP SDU delay in DL per QCI, given as an average retention delay within the eNB plus average HARQ loop according to 3GPP 36.314 chapter 4.1.4.1. The measurements provide the average PDCP SDU delay in DL per QCI, given as an average retention delay within the eNB plus average HARQ loop according to 3GPP 36.314 chapter 4.1.4.1. The measurements provide the average PDCP SDU delay in DL per QCI, given as an average retention delay within the eNB plus average HARQ loop according to 3GPP 36.314 chapter 4.1.4.1. The measurements provide the average PDCP SDU delay in DL per QCI, given as an average retention delay within the eNB plus average HARQ loop according to 3GPP 36.314 chapter 4.1.4.1. The measurements provide the average PDCP SDU delay in DL per QCI, given as an average retention delay within the eNB plus average HARQ loop according to 3GPP 36.314 chapter 4.1.4.1. The measurements provide the average PDCP SDU delay in DL per QCI, given as an average retention delay within the eNB plus average HARQ loop according to 3GPP 36.314 chapter 4.1.4.1. The measurements provide the average PDCP SDU delay in DL per QCI, given as an average retention delay within the eNB plus average HARQ loop according to 3GPP 36.314 chapter 4.1.4.1. The measurements provide the average PDCP SDU delay in DL per QCI, given as an average retention delay within the eNB plus average HARQ loop according to 3GPP 36.314 chapter 4.1.4.1.
This KPI indicates the average PDCP SDU delay in DL for QCI9 services.
This KPI shows the average number of UEs with unlimited power supply resources.
The measurements provide the average PDCP SDU delay in DL per QCI, given as an average retention delay within the eNB plus average HARQ loop according to 3GPP 36.314 chapter 4.1.4.1.
This KPI shows the ratio of UEs with unlimited power supply resources to the total number of UEs in an RRC connected state. This KPI shows the average number of active UEs with scheduled data in downlink.
This KPI shows the average number of active UEs with scheduled data in uplink.
This KPI indicates the IP end-user throughput in DL for QCI1 services.
This KPI indicates the IP end-user throughput in DL for QCI2 services.
In comparison with IP scheduled end user throughput are implemented according to 3GPP 36.314 chapter 4.1.6 in the denominator also the TTIs having data in the buffer butscheduled the UE was not In comparison to IP end user scheduled are excluded. throughput are implemented according to
This KPI indicates the IP end-user throughput in DL for QCI3 services.
3GPP 36.314 chapter 4.1.6 in the denominator also the TTIs having data in the buffer but the UEscheduled was not scheduled In comparison to IP end user are excluded. throughput are implemented according to
This KPI indicates the IP end-user throughput in DL for QCI4 services.
3GPP 36.314 chapter 4.1.6 in the denominator also the TTIs having data in the buffer but the UEscheduled was not scheduled In comparison to IP end user are excluded. throughput are implemented according to
This KPI indicates the IP end-user throughput in DL for QCI5 services.
3GPP 36.314 chapter 4.1.6 in the denominator also the TTIs having data in the buffer but the UEscheduled was not scheduled In comparison to IP end user are excluded. throughput are implemented according to
This KPI indicates the IP end-user throughput in DL for QCI6 services.
3GPP 36.314 chapter 4.1.6 in the denominator also the TTIs having data in the buffer but the UEscheduled was not scheduled In comparison to IP end user are excluded. throughput are implemented according to
This KPI indicates the IP end-user throughput in DL for QCI7 services.
3GPP 36.314 chapter 4.1.6 in the denominator also the TTIs having data in the buffer but the UEscheduled was not scheduled In comparison to IP end user are excluded. throughput are implemented according to 3GPP 36.314 chapter 4.1.6 in the denominator also the TTIs having data in the buffer but the UE was not scheduled are excluded.
This KPI indicates the IP end-user throughput in DL for QCI8 services.
This KPI indicates the IP end-user throughput in DL for QCI9 services.
In comparison to IP scheduled end user throughput are implemented according to 3GPP 36.314 chapter 4.1.6 in the denominator also the TTIs having data in the buffer but the UEscheduled was not scheduled In comparison to IP end user are excluded. throughput are implemented according to
This KPI indicates the IP end-user throughput in UL for QCI1 services.
3GPP 36.314 chapter 4.1.6 in the denominator also the TTIs having data in the buffer but the UEscheduled was not scheduled In comparison to IP end user are excluded. throughput are implemented according to
This KPI indicates the IP end-user throughput in UL for QCI2 services.
3GPP 36.314 chapter 4.1.6 in the denominator also the TTIs having data in the buffer but the UEscheduled was not scheduled In comparison to IP end user are excluded. throughput are implemented according to
This KPI indicates the IP end-user throughput in UL for QCI3 services.
3GPP 36.314 chapter 4.1.6 in the denominator also the TTIs having data in the buffer but the UEscheduled was not scheduled In comparison to IP end user are excluded. throughput are implemented according to
This KPI indicates the IP end-user throughput in UL for QCI4 services.
3GPP 36.314 chapter 4.1.6 in the denominator also the TTIs having data in the buffer but the UEscheduled was not scheduled In comparison to IP end user are excluded. throughput are implemented according to
This KPI indicates the IP end-user throughput in UL for QCI5 services.
3GPP 36.314 chapter 4.1.6 in the denominator also the TTIs having data in the buffer but the UEscheduled was not scheduled In comparison to IP end user are excluded. throughput are implemented according to
This KPI indicates the IP end-user throughput in UL for QCI6 services.
3GPP 36.314 chapter 4.1.6 in the denominator also the TTIs having data in the buffer but the UEscheduled was not scheduled In comparison to IP end user are excluded. throughput are implemented according to
This KPI indicates the IP end-user throughput in UL for QCI7 services.
3GPP 36.314 chapter 4.1.6 in the denominator also the TTIs having data in the buffer but the UEscheduled was not scheduled In comparison to IP end user are excluded. throughput are implemented according to
This KPI indicates the IP end-user throughput in UL for QCI8 services.
3GPP 36.314 chapter 4.1.6 in the denominator also the TTIs having data in the buffer but the UEscheduled was not scheduled In comparison to IP end user are excluded. throughput are implemented according to
This KPI indicates the IP end-user throughput in UL for QCI9 services.
3GPP 36.314 chapter 4.1.6 in the denominator also the TTIs having data in the buffer but the UEscheduled was not scheduled In comparison to IP end user are excluded. throughput are implemented according to
3GPP 36.314 chapter 4.1.6 in the denominator also the TTIs having data in This KPI indicates the number of initial context the buffer but the UE was not scheduled are excluded. setup failure due to a failed radio interface procedure (for example, the timeout of the UE Capability Enquiry or of the RRC connection reconfiguration procedure) and also in case the start of the AS security at the UE has not been successful.
This KPI indicates the ratio of successful UE context modifications to all UE context modification attempts. This KPI shows the setup success ratio for the "Initial Context Setup" elementary procedure subject to a CS fallback, used to set up an initial UE context in MME (UE-associated logical S1-connection). This KPI indicates the ratio of successful UE context modifications to all UE context modification attempts subject to a CS fallback. This KPI indicates the ratio of UE-specific logical S1 signaling connection completions to the total number of attempts. This KPI indicates the number of service-based Service-based handovers are used to HO completions to attempts. handover UEs with ongoing VoLTE services (QCI1) to specific cells. This KPI indicates the number of service-based Service-based handovers are used to HO attempts. handover UEs with ongoing VoLTE services (QCI1) to specific cells. This KPI indicates the number of successful to This indicator covers intra- and X2-based attempted HO preparations due to RLF. inter-eNB HOs and monitoring done in the target cell where the source one sends the X2AP:RLF INDICATION This KPI indicates the number of attempted HO message. This indicator covers intra- and X2-based preparations due to RLF.
inter-eNB HOs and monitoring done in the target cell where the source one sends the X2AP:RLF INDICATION This KPI indicates the ratio of HOs due to RLF message. This indicator covers intra- and X2-based completions to attempts. inter-eNB HOs and monitoring done in the target cell where the source one sends the X2AP:RLF INDICATION message. This KPI indicates the ratio of successful to This indicator covers intra-eNB and X2attempted UE context retrievals due to RLF.
based inter-eNB HOs and monitoring done in the target cell where the source one sends the X2AP:RLF INDICATION This KPI indicates the number of attempted UE message. This indicator covers intra- and X2-based context retrievals due to RLF. inter-eNB HOs and monitoring done in the target cell where the source one sends the X2AP:RLF INDICATION message. This KPI indicates the ratio of failed to 1. This indicator covers intra and X2 attempted UE context retrievals due to RLF.
based inter eNB HO and monitoring done in the source cell, i.e. the one which sends the X2AP:RLF INDICATION. 2. The UE Context Retrievals due to RLF failure is counted as the expiration of the guard timer for the UE context retrieval during RLF triggered Handover procedure (T301).
This KPI shows the signal-to-interference-and- This KPI provides average SINR for noise ratio (SINR) for a physical UL control PUCCH per UE. channel (PUCCH), measured in the eNB. This KPI shows the signal-to-interference-and- This KPI provides average SINR for noise ratio (SINR) for a physical UL shared PUCCH per UE. channel (PUSCH), measured in the eNB. This KPI indicates the number of E-RAB setup attempts for QCI2.
This KPI indicates the number of E-RAB setup attempts for QCI3.
This KPI indicates the number of E-RAB setup attempts for QCI4.
This KPI indicates the setup success ratio of the elementary E-RAB setup procedure, used to set up the E-RAB between MME and UE for QCI2 DRBs. It indicates the E-UTRAN's contribution to network accessibility the of end This KPI indicates the setup successfor ratio user, not the whole end-to-end service the elementary E-RAB setup procedure, used accessibility. to set up the E-RAB between MME and UE for QCI3 DRBs. It indicates the E-UTRAN's contribution to network accessibility the of end This KPI indicates the setup successfor ratio user, not the whole end-to-end service the elementary E-RAB setup procedure, used accessibility. to set up the E-RAB between MME and UE for QCI4 DRBs. It indicates the E-UTRAN's contribution to network accessibility This KPI shows the average numberfor of the UEsend The average is calculated per active cell user, not the whole end-to-end service having data in RLC level buffers for DRBs of time in DL not per the whole accessibility. QCI2 during the measurement period per cell measurement period duration. for a downlink direction. This KPI shows the average number of UEs having data in RLC level buffers for DRBs of QCI3 during the measurement period per cell for a downlink direction.
The average is calculated per active cell time in DL not per the whole measurement period duration.
This KPI shows the average number of UEs having data in RLC level buffers for DRBs of QCI4 during the measurement period per cell for a downlink direction.
The average is calculated per active cell time in DL not per the whole measurement period duration.
This KPI shows the number of inter-RAT handover attempts to UTRAN with SRVCC.
This KPI is not triggered by load balancing cases to UTRAN.
This KPI indicates the ratio of failed inter-RAT handovers to UTRAN with SRVCC (triggered by TS1RELOCoverall expiry) to all attempted inter-RAT handovers to UTRAN with SRVCC. This theinter-RAT case of aHO failed This KPI KPI represents indicates the to UTRAN handover when all UE resources are still with SRVCC success ratio when the source allocated to the UE. eNB receives information that the UE is
This KPI is not triggered by load balancing cases to UTRAN.
This KPI is not triggered by load balancing cases to UTRAN.
successfully connected to the target cell (UTRAN). This KPI shows the number of inter-RAT handover attempts to GERAN with SRVCC.
This KPI indicates the ratio of failed inter-RAT handovers to GERAN with SRVCC (triggered by TS1RELOCoverall expiry) to all attempted inter-RAT handovers to GERAN with SRVCC. This theinter-RAT case of aHO failed This KPI KPI represents indicates the to GERAN handover when all UE resources are still with SRVCC success ratio when the source allocated to the UE. eNB receives information that the UE is successfully connected to the target cell (GERAN). This KPI indicates attempts at an intrafrequency HO when the source eNB receives information that the UE is successfully connected to the target cell. The KPI is defined independently of network (intra-eNB Both contention-based and dedicated This KPI indicates the ratiotopology of RA preamble HO/inter-eNB HO). responses to a total number of RA preambles. preambles are considered within the KPI.
This KPI indicates the ratio of a specific E-RAB drop (abnormal release) cause to all E-RAB releases; E-RAB active drop ratio with data in the buffer due to RNL radio connection with a UE initiated by anofeNB Thislost KPIcause indicates the ratio a specific E-RAB
1. Each bearer of the "Bearer to be Released List" IE is counted. 2. There is an overlapping in the abnormal E-RABs counted within the LTE_5090c andofLTE_5570d 1. Each bearer the "Bearerbut to from be network planning and optimization point drop (abnormal release) cause to all E-RAB Released List" IE is counted. of view it is mandatory to have also an releases; E-RAB QCI1 with data in the queue 2. There is an overlapping in the own indicator dealing with active E-RAB drop ratio, RAN View, RNL Failure with UE Lost abnormal E-RABs counted within the drops with data in the buffer only. LTE_5090c and LTE_5570d but fromto be This KPI indicates the number of abnormally 1. Eachformula QCI1 bearer of the is "Bearer 3. The LTE_5571c needed to network planning and optimization point released (dropped) QCI1 E-RABs from a Released List" IECall is counted. monitor the VoIP Drop Ratio. of view itpoint is mandatory to have also RAN's point of view. 2. RAN of view means that as an 4. In indicator the denominator of the formula own dealing with active E-RAB abnormal E-RAB drops only those ones normal and abnormal E-RAB releases drops with data in the buffer only. initiated by eNB are counted. except the successful intra LTE and inter This KPI shows the eNB's (radio part) 3. The formula LTE_5571c needed to 3. In HO the denominator of theisformula RAT are counted. observed probability to set up an end-to-end monitor the VoIP Call Drop Ratio. and abnormal releasesare 5. E-RAB releases dueE-RAB tothe S1formula RESET connection. Under "end-to-end connection" an normal 4. In thethe denominator of except successful intra LTE and inter not counted at all. additional E-RAB request is meant. normal abnormal E-RAB releases RAT HOand are counted. 6. E-RAB releases due to "No Radio except the successful intra LTE and inter This KPI indicates the aggregated in-session The E-RAB is said to be "in-session" 4. QCI1 E-RAB releases due to Resources Available" initiated byS1 eNBifare RAT HO are counted. activity time in minutes for all E-RABs. any user data has been transferred UL RESET are not counted at all. counted asreleases normal due releases they in are 5. E-RAB tolast S1as RESET are or DL direction within the 100msec. not real drops resulted from any radio not counted at all. quality problems. 6. E-RAB releases due to "No Radio Resources Available" initiated by eNB are counted as normal releases as they are not real drops resulted from any radio quality problems.
This KPI indicates the aggregated in-session activity time in minutes for all E-RABs with QCI1 characteristics.
The E-RAB is said to be "in-session" if any user data has been transferred in UL or DL direction within the last 100msec.
This KPI indicates the aggregated in-session activity time in minutes for all E-RABs with QCI2 characteristics.
The E-RAB is said to be "in-session" if any user data has been transferred in UL or DL direction within the last 100msec.
This KPI indicates the aggregated in-session activity time in minutes for all E-RABs with QCI3 characteristics.
The E-RAB is said to be "in-session" if any user data has been transferred in UL or DL direction within the last 100msec.
This KPI indicates the aggregated in-session activity time in minutes for all E-RABs with QCI4 characteristics.
The E-RAB is said to be "in-session" if any user data has been transferred in UL or DL direction within the last 100msec.
This KPI indicates the aggregated in-session The E-RAB is said to be "in-session" if activity time in minutes for all E-RABs with non- any user data has been transferred in UL GBR (QCI5-QCI9) characteristics. or DL direction within the last 100msec. This KPI indicates E-RAB retainablity ratio. It is given as the ratio of active E-RAB releases due to the "RNL failure with UE lost" cause to the E-RAB active time. This KPI indicates QCI1 E-RAB retainablity ratio. It is given as the ratio of active QCI1 ERAB releases due to the "RNL failure with UE lost" cause to the QCI1 E-RAB active time. This KPI indicates QCI2 E-RAB retainablity ratio. It is given as the ratio of active QCI2 ERAB releases due to the "RNL failure with UE lost" cause to the QCI2 E-RAB active time. This KPI indicates QCI3 E-RAB retainablity ratio. It is given as the ratio of active QCI3 ERAB releases due to the "RNL failure with UE lost" cause to the QCI3 E-RAB active time. This KPI indicates QCI4 E-RAB retainablity ratio. It is given as the ratio of active QCI4 ERAB releases due to the "RNL failure with UE lost" cause to the QCI4 E-RAB active time. This KPI indicates non-GBR (QCI5-QCI9) ERAB retainablity ratio. It is given as the ratio of active non-GBR (QCI5-QCI9) E-RAB releases due to the "RNL failure with UE lost" cause to the (QCI5-QCI9) active time. 1. The E-RAB releases due to Radio Thisnon-GBR KPI shows the ratio of E-RAB released E-RABs due to radio resources not available to all Eresources not available do not represent RAB releases. any real radio quality problems, but from an NPO's point of view it is important to monitor their ratio to all E-RAB releases.
This KPI indicates the ratio of a specific RRC connection setup failure cause to all RRC connection requests; Cause: RRC Connection Setup Rejection from an eNB. The KPI shows the mean E-RAB setup time (3GPP TS 32.425, 36.413, 23.203).
The KPI shows the maximum E-RAB setup time (3GPP TS 32.425, 36.413, 23.203).
The KPI shows the mean RRC connection setup time (3GPP TS 32.425, 36.331).
The KPI shows the maximum RRC connection setup time (3GPP TS 32.425, 36.331).
The KPI shows the maximum number of simultaneous QCI1 E-RABs.
The KPI shows the maximum number of simultaneous QCI2 E-RABs.
The KPI shows the maximum number of simultaneous QCI3 E-RABs.
The KPI shows the maximum number of simultaneous QCI4 E-RABs.
The KPI shows the maximum number of simultaneous QCI5 E-RABs.
The KPI shows the maximum number of simultaneous QCI6 E-RABs.
The KPI shows the maximum number of simultaneous QCI7 E-RABs.
The LTE_5590b provides total RRC Connection Setup Rejection ratio while the LTE_5707a covers only RRC Connection Setup Rejections due to control and user plane and MME overload, lack of PUCCH resources and the case when threshold for maximum number of RRC connections is reached.
The KPI shows the maximum number of simultaneous QCI8 E-RABs.
The KPI shows the maximum number of simultaneous QCI9 E-RABs.
The KPI shows the modification of QoS for ERAB of QCI5 success ratio.
The KPI shows the modification of QoS for ERAB of QCI6 success ratio.
The KPI shows the modification of QoS for ERAB of QCI7 success ratio.
The KPI shows the modification of QoS for ERAB of QCI8 success ratio.
The KPI shows the modification of QoS for ERAB of QCI9 success ratio.
This KPI indicates the ratio of E-RAB modification failures due to "Failure in the Radio Interface Procedure" to all E-RAB modification attempts. This KPI indicates the ratio of E-RAB modification failures due to "Not supported QCI value" to all E-RAB modification attempts. This KPI indicates the ratio of E-RAB modification failures due to "Radio Network Layer Cause-unspecified " to all E-RAB modification attempts. This KPI shows the average number of preferred physical resource blocks (PRBs) per TTI where DL interference shaping is applied. This KPI indicates the number of changes of preferred PRBs.
The main objective of the DL interference shaping feature is to make the interference in DL being generated in a fractionally loaded cell more predictable (i.e. morebe static) tothat schedule in the It should noted for theUEs cases highloaded neigboiring cell being affected when there is a silent period (DL by interference in anput area less interference feature onwith hold) and the interference. This KPI is used to number of preferred PRBs is the monitor same the the and avergae preffered before after number the silentofperiod, it is PRBs in as theaarea the change UEs in the counted regular of preferred fractionally loaded cell shall be preferebly PRBs. scheduled.
This KPI indicates the mean number of nonGBR E-RABs with a configured nominal bit rate in DL. This KPI indicates the mean number of nonGBR E-RABs with a configured nominal bit rate in UL. This KPI indicates the mean number of nonGBR E-RABs with a configured nominal bit rate in DL. However, these non-GBR E-RABs do not reach this nominal bit rate. This KPI indicates the mean number of nonGBR E-RABs with a configured nominal bit rate in UL. However, these non-GBR E-RABs do not reach this nominal bit rate. This KPI provides the ratio of time in which the non-GBR E-RABs with a configured nominal bit rate in DL do not reach the nominal bit rate to a total time in which the GBR non E-RABs with a configured nominalthe bitratio rate of in time DL doinnot reach This KPI provides which the the nominal bit rate. non-GBR E-RABs with a configured nominal bit rate in UL do not reach the nominal bit rate to a total time in which GBR non E-RABs with a configured nominal rate innumber UL do not reachin This indicator is used to monitor the TA This KPI shows the bit average of cells the nominal bit rate. a tracking area (TA). size.
The KPI indicates the number of E-RAB setup attempts for QCI5.
The KPI indicates the number of E-RAB setup attempts for QCI6.
The KPI indicates the number of E-RAB setup attempts for QCI7.
The KPI indicates the number of E-RAB setup attempts for QCI8.
The KPI indicates the number of E-RAB setup attempts for QCI9.
This KPI indicates the setup success ratio of the elementary E-RAB setup procedure, used to set up the E-RAB between MME and UE for QCI5 DRBs. It indicates the E-UTRAN's contribution to network accessibility the of end This KPI indicates the setup successfor ratio user, not the whole end-to-end service the elementary E-RAB setup procedure, used accessibility. to set up the E-RAB between MME and UE for QCI6 DRBs. It indicates the E-UTRAN's contribution to network accessibility the of end This KPI indicates the setup successfor ratio user, not the whole end-to-end service the elementary E-RAB setup procedure, used accessibility. to set up the E-RAB between MME and UE for QCI7 DRBs. It indicates the E-UTRAN's contribution to network accessibility the of end This KPI indicates the setup successfor ratio user, not the whole end-to-end service the elementary E-RAB setup procedure, used accessibility. to set up the E-RAB between MME and UE for QCI8 DRBs. It indicates the E-UTRAN's contribution to network accessibility the of end This KPI indicates the setup successfor ratio user, not the whole end-to-end service the elementary E-RAB setup procedure, used accessibility. to set up the E-RAB between MME and UE for QCI9 DRBs. It indicates the E-UTRAN's contribution to network accessibility for the end The indicator includes intra-eNB, interThis KPI indicates the number of incoming user, not the whole end-to-end service handover preparation attempts. eNB X2 and S1-based HO preparations accessibility. counted in the target cell. This KPI indicates the ratio of successful to attempted incoming handover preparations.
The indicator includes intra-eNB, intereNB X2 and S1-based HO preparations counted in the target cell.
This KPI indicates the incoming HO preparation failure ratio due to missing radio resources.
The indicator includes intra-eNB, intereNB X2 and S1-based HO preparations counted in the target cell.
This KPI indicates the incoming HO preparation failure ratio due to missing transport resources.
The indicator includes intra-eNB, intereNB X2 and S1-based HO preparations counted in the target cell.
This KPI shows the total data volume for IPbased traffic in an incoming direction.
This KPI shows the total data volume for IPbased traffic in an outgoing direction.
This KPI shows the total throughput for IPbased traffic in an outgoing direction.
The throughput is calculated as ratio of the IP volume and measurement period (i.e. not only time intervals where there is outgoing IP data but all ones are considered).
This KPI shows the total throughput for IPbased traffic in an incoming direction.
The throughput is calculated as the ratio of IP volume to a measurement period (i.e. not only time intervals where there is outgoing IP data traffic but the whole This KPI indicates the number of Msg3 and RA measurement time is considered). preambles received from a UE during a contention-based RA procedure. This KPI shows the average number of DL carrier aggregation (CA)-capable UEs for 3 CCs.
The indicator, together with the LTE_5673a, is used to help the operator decide whether to enable/disable the CA feature for 3CCs.
This KPI shows the average number of UEs with configured two SCells.
The indicator can be compared to the LTE_5671a and will show how many UEs are being configured with two SCells (as the CA capable UE for 3 CCs needs to meet some additional The indicator, togethercriterias with theto be configured with two SCells) shall be LTE_5673a, is used to help Itthe operator noted that also UE CA capable for 3 decide whether to enable/disable theCCs CA can be configured feature for 3CCs. with only one SCell.
This KPI shows the ratio of the average number of CA-capable UEs for 3 CCs to the average number of UEs in an RRC_CONNECTED state. This KPI shows the average number of UEs with activated two SCells.
This KPI indicates the number of almost blank subframes (ABSs) used in DL in the observation period.
This indicator can be compared to the LTE_5672a, and it will show how many UEs are activated and in fact run the CA for 3CCs.
1. The indicator applies for the cell that is configured as macro one in the eICIC partnership. 2. The formula may have an error in the results applies as included PMcell that is This KPI indicates the utilization of the Evolved provided 1. The indicator for the counters' triggering is done with Inter Cell Interference Cancelation (eICIC) configured as macro one in the eICIC feature. It is given as the ratio of ABSs used in permanent partnership.sampling period 500 ms which not may needhave to beansynchornized DL to the observation period given in the 2. Thedoes formula error in the with the mutting pattern change. number of TTIs. provided results as included PM This KPI shows the average value of the 1. The indicator applies for the cell that is counters' is doneone within the physical resource block (PRB) utilization, configuredtriggering as micro/small permanent sampling period 500 ms related to CRE UEs per DL almost blank eICIC partnership. which does not need to be synchornized subframe (ABS). The utilization is defined by 2. CRE UE as an UE loacted in the range with the mutting pattern change the ratio of used PRBs for CRE UEs to expansion area of the small cell. This KPI shows the average value of the 1. The indicator applies for the cell that is available PRBs per DL ABS, that is, measured 3. It shall be noted the eNB scheduler physical resource block (PRB) utilization, configured as small one in the eICIC only in DL ABSsUEs andper for UL CRE UEs. blank may decide to use the resources in the related to CRE almost partnership. DL ABSs alsoABS for non CRE UEs. subframe (ABS). The utilization is defined by 2. Under UL a sub-frame that the ratio of used PRBs for CRE UEs to occured after 4ms to the corresponding This KPI indicates the ratio of UE transactions The available PRBs per due UL ABS, thatresources is, measured in DL direction (when no PUSCH to ECM-IDLE state to radio not ABS PRE_EMPT_UE_CONTEXT_NON_GBR only in UL ABSs and for CRE UEs. scheduling shall be UEs in available to a total number of transactions. counter provides thedone total for number of macro cell) is meant. Thus small cell released UE contexts due to Radio shall benefit that asdespite in the UL ABSs resources notfrom a preThis KPI indicates the ratio of E-CID Duplications ofavailable the E-CID measurement the UL interference coming from UEs emption used in the counter name. measurement initiation responses to request initiation counted served byrequest macro messages cell shall beare siginifcantly messages. in the denominator of the formula as well. decreased. 4. CRE UE as an UE loacted in the range expansion area of the small cell. 3. It shall be noted the eNB scheduler may decide to use the resources in the DL ABSs also for non CRE UEs.
This KPI indicates the ratio of E-CID measurement initiation failures due to "Requested Item not Supported" to response messages.
Duplications of the E-CID measurement initiation request messages are counted in the denominator of the formula as well.
This KPI indicates the ratio of E-CID measurement initiation failures due to "Requested Item Temporarily not Available" to response messages.
Duplications of the E-CID measurement initiation request messages are counted in the denominator of the formula as well.
The KPI shows the modification of QoS for ERAB of QCI1 success ratio.
The KPI shows the modification of QoS for ERAB of QCI2 success ratio.
The KPI shows the modification of QoS for ERAB of QCI3 success ratio.
The KPI shows the modification of QoS for ERAB of QCI4 success ratio.
This KPI indicates the ratio of E-RAB modification failures due to "Radio Network Layer Cause-Radio resources not available" to all E-RAB modification attempts. KPI indicates the ratio of E-RAB modification failures due to "Transport Layer CauseTransport Resource Unavailable" to all E-RAB modification attempts. This KPI shows the percentage of automatic access class barring due to overload duration in the observation period. This KPI shows the blocking rate for SCell scheduling with PUCCH format 1b with channel selection (1bwcs). This KPI shows the blocking rate for SCell scheduling with PUCCH format 3.
This KPI shows the cell in a power saving mode ratio given as the ratio of the time the cell is in a power saving mode to a total time period.
This KPI indicates the ratio of a specific E-RAB drop (abnormal release) cause to all E-RAB releases. Cause: E-RAB drop ratio due to an E-UTRAN-generated reason initiated by an eNB. This KPI indicates the ratio of a specific E-RAB drop (abnormal release) cause to all E-RAB releases. Cause: E-RAB drop ratio due to a failed handover initiated by an eNB. This KPI indicates the ratio of a specific E-RAB drop (abnormal release) cause to all E-RAB releases. Cause: E-RAB drop ratio due to a partial handover. This KPI shows the average UE-reported channel quality indicator (CQI) value for code word 1. This KPI indicates the ratio of a specific RRC connection setup failure cause to all RRC connection requests. Cause: rejection from eNB due to an overload and a lack of resources. This KPI shows the percentage of time the cell was in a C-plane overload state.
This KPI shows the percentage of time the cell was in a U-plane overload state.
The KPI indicates the number of attempts at an inter-frequency HO with QCI1 bearers, when the source eNB sends an RRC connection reconfiguration message to the UE, which describes a handover command. The The KPI indicates the success ratio of KPI the is interdefined independently of network topology frequency HO for QCI1 bearers, when the (intra-eNB HO) andthat of the usage source eNBHO/inter-eNB receives information a UE is of measurement gaps. successfully connected to the target cell within the eNB. The KPI is defined Thetarget KPI shows the number of inter-RAT independently of network topology (intra-eNB handover preparation attempts to 1xRTT with HO/inter-eNB HO) and of the usage of SRVCC. measurement gaps. The KPI shows the success ratio of inter-RAT handover preparations to 1xRTT with SRVCC. When an eNB receives the S1AP:DOWNLINK S1 CDMA2000 TUNNELING (3GPP TS 36.413) a positive response, the The KPI message indicates with the ratio of failed inter-RAT preparation phase is successfully completed. handover preparations to 1xRTT with SRVCC (due to an expiration of the guarding timer TUlHoPrepTransfer1xSrvcc) to all attempted inter-RAT handover preparations to 1xRTT with SRVCC.
1. Each bearer of the "Bearer to be Released List" IE is counted. 2. There is an overlapping in the abnormal E-RABs counted within the LTE_5090c andofLTE_5570d 1. Each bearer the "Bearerbut to from be network planning and optimization point Released List" IE is counted. of view it is mandatory to have also an 2. There is an overlapping in the own indicator dealing with active E-RAB abnormal E-RABs counted within the drops with data in the buffer only. LTE_5090c andof LTE_5570d but 1. Eachformula bearer the "Bearer to from be to 3. The LTE_5571c is needed network planning and optimization point Released List" IE is counted. monitor the VoIP Call Drop Ratio. of view it is mandatory to have also an 2. There is an overlapping informula the 4. In indicator the denominator of the own dealing with active E-RAB abnormal E-RABs counted within the normal and abnormal releases drops with data the E-RAB buffer only. LTE_5090c and in LTE_5570d but and frominter except the successful intra LTE 3. The formula LTE_5571c is needed to network planning and optimization point RAT HOthe areVoIP counted. monitor Call Drop Ratio. of view it isreleases mandatory have also anare 5. E-RAB dueofto tothe S1formula RESET 4. In indicator the denominator own dealing with active E-RAB not counted at all. normal anddata abnormal E-RAB releases drops with in the buffer only. 6. E-RAB releases due to "No Radio except the successful intra total LTE and inter The LTE_50590b provides 3. The formula LTE_5571c is needed Resources Available" initiated byRRC eNB to are RAT HO are counted. Connection Setup Rejection ratio while monitor the VoIP Call Drop Ratio. counted as normal releases as they are 5. E-RAB releases dueofonly tothe S1RRC RESET are the covers 4. InLTE_5707a thedrops denominator formula not real resulted from any radio not counted at all. Connection Setup Rejections due to normal and abnormal E-RAB releases quality problems. 6. E-RAB releases dueintra to "No Radio control and user plane and MME except the successful LTE and inter Resources Available" initiated by eNB are overload, lackcounted. of PUCCH resources and RAT HO are counted as normal releases as they are the case when threshold for maximum 5. E-RAB releases due to S1 RESET are not drops from any radio number of RRC connections is reached. not real counted at resulted all. quality problems. 6. E-RAB releases due to "No Radio Resources Available" initiated by eNB are counted as normal releases as they are not real drops resulted from any radio quality problems. Only event A3/A5 radio related handovers are counted. Event A4 service-based handovers and event A4 load-based handovers are not counted (3GPP TS 36.331, TS 36.413, Only event A3/A5 radio related TS 36.423). handovers are counted. Event A4 In the exceptional case that theevent target service-based handovers and A4 cell has not accepted the QCI1 and QCI5 load-based handovers are not counted bearers (the QCI5 bearer is needed (3GPP TS 36.331, TS 36.413, TS for VoIP signaling) during handover 36.423). preparation, the counter is not incremented.
The KPI indicates the ratio of failed inter-RAT handover preparations to 1xRTT with SRVCC (due to an expiration of the guarding timer TC2KRelocPrep1xSrvcc) to all attempted interRAT handover preparations 1xRTT with The KPI indicates the ratio oftofailed inter-RAT SRVCC. handover preparations to 1xRTT with SRVCC (when an eNB receives the S1AP:DOWNLINK S1 CDMA2000 TUNNELING, 3GPP TS 36.413, a negative response) The KPImessage indicates with the ratio of failed inter-RATto all attempted inter-RAT handover preparations handover preparations to 1xRTT with SRVCC to 1xRTT withcauses SRVCC. (due to other at RRC) to all attempted inter-RAT handover preparations to 1xRTT with SRVCC. This KPI shows the number of inter-RAT handover attempts to 1xRTT with SRVCC.
The KPI indicates the ratio of successful interRAT handovers to 1xRTT with SRVCC for a UE context release within an execution phase to all attempted inter-RAT handovers to 1xRTT with SRVCC. This KPI indicates the average number of The average calculation is done per UL CRAN receptions with 2Rx antennas to all active cell time not per the whole CRAN receptions. measurement period. This KPI indicates the average number of CRAN receptions with 4Rx antennas to all CRAN receptions.
The average calculation is done per UL active cell time not per the whole measurement period.
This KPI indicates the average number of CRAN receptions with 8Rx antennas to all CRAN receptions.
The average calculation is done per UL active cell time not per the whole measurement period.
The KPI indicates the number of load balancing handover attempts to UTRAN.
The KPI indicates the ratio of load balancing handover successes to attempts to UTRAN technology. The KPI indicates the ratio of an active load balancing state to UTRAN to a measurement time interval. The KPI indicates the ratio of successful SCell swaps to successful SCell configurations. It also indicates how many successful SCell configurations are being part of an SCell Swap procedure due to an A6 measurement retrieval, compared to the total number of SCell configurations in a given cell.
This KPI is updated following the reception of a S1AP: UE CONTEXT RELEASE COMMAND message from the MME (3GPP TS 36.413) with cause value "Radio Network Layer (Successful Handover)" in case that this message is received for a successful load balancing Handover to UTRAN.
This KPI indicates the average number of activated MBMS sessions in the cell (Multimedia Broadcast/Multicast Service, 3GPP TS 36.300, TS 23.246, TS 36.331). This KPI indicates the aggregated user data volume over all MBMS sessions on the M1 interface.
MBMS session-related MBMS bearer is established when an MBMS session is started (activated), and it is released when an MBMS session is stopped (deactivated).
This KPI indicates the aggregated user data volume over all MBMS sessions on the eUu interface.
This KPI is updated when MBMS user data is transmitted. Only MBMS user data are taken into account. Signalling data are not taken This KPI indicates the lost user data volume of into account (Multimedia Broadcast/Multicast Service, 3GPP TS all MBMS packets sent through M1 interface 36.300, TS 23.246, TS 36.331). due to missing packet sequence numbers. RLC/MAC protocol data (protocol header/trailer) are not included in the This KPI indicates the lost user data volume of measurement. all MBMS packets sent through M1 interface due to missing receive buffer resources or reception of invalid packets. This KPI indicates the lost user data volume of all MBMS packets sent through M1 interface due to RLC protocol packet drops or due to MBMS SYNC protocol (3GPP TS 25.446) packet The KPIdrops. indicates the number of activated A4 It is updated following the transmission of measurements for Measurement-based Idle RRC connection reconfiguration Mode Load Balancing by an eNB. message, which contains measConfig IE to activate A4 measurements for an idle load balancing purpose.following a The KPI indicates the ratio of A4 measurement mode The success case is updated activation successes to attempts for Measurement-based Idle Mode Load Balancing. This KPI shows the average UE-reported channel quality indicator (CQI) value for code word 0. The KPI indicates the number of RRC: CSFBParametersRequestCDMA2000 messages which are received by the eNB from the UEs. The KPI indicates the ratio of parameter responses to parameter requests.
The KPI indicates the number of CS fallback preparations to 1xRTT/CDMA2000.
positive evaluation of received RRC measurement report for A4 IMLB, which triggered the insertion of idleModeMobilityControlInfo IE into RRC connection release.
Updated following the reception of an RRC: CSFBParametersRequestCDMA2000 (3GPP TS 36.331) message by the eNB from the UE. The purpose of this The purpose of this procedure is to procedure is to transfer the 1xRTT transfer the 1xRTT parameters to the UE parameters the UE to sothe that1xRTT it can so that it cantoregister register 1xRTT CS network to with a CSnetwork fallbackwith procedure. Fallback procedure. Updated following the transmission of an RRC:HandoverFromEUTRAPreparationR equest message by the eNB to the UE (3GPP TS 36.331).
The KPI indicates the ratio of successful CSFB preparation transfers to CSFB preparation attempts. In other words, it indicates whether the UE has successfuly responded to the preparation request message sent from the The KPI indicates the ratio of failed CSFB eNB to the UE. preparations to 1xRTT (due to a received HO failure indication message) to CSFB preparation attempts. This KPI indicates how much of the user data volume is transmitted over the bandwidth of used PRBs.
Updated following the transmission of an RRC:HandoverFromEUTRAPreparationR equest message by the eNB to the UE (3GPP TS 36.331). This counter is updated following the reception of an S1AP:DOWNLINK S1 CDMA2000 TUNNELING (3GPP TS 36.413) message by the eNB from the MME. KPI gives Spectral efficiency in bits/s/Hz
where ([PDCP_SDU_VOL_DL] *8/(# of TTIs in the measurement period/1000)) represents = (PDCP SDU volume in periodin duration This KPI indicates how much of the user data DL[bits]/Measurement KPI gives Spectral efficiency bits/s/Hz [seconds]) and volume is received over the bandwidth of used where ([PDCP_SDU_VOL_DL] *8/(# of (TTIs [PRB_USED_PDSCH]*180 000) /(# of PRBs. in the measurement period/1000)) TTIs in the measurement period)) represents = (PDCP SDU volume in represents (averaged #period of PRBs used for duration The KPI indicates the percentage of UEs using DL[bits]/Measurement PDSCH * 180 000 [Hz]) in the logical and CoMP in the cell. It is calculated based on the [seconds]) formula. Used PRBs also contain SRB ( [PRB_USED_PDSCH]*180 /(# of average number of intra-eNB CoMP UEs in UL which do not contribute to the000) volume. TTIs in the measurement period)) and the average number of active UEs with Hence, spectral efficiency represents (averaged # of might PRBs show used for scheduled data in UL. slightly worse values depending on the This KPI shows the ratio of services in a cell PDSCH * 180 000 [Hz]) in the logical ratio of SRB toPRBs DRB. also contain SRB being available for end users. formula. Used which do not contribute to the volume. Hence, spectral efficiency might show slightly values depending on the This KPI shows the ratio of services in a cell The cellworse planned unavailable state ratio of SRB to planned to be unavailable for end users. incorporates theDRB. cell in power saving mode state. This KPI shows the ratio of services in a cell unplanned to be unavailable for end users.
The cell unplanned unavailable state does not incorporate the cell in power saving mode state.
This KPI indicates the ratio of a specific failure cause to all EPS bearer setup attempts. Cause: "Radio Network Layer Cause (RNL)Failure in the Radio Interface Procedure" This KPI indicates the ratio of a specific failure cause to all EPS bearer setup attempts. Cause: "Miscellaneous Cause-Not enough User Plane Processing Resources" This KPI indicates the ratio of a specific failure cause to all EPS bearer setup attempts. Cause: "due to mobility procedures such as Handover, Redirect, CS Fallback" This KPI indicates the ratio of a specific E-RAB drop (abnormal release) cause to all E-RAB releases. E-RAB drop ratio due to TNL unspecified cause initiated by an eNB.
1. Each bearer of the "Bearer to be Released List" IE is counted. 2. There is an overlapping in the abnormal E-RABs counted within the LTE_5090c and LTE_5570d but from network planning and optimization point of view it is mandatory to have also an own indicator dealing with active E-RAB drops with data in the buffer only. 3. The formula LTE_5571c is needed to monitor the VoIP Call Drop Ratio. 4. In the denominator of the formula normal and abnormal E-RAB releases except the successful intra LTE and inter
The KPI indicates the average number of active UEs with UE Category 1.
The KPI indicates the average number of active UEs with UE Category 2.
The KPI indicates the average number of active UEs with UE Category 3.
The KPI indicates the average number of active UEs with UE Category 4.
This KPI shows the average number of UEs having data in RLC level buffers during the measurement period per cell for a downlink direction. This KPI shows the average number of UEs having data in RLC level buffers during the measurement period per cell for an uplink direction. This KPI shows the maximum number of UEs having data in RLC level buffers during the measurement period per cell for a downlink direction.
1. The average is calculated per measurement period duration. 2. The numerator counter is obtained with resolution 1 ms while the denominator one 4 seconds 1. The average is with calculated per resolution. Thus the precision measurement period duration.of the results obtained with this KPI may not be 2. The numerator counter is obtined with higher than two digits, or that the resolution 1 ms while the denominator absolute is up resolution. to ± 0.005. Thus the one with 4error seconds precision of the results obtained with this KPI may not be higher than two digits, or that the absolute error is up to ± 0.005.
This KPI shows the maximum number of UEs having data in RLC level buffers during the measurement period per cell for an uplink direction. This KPI shows the average number of UEs having one SRB, and at least one DRB, during the measurement period per eNB. This KPI shows the average number of UEs having data in RLC level buffers for DRBs of QCI1 during the measurement period per cell for a downlink direction.
The average is calculated per active cell time for QCI1 services in DL not per the whole measurement period duration.
This KPI shows the average number of UEs having data in RLC level buffers for non-GBR DRBs during the measurement period per cell for a downlink direction.
The average is calculated per active cell time in DL not per the whole measurement period duration.
This KPI shows the average number of UEs with buffered data in UL per logical channel group id, mapped to VoIP (QCI1) DRBs during a measurement period per cell.
1. Note that this KPI provides reliable results if only QCI1 is mapped into the Logical Channel Group (LCG) 1. 2. The average is calculated per active cell time in UL not per the whole measurement period duration.
This KPI shows the average number of UEs with buffered data in UL per logical channel group id, mapped to non-GBR DRBs during a measurement period per cell.
1. Note that in case of mixed GBR / nonGBR bearers mapping into the LCG there can be an error in the obtained results because it cannot be This KPI shows the RLC PDU volume per cell distinguished whether this counter is updated only for non-GBR bearers or in an uplink direction. also GBR bearers. 2. The average is calculated per active cell time in UL not per the whole This KPI indicates the number of E-RAB drops 1. Each bearerperiod of the duration. "Bearer to be measurement per PDCP SDU volume from the user's point of Released List" IE is counted. view. 2. E-RAB releases due to S1 RESET are not considered in the numerator of the formula. This KPI shows the total throughput for The throughput is calculated as ratio of Ethernet-based traffic in an incoming direction. the Ethernet volume and measurement Different indicators distinguish between the period (i.e. not only time intervals where Ethernet traffic at the physical interface and at there is incoming ethernet data but all the ones are considered). ThisVLAN. KPI shows the total throughput for The throughput is calculated as ratio of Ethernet-based traffic in an incoming direction. Different indicators distinguish between the Ethernet traffic at the physical interface and at the ThisVLAN. KPI shows the total throughput for
the Ethernet volume and measurement period (i.e. not only time intervals where there is incoming ethernet data but all ones are considered). The throughput is calculated as ratio of
Ethernet-based traffic in an outgoing direction. Different indicators distinguish between the Ethernet traffic at the physical interface and at the ThisVLAN. KPI shows the total throughput for
the Ethernet volume and measurement period (i.e. not only time intervals where there is outgoing ethernet data but all ones are considered). The throughput is calculated as ratio of
Ethernet-based traffic in an outgoing direction. Different indicators distinguish between the Ethernet traffic at the physical interface and at the ThisVLAN. KPI shows the error ratio for Ethernet-
the Ethernet volume and measurement period (i.e. not only time intervals where there is outgoing ethernet data but all ones are considered).
based incoming traffic at the physical interface. Packets with received FCS errors and with an unknown VLAN ID at the physical interface are considered as error packets.
Related to Feature
Measurement
• LTE651: Performance Monitoring I
8007: LTE Radio Bearer(M8007C0,M8007C1)
• LTE651: Performance Monitoring I • LTE1899: Dedicated PM-counters for E-RAB Management failure causes
8006: LTE EPS Bearer(M8006C7,M8006C6,M8006C9,M8006C8,M8006C254,M8006C
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
8013: LTE UE State(M8013C45,M8013C47)
• LTE770: Basic Performance Counter Collection II 8000: LTE S1AP(M8000C6,M8000C7)
• LTE651: Performance Monitoring I
8006: LTE EPS Bearer(M8006C0,M8006C1)
• LTE651: Performance Monitoring I • LTE1899: Dedicated PM-counters for E-RAB Management failure causes
8006: LTE EPS Bearer(M8006C7,M8006C6,M8006C9,M8006C8,M8006C254,M8006C
• LTE651: Performance Monitoring I • LTE1899: Dedicated PM-counters for E-RAB Management failure causes
8006: LTE EPS Bearer(M8006C7,M8006C6,M8006C9,M8006C8,M8006C254,M8006C
• LTE651: Performance Monitoring I • LTE1899: Dedicated PM-counters for E-RAB Management failure causes
8006: LTE EPS Bearer(M8006C7,M8006C6,M8006C9,M8006C8,M8006C254,M8006C
• LTE770: Basic Performance Counter Collection II 8008: LTE RRC(M8008C2,M8008C1)
• LTE651: Performance Monitoring I
8009: LTE Intra eNB Handover(M8009C6,M8009C7)
• LTE651: Performance Monitoring I
8009: LTE Intra eNB Handover(M8009C6,M8009C2)
• LTE651: Performance Monitoring I
8009: LTE Intra eNB Handover(M8009C6,M8009C8)
• LTE651: Performance Monitoring I
8009: LTE Intra eNB Handover(M8009C2,M8009C7)
• LTE651: Performance Monitoring I
8014: LTE Inter eNB Handover(M8014C6,M8014C7)
• LTE651: Performance Monitoring I
8014: LTE Inter eNB Handover(M8014C6,M8014C0)
• LTE651: Performance Monitoring I
8014: LTE Inter eNB Handover(M8014C6,M8014C8)
• LTE651: Performance Monitoring I
8014: LTE Inter eNB Handover(M8014C0,M8014C7)
8013: LTE UE State(M8013C5,M8013C19,M8013C17,M8013C18,M8013C21,M8013C • LTE651: Performance Monitoring I • LTE572: IMS emergency sessions • LTE22: Emergency call handling • LTE1074: Multimedia priority services •• LTE1361: Additional QoS performance LTE770: Basic Performance Counter Collection II 8004: LTE Transport Load(M8004C0) measurements • LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI) • LTE1740: PM Counters enhancement for RAB•modification/context/TM7 LTE770: Basic Performance Counter Collection II 8004: LTE Transport Load(M8004C1)
• LTE770: Basic Performance Counter Collection II 8004: LTE Transport Load(M8004C2)
• LTE770: Basic Performance Counter Collection II 8004: LTE Transport Load(M8004C3)
• LTE770: Basic Performance Counter Collection II 51120: LTE IP Statistics(M51120C3) • LTE125: IPv6 for U/C-Plane
• LTE770: Basic Performance Counter Collection II 51120: LTE IP Statistics(M51120C1) • LTE125: IPv6 for U/C-Plane
• LTE770: Basic Performance Counter Collection II 51120: LTE IP Statistics(M51120C3) • LTE125: IPv6 for U/C-Plane
• LTE770: Basic Performance Counter Collection II 51120: LTE IP Statistics(M51120C1) • LTE125: IPv6 for U/C-Plane
• LTE770: Basic Performance Counter Collection II 51120: LTE IP Statistics(M51120C4,M51120C0) • LTE125: IPv6 for U/C-Plane
• LTE54: Intra-LTE handover via S1
8014: LTE Inter eNB Handover(M8014C18,M8014C14)
• LTE54: Intra-LTE handover via S1
8014: LTE Inter eNB Handover(M8014C14,M8014C15)
• LTE54: Intra-LTE handover via S1
8014: LTE Inter eNB Handover(M8014C14,M8014C16)
• LTE54: Intra-LTE handover via S1
8014: LTE Inter eNB Handover(M8014C14,M8014C17)
• LTE54: Intra-LTE handover via S1
8014: LTE Inter eNB Handover(M8014C18,M8014C19)
• LTE54: Intra-LTE handover via S1
8014: LTE Inter eNB Handover(M8014C18,M8014C20)
• LTE54: Intra-LTE handover via S1
8014: LTE Inter eNB Handover(M8014C14,M8014C19)
• LTE651: Performance Monitoring I • LTE1899: Dedicated PM-counters for E-RAB Management failure causes
8006: LTE EPS Bearer(M8006C0,M8006C250,M8006C246)
• LTE651: Performance Monitoring I • LTE1899: Dedicated PM-counters for E-RAB Management failure causes
8006: LTE EPS Bearer(M8006C0,M8006C249,M8006C245)
• LTE651: Performance Monitoring I • LTE1899: Dedicated PM-counters for E-RAB Management failure causes
8006: LTE EPS Bearer(M8006C0,M8006C248,M8006C244)
• LTE651: Performance Monitoring I • LTE1899: Dedicated PM-counters for E-RAB Management failure causes
8006: LTE EPS Bearer(M8006C0,M8006C1,M8006C248,M8006C250,M8006C249,M8
• LTE651: Performance Monitoring I • LTE1899: Dedicated PM-counters for E-RAB Management failure causes
8006: LTE EPS Bearer(M8006C7,M8006C6,M8006C9,M8006C8,M8006C254,M8006C
• LTE651: Performance Monitoring I • LTE1899: Dedicated PM-counters for E-RAB Management failure causes
8006: LTE EPS Bearer(M8006C7,M8006C6,M8006C9,M8006C8,M8006C254,M8006C
• LTE651: Performance Monitoring I • LTE1899: Dedicated PM-counters for E-RAB Management failure causes
8006: LTE EPS Bearer(M8006C7,M8006C6,M8006C9,M8006C8,M8006C254,M8006C
• LTE770: Basic Performance Counter Collection II 8000: LTE S1AP(M8000C6,M8000C8)
• LTE770: Basic Performance Counter Collection II 8000: LTE S1AP(M8000C6,M8000C9)
• LTE651: Performance Monitoring I
8009: LTE Intra eNB Handover(M8009C2)8014: LTE Inter eNB Handover(M8014C3)
• LTE651: Performance Monitoring I
8009: LTE Intra eNB Handover(M8009C5,M8009C2)
• LTE651: Performance Monitoring I
8014: LTE Inter eNB Handover(M8014C2,M8014C0)
• LTE651: Performance Monitoring I
8014: LTE Inter eNB Handover(M8014C3,M8014C0)
• LTE651: Performance Monitoring I
8014: LTE Inter eNB Handover(M8014C5,M8014C0)
• LTE1441: Enhanced CS fallback to CDMA/1xRTT 8016: LTE Inter System Handover(M8016C11,M8016C12) (e1xCSFB) • LTE562: CSFB to UTRAN or GSM via redirect • LTE874: CSFB to CDMA/1xRTT for dual RX UEs • LTE1441: Enhanced CS fallback to CDMA/1xRTT 8016: LTE Inter System Handover(M8016C11,M8016C12) (e1xCSFB) • LTE562: CSFB to UTRAN or GSM via redirect • LTE874: CSFB to CDMA/1xRTT for dual RX UEs
• LTE1441: Enhanced CS fallback to CDMA/1xRTT 8016: LTE Inter System Handover(M8016C11,M8016C13) (e1xCSFB) • LTE562: CSFB to UTRAN or GSM via redirect • LTE874: CSFB to CDMA/1xRTT for dual RX UEs •• LTE1441: CSfor fallback toEstablishment CDMA/1xRTT 8006: LTE EPS Bearer(M8006C188,M8006C189,M8006C190,M8006C191,M8006C19 LTE1960: Enhanced PM-Counters E-RAB (e1xCSFB) monitoring (non-GBR QCI) • LTE22: Emergency call handling • LTE874: CSFB to CDMA/1xRTT for dual RX UEs
• LTE1960: PM-Counters for E-RAB Establishment 8006: LTE EPS Bearer(M8006C197,M8006C198,M8006C199,M8006C200,M8006C20 monitoring (non-GBR QCI)
• LTE55: Inter-frequency handover
8021: LTE Handover(M8021C0,M8021C2)
• LTE55: Inter-frequency handover
8021: LTE Handover(M8021C1,M8021C3)
• LTE651: Performance Monitoring I
8007: LTE Radio Bearer(M8007C0)
• LTE651: Performance Monitoring I • LTE1899: Dedicated PM-counters for E-RAB Management failure causes
8006: LTE EPS Bearer(M8006C7,M8006C6,M8006C9,M8006C8,M8006C254,M8006C
• LTE651: Performance Monitoring I
8006: LTE EPS Bearer(M8006C0)
• LTE651: Performance Monitoring I • LTE1899: Dedicated PM-counters for E-RAB Management failure causes
8006: LTE EPS Bearer(M8006C7,M8006C6,M8006C9,M8006C8,M8006C254,M8006C
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
8013: LTE UE State(M8013C45)
• LTE770: Basic Performance Counter Collection II 8000: LTE S1AP(M8000C6)
• LTE770: Basic Performance Counter Collection II 8008: LTE RRC(M8008C1)
• LTE651: Performance Monitoring I
8009: LTE Intra eNB Handover(M8009C2)
• LTE651: Performance Monitoring I
8009: LTE Intra eNB Handover(M8009C6)
• LTE651: Performance Monitoring I
8014: LTE Inter eNB Handover(M8014C6)
• LTE651: Performance Monitoring I
8014: LTE Inter eNB Handover(M8014C0)
• LTE54: Intra-LTE handover via S1
8014: LTE Inter eNB Handover(M8014C14)
• LTE651: Performance Monitoring I
8001: LTE Cell Load(M8001C2)
• LTE651: Performance Monitoring I
8001: LTE Cell Load(M8001C5)
• LTE735: RRC Connection Re-establishment
8008: LTE RRC(M8008C6)
• LTE735: RRC Connection Re-establishment
8008: LTE RRC(M8008C8)
• LTE735: RRC Connection Re-establishment
8008: LTE RRC(M8008C4,M8008C5)
• LTE651: Performance Monitoring I • LTE735: RRC Connection Re-establishment
8008: LTE RRC(M8008C0,M8008C4)
• LTE651: Performance Monitoring I • LTE735: RRC Connection Re-establishment
8008: LTE RRC(M8008C0,M8008C4,M8008C5)
• LTE522: S1 partial reset
8000: LTE S1AP(M8000C15,M8000C16)
• LTE522: S1 partial reset
8000: LTE S1AP(M8000C15,M8000C16)
• LTE522: S1 partial reset
8018: LTE eNB Load(M8018C5,M8018C7,M8018C9,M8018C8)
• LTE522: S1 partial reset
8018: LTE eNB Load(M8018C4,M8018C6)8001: LTE Cell Load(M8001C319,M8001C3
• LTE572: IMS emergency sessions
8021: LTE Handover(M8021C6)
• LTE572: IMS emergency sessions
8021: LTE Handover(M8021C12,M8021C6)
• LTE572: IMS emergency sessions
8021: LTE Handover(M8021C12)
• LTE572: IMS emergency sessions
8021: LTE Handover(M8021C12,M8021C15)
• LTE572: IMS emergency sessions
8021: LTE Handover(M8021C6,M8021C15)
• LTE473: Extended DRX settings
8001: LTE Cell Load(M8001C421)
• LTE473: Extended DRX settings
8001: LTE Cell Load(M8001C422)
• LTE473: Extended DRX settings
8001: LTE Cell Load(M8001C422,M8001C423)
• LTE473: Extended DRX settings
8001: LTE Cell Load(M8001C425,M8001C422,M8001C423)
• LTE473: Extended DRX settings
8001: LTE Cell Load(M8001C425)
• LTE473: Extended DRX settings
8001: LTE Cell Load(M8001C426)
• LTE473: Extended DRX settings
8001: LTE Cell Load(M8001C426,M8001C425,M8001C424)
• LTE533: Mobility Robustness
8021: LTE Handover(M8021C20)
• LTE533: Mobility Robustness
8021: LTE Handover(M8021C21)
• LTE533: Mobility Robustness
8021: LTE Handover(M8021C22)
• LTE42: DRX in RRC connected mode
8021: LTE Handover(M8021C18)
• LTE42: DRX in RRC connected mode
8021: LTE Handover(M8021C18,M8021C19)
• LTE442: Network Assisted Cell Change to GSM
8016: LTE Inter System Handover(M8016C26)
• LTE56: Inter RAT handover to WCDMA
8016: LTE Inter System Handover(M8016C14)
• LTE56: Inter RAT handover to WCDMA • LTE872: SRVCC to WCDMA • LTE873: Relationship Model GERAN changes in eNB
8016: LTE Inter System Handover(M8016C21,M8016C14,M8016C29,M8016C33)
• LTE56: Inter RAT handover to WCDMA
8016: LTE Inter System Handover(M8016C14,M8016C15)
• LTE56: Inter RAT handover to WCDMA
8016: LTE Inter System Handover(M8016C14,M8016C16)
• LTE56: Inter RAT handover to WCDMA
8016: LTE Inter System Handover(M8016C14,M8016C17)
• LTE56: Inter RAT handover to WCDMA
8016: LTE Inter System Handover(M8016C21,M8016C23)
• LTE56: Inter RAT handover to WCDMA
8016: LTE Inter System Handover(M8016C21)
• LTE56: Inter RAT handover to WCDMA
8016: LTE Inter System Handover(M8016C21,M8016C25)
• LTE56: Inter RAT handover to WCDMA • LTE872: SRVCC to WCDMA • LTE873: Relationship Model GERAN changes in eNB
8016: LTE Inter System Handover(M8016C14,M8016C23,M8016C30,M8016C34)
• LTE132: VLAN based traffic separation • LTE125: IPv6 for U/C-Plane
51127: LTE VLAN IP Statistics(M51127C0,M51127C4)
• LTE9: Service differentiation • LTE572: IMS emergency sessions • LTE7: Support of multiple EPS bearer
8000: LTE S1AP(M8000C32)
• LTE9: Service differentiation • LTE572: IMS emergency sessions • LTE7: Support of multiple EPS bearer
8000: LTE S1AP(M8000C32,M8000C33)
• LTE9: Service differentiation • LTE572: IMS emergency sessions • LTE7: Support of multiple EPS bearer
8000: LTE S1AP(M8000C34)
8006: LTE EPS Bearer(M8006C197,M8006C215,M8006C188,M8006C206)
8006: LTE EPS Bearer(M8006C197,M8006C188)
• LTE1960: PM-Counters for E-RAB Establishment 8006: LTE EPS Bearer(M8006C201,M8006C202,M8006C203,M8006C204,M8006C20 monitoring (non-GBR QCI)
• LTE770: Basic Performance Counter Collection II 8001: LTE Cell Load(M8001C142,M8001C144)
• LTE651: Performance Monitoring I
8001: LTE Cell Load(M8001C137,M8001C138)
• LTE9: Service differentiation • LTE7: Support of multiple EPS bearer • LTE1899: Dedicated PM-counters for E-RAB Management failure causes
8006: LTE EPS Bearer(M8006C98,M8006C89,M8006C116,M8006C107,M8006C266,M
• LTE770: Basic Performance Counter Collection II 8012: LTE Cell Throughput(M8012C18)
• LTE770: Basic Performance Counter Collection II 8012: LTE Cell Throughput(M8012C20)
• LTE770: Basic Performance Counter Collection II 8012: LTE Cell Throughput(M8012C19)
8018: LTE eNB Load(M8018C9,M8018C8)
• LTE651: Performance Monitoring I
8001: LTE Cell Load(M8001C12,M8001C11)
• LTE1960: PM-Counters for E-RAB Establishment 8006: LTE EPS Bearer(M8006C201,M8006C202,M8006C203,M8006C204,M8006C20 monitoring (non-GBR QCI)
• LTE651: Performance Monitoring I • LTE572: IMS emergency sessions • LTE22: Emergency call handling • LTE1074: Multimedia priority services •• LTE1361: Additional QoS performance LTE651: Performance Monitoring I measurements • LTE534: ARP based admission control for E-
8013: LTE UE State(M8013C5,M8013C19,M8013C17,M8013C18,M8013C21,M8013C
8013: LTE UE State(M8013C13,M8013C16,M8013C15,M8013C10,M8013C9,M8013C
RABs • LTE572: IMS emergency sessions • LTE22: Emergency call handling • LTE651: Performance Monitoring I • LTE572: IMS emergency sessions •• LTE22: call handling LTE572:Emergency IMS emergency sessions
8013: LTE UE State(M8013C21,M8013C26)
8013: LTE UE State(M8013C21)
• LTE22: Emergency call handling
• LTE651: Performance Monitoring I • LTE572: IMS emergency sessions • LTE22: Emergency call handling • LTE1074: Multimedia priority services •• LTE1361: Additional QoS performance LTE651: Performance Monitoring I measurements • LTE572: IMS emergency sessions • LTE22: Emergency call handling • LTE1074: Multimedia priority services •• LTE1361: Additional QoS performance LTE651: Performance Monitoring I measurements
8013: LTE UE State(M8013C6,M8013C19,M8013C17,M8013C18,M8013C21,M8013C
8013: LTE UE State(M8013C7,M8013C19,M8013C17,M8013C18,M8013C21,M8013C
8013: LTE UE State(M8013C17)
• LTE651: Performance Monitoring I
8013: LTE UE State(M8013C18)
• LTE651: Performance Monitoring I
8013: LTE UE State(M8013C19)
• LTE651: Performance Monitoring I • LTE1899: Dedicated PM-counters for E-RAB Management failure causes
8006: LTE EPS Bearer(M8006C7,M8006C6,M8006C9,M8006C8,M8006C254,M8006C
• LTE651: Performance Monitoring I • LTE1899: Dedicated PM-counters for E-RAB Management failure causes
8006: LTE EPS Bearer(M8006C7,M8006C6,M8006C9,M8006C8,M8006C254,M8006C
• LTE432: Cell Outage Detection • LTE1103: Load based Power Saving
8020: LTE Cell Availability(M8020C6,M8020C3,M8020C4)
• LTE54: Intra-LTE handover via S1
8014: LTE Inter eNB Handover(M8014C18)
8001: LTE Cell Load(M8001C319,M8001C318)
• LTE56: Inter RAT handover to WCDMA • LTE872: SRVCC to WCDMA • LTE873: Relationship Model GERAN changes in eNB
8016: LTE Inter System Handover(M8016C21,M8016C23,M8016C29,M8016C30,M80
• LTE56: Inter RAT handover to WCDMA • LTE872: SRVCC to WCDMA • LTE873: Relationship Model GERAN changes in eNB
8016: LTE Inter System Handover(M8016C21,M8016C29,M8016C33)
• LTE56: Inter RAT handover to WCDMA • LTE872: SRVCC to WCDMA • LTE873: Relationship Model GERAN changes in eNB
8016: LTE Inter System Handover(M8016C21,M8016C25,M8016C29,M8016C31,M80
• LTE770: Basic Performance Counter Collection II 8001: LTE Cell Load(M8001C154,M8001C155)8026: LTE QoS(M8026C259) • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements 8001: LTE Cell Load(M8001C323,M8001C314)8026: LTE QoS(M8026C260) • LTE9: Service differentiation •• LTE2054: LTE2054: Measurement Measurement Report Report addition addition with with PDCP PDCP KPI KPI counter counter subset subset • LTE1361: Additional QoS performance measurements • LTE496: Support of QCI 2, 3 and 4 •• LTE2054: LTE2054: Measurement Measurement Report Report addition addition with with PDCP KPI counter subset PDCP KPI counter subset
8001: LTE Cell Load(M8001C324,M8001C315)8026: LTE QoS(M8026C261)
• LTE1361: Additional QoS performance measurements • LTE496: Support of QCI 2, 3 and 4 •• LTE2054: LTE2054: Measurement Measurement Report Report addition addition with with PDCP KPI counter subset PDCP KPI counter subset
8001: LTE Cell Load(M8001C325,M8001C316)8026: LTE QoS(M8026C262)
• LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset
8001: LTE Cell Load(M8001C326,M8001C317)8026: LTE QoS(M8026C263) • LTE496: Support of QCI 2, 3 and 4 • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE770: Basic Performance Counter Collection II 8001: LTE Cell Load(M8001C154,M8001C155,M8001C323,M8001C314,M8001C324,M •• LTE2054: LTE2054: Measurement Measurement Report Report addition addition with with PDCP KPI counter subset PDCP KPI counter subset
• LTE9: Service differentiation •• LTE2054: Measurement Report addition LTE494: Commercial Mobile Alert Systemwith PDCP KPI counter subset • LTE843: ETWS broadcast • LTE496: Support of QCI 2, 3 and 4 • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE494: Mobile Alert System LTE1361:Commercial Additional QoS performance •measurements LTE843: ETWS broadcast • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE494: Commercial Mobile Alert System
8000: LTE S1AP(M8000C39,M8000C40,M8000C26)
8000: LTE S1AP(M8000C39)
8000: LTE S1AP(M8000C41,M8000C42,M8000C27)
• LTE494: Commercial Mobile Alert System
8000: LTE S1AP(M8000C41)
• LTE843: ETWS broadcast
8001: LTE Cell Load(M8001C231)
• LTE843: ETWS broadcast
8001: LTE Cell Load(M8001C232)
• LTE494: Commercial Mobile Alert System
8001: LTE Cell Load(M8001C233)
• LTE494: Commercial Mobile Alert System • LTE843: ETWS broadcast
8008: LTE RRC(M8008C16)
• LTE651: Performance Monitoring I
8011: LTE Cell Resource(M8011C24)
• LTE651: Performance Monitoring I
8011: LTE Cell Resource(M8011C37)
• LTE770: Basic Performance Counter Collection II 8012: LTE Cell Throughput(M8012C17)
• LTE770: Basic Performance Counter Collection II 8012: LTE Cell Throughput(M8012C18)
• LTE770: Basic Performance Counter Collection II 8012: LTE Cell Throughput(M8012C19,M8012C89)
• LTE770: Basic Performance Counter Collection II 8012: LTE Cell Throughput(M8012C20,M8012C90)
• LTE9: Service differentiation
8012: LTE Cell Throughput(M8012C143)
• LTE9: Service differentiation
8012: LTE Cell Throughput(M8012C116)
• LTE1442: Open access home eNode B mobility
8008: LTE RRC(M8008C15)
• LTE908: ANR Inter-RAT UTRAN - Fully UE Based 8008: LTE RRC(M8008C12)
• LTE908: ANR Inter-RAT UTRAN - Fully UE Based 8008: LTE RRC(M8008C12,M8008C13)
• LTE908: ANR Inter-RAT UTRAN - Fully UE Based 8008: LTE RRC(M8008C12,M8008C14)
• LTE770: Basic Performance Counter Collection II 8001: LTE Cell Load(M8001C154)8026: LTE QoS(M8026C259) • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements 8001: LTE Cell Load(M8001C314)8026: LTE QoS(M8026C260) • LTE9: Service differentiation •• LTE2054: LTE2054: Measurement Measurement Report Report addition addition with with PDCP PDCP KPI KPI counter counter subset subset • LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset
• LTE496: Support of QCI 2, 3 and 4 • LTE2054: Measurement Report addition with PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE496: Support of QCI 2, 3 and 4 •• LTE2054: LTE2054: Measurement Measurement Report Report addition addition with with PDCP KPI counter subset PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE496: Support of QCI 2, 3 and 4 •• LTE2054: LTE2054: Measurement Measurement Report Report addition addition with with PDCP KPI counter subset PDCP KPI counter subset
8001: LTE Cell Load(M8001C315)8026: LTE QoS(M8026C261)
8001: LTE Cell Load(M8001C316)8026: LTE QoS(M8026C262)
8001: LTE Cell Load(M8001C317)8026: LTE QoS(M8026C263)
• LTE1361: Additional QoS performance measurements • LTE770: Basic Performance Counter Collection II 8001: LTE Cell Load(M8001C153)8026: LTE QoS(M8026C254) •• LTE2054: LTE2054: Measurement Measurement Report Report addition addition with with PDCP KPI counter subset PDCP KPI counter subset • LTE1361: Additional QoS performance measurements • LTE9: Service differentiation •• LTE2054: LTE2054: Measurement Measurement Report Report addition addition with with PDCP KPI counter subset PDCP KPI counter subset
8001: LTE Cell Load(M8001C305)8026: LTE QoS(M8026C255)
• LTE1361: Additional QoS performance measurements • LTE651: Performance Monitoring I •• LTE2054: LTE2054: Measurement Measurement Report Report addition addition with with PDCP KPI counter subset PDCP KPI counter subset
8001: LTE Cell Load(M8001C306)8026: LTE QoS(M8026C256)
• LTE1361: Additional QoS performance measurements • LTE651: Performance Monitoring I •• LTE2054: LTE2054: Measurement Measurement Report Report addition addition with with PDCP KPI counter subset PDCP KPI counter subset
8001: LTE Cell Load(M8001C307)8026: LTE QoS(M8026C257)
• LTE1361: Additional QoS performance measurements • LTE651: Performance Monitoring I •• LTE2054: LTE2054: Measurement Measurement Report Report addition addition with with PDCP KPI counter subset PDCP KPI counter subset
8001: LTE Cell Load(M8001C308)8026: LTE QoS(M8026C258)
• LTE1361: Additional QoS performance measurements • LTE1170: Inter-frequency load balancing •• LTE2054: Report with LTE1841: Measurement Inter-Frequency Load addition Equalization PDCP KPI counter subset
8021: LTE Handover(M8021C23)
• LTE1170: Inter-frequency load balancing • LTE1841: Inter-Frequency Load Equalization
8021: LTE Handover(M8021C23,M8021C24)
• LTE1089: Downlink carrier aggregation • LTE1558: TDD Downlink carrier aggregation
8001: LTE Cell Load(M8001C494)
• LTE1089: Downlink carrier aggregation • LTE1558: TDD Downlink carrier aggregation
8001: LTE Cell Load(M8001C495)
• LTE1089: Downlink carrier aggregation • LTE1558: TDD Downlink carrier aggregation
8001: LTE Cell Load(M8001C496)
• LTE1089: Downlink carrier aggregation • LTE1558: TDD Downlink carrier aggregation
8001: LTE Cell Load(M8001C494,M8001C319,M8001C318)
• LTE1089: Downlink carrier aggregation • LTE1558: TDD Downlink carrier aggregation
8011: LTE Cell Resource(M8011C67,M8011C68)
• LTE1089: Downlink carrier aggregation • LTE1558: TDD Downlink carrier aggregation
8012: LTE Cell Throughput(M8012C151)
• LTE907: TTI bundling
8011: LTE Cell Resource(M8011C62)
8012: LTE Cell Throughput(M8012C118,M8012C117)
8012: LTE Cell Throughput(M8012C120,M8012C119)
8012: LTE Cell Throughput(M8012C122,M8012C121)
8012: LTE Cell Throughput(M8012C124,M8012C123)
8012: LTE Cell Throughput(M8012C126,M8012C125)
8012: LTE Cell Throughput(M8012C128,M8012C127)
8012: LTE Cell Throughput(M8012C130,M8012C129)
8012: LTE Cell Throughput(M8012C132,M8012C131)
8012: LTE Cell Throughput(M8012C134,M8012C133)
8012: LTE Cell Throughput(M8012C92,M8012C91)
8012: LTE Cell Throughput(M8012C94,M8012C93)
8012: LTE Cell Throughput(M8012C96,M8012C95)
8012: LTE Cell Throughput(M8012C98,M8012C97)
8012: LTE Cell Throughput(M8012C100,M8012C99)
8012: LTE Cell Throughput(M8012C102,M8012C101)
8012: LTE Cell Throughput(M8012C104,M8012C103)
8012: LTE Cell Throughput(M8012C106,M8012C105)
8012: LTE Cell Throughput(M8012C108,M8012C107)
8005: LTE Power and Quality UL(M8005C208)
8005: LTE Power and Quality UL(M8005C233)
8005: LTE Power and Quality UL(M8005C258)
8005: LTE Power and Quality UL(M8005C283)
• LTE1361: Additional QoS performance measurements
8013: LTE UE State(M8013C34)
• LTE1074: Multimedia priority services
8013: LTE UE State(M8013C31)
• LTE651: Performance Monitoring I • LTE1361: Additional QoS performance measurements
8013: LTE UE State(M8013C17,M8013C35)
• LTE651: Performance Monitoring I • LTE1361: Additional QoS performance measurements
8013: LTE UE State(M8013C19,M8013C36)
• LTE651: Performance Monitoring I • LTE1361: Additional QoS performance measurements
8013: LTE UE State(M8013C18,M8013C37)
• LTE1361: Additional QoS performance measurements
8013: LTE UE State(M8013C34,M8013C38)
• LTE1074: Multimedia priority services
8013: LTE UE State(M8013C31,M8013C32)
• LTE651: Performance Monitoring I • LTE1361: Additional QoS performance measurements
8013: LTE UE State(M8013C17,M8013C39)
• LTE651: Performance Monitoring I • LTE1361: Additional QoS performance measurements
8013: LTE UE State(M8013C19,M8013C40)
• LTE651: Performance Monitoring I • LTE1361: Additional QoS performance measurements
8013: LTE UE State(M8013C18,M8013C41)
• LTE1361: Additional QoS performance measurements
8013: LTE UE State(M8013C34,M8013C42)
• LTE1074: Multimedia priority services
8013: LTE UE State(M8013C31,M8013C33)
• LTE572: IMS emergency sessions • LTE22: Emergency call handling • LTE1047: Control plane overload handling
8013: LTE UE State(M8013C21,M8013C30)
• LTE1074: Multimedia priority services
8006: LTE EPS Bearer(M8006C186,M8006C187)
• LTE1361: Additional QoS performance measurements
8006: LTE EPS Bearer(M8006C54,M8006C45)
• LTE1361: Additional QoS performance measurements
8006: LTE EPS Bearer(M8006C54,M8006C46)
• LTE1361: Additional QoS performance measurements
8006: LTE EPS Bearer(M8006C54,M8006C47)
• LTE1361: Additional QoS performance measurements
8006: LTE EPS Bearer(M8006C54,M8006C48)
• LTE1361: Additional QoS performance measurements
8006: LTE EPS Bearer(M8006C54,M8006C49)
• LTE1361: Additional QoS performance measurements
8006: LTE EPS Bearer(M8006C54,M8006C50)
• LTE1361: Additional QoS performance measurements
8006: LTE EPS Bearer(M8006C54,M8006C51)
• LTE1361: Additional QoS performance measurements
8006: LTE EPS Bearer(M8006C54,M8006C52)
• LTE1361: Additional QoS performance measurements
8006: LTE EPS Bearer(M8006C54,M8006C53)
• LTE1402: Uplink intra eNode B CoMP
8001: LTE Cell Load(M8001C198)
• LTE782: ANR Fully UE based
8008: LTE RRC(M8008C10)
• LTE782: ANR Fully UE based
8008: LTE RRC(M8008C10,M8008C11)
• LTE782: ANR Fully UE based
8022: LTE X2AP(M8022C0,M8022C1)
• LTE782: ANR Fully UE based
8022: LTE X2AP(M8022C0)
• LTE782: ANR Fully UE based
8000: LTE S1AP(M8000C38,M8000C37)
• LTE782: ANR Fully UE based
8000: LTE S1AP(M8000C38)
• LTE1382: Cell resource groups
8011: LTE Cell Resource(M8011C75,M8011C79)
• LTE1382: Cell resource groups
8011: LTE Cell Resource(M8011C76,M8011C79)
• LTE1382: Cell resource groups
8011: LTE Cell Resource(M8011C77,M8011C79)
• LTE1382: Cell resource groups
8011: LTE Cell Resource(M8011C78,M8011C79)
• LTE1382: Cell resource groups
8011: LTE Cell Resource(M8011C70,M8011C74)
• LTE1382: Cell resource groups
8011: LTE Cell Resource(M8011C71,M8011C74)
• LTE1382: Cell resource groups
8011: LTE Cell Resource(M8011C72,M8011C74)
• LTE1382: Cell resource groups
8011: LTE Cell Resource(M8011C73,M8011C74)
• LTE798: Performance Counter Histogram Package I
8010: LTE Power and Quality DL(M8010C36,M8010C37,M8010C38,M8010C39,M801
• LTE651: Performance Monitoring I
8010: LTE Power and Quality DL(M8010C54)
• LTE798: Performance Counter Histogram Package I
8005: LTE Power and Quality UL(M8005C6,M8005C7,M8005C8,M8005C9,M8005C10
• LTE798: Performance Counter Histogram Package I
8005: LTE Power and Quality UL(M8005C28,M8005C29,M8005C30,M8005C31,M800
• LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset
8026: LTE QoS(M8026C19,M8026C5)
• LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset
8026: LTE QoS(M8026C20,M8026C6)
• LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset
8026: LTE QoS(M8026C21,M8026C7)
• LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset
8026: LTE QoS(M8026C22,M8026C8)
• LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset
8026: LTE QoS(M8026C23,M8026C9)
• LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset
8026: LTE QoS(M8026C0,M8026C24)
• LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset
8026: LTE QoS(M8026C1,M8026C25)
• LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset
8026: LTE QoS(M8026C2,M8026C26)
• LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset
8026: LTE QoS(M8026C3,M8026C28)
• LTE1361: Additional QoS performance measurements • LTE2054: Measurement Report addition with PDCP KPI counter subset
8026: LTE QoS(M8026C4,M8026C29)
• LTE60: Inter RAT handover to HRPD/3GPP2
8025: LTE Handover to eHRPD per eHRPD bandclass(M8025C0)
• LTE60: Inter RAT handover to HRPD/3GPP2
8025: LTE Handover to eHRPD per eHRPD bandclass(M8025C0,M8025C4)
• LTE60: Inter RAT handover to HRPD/3GPP2
8025: LTE Handover to eHRPD per eHRPD bandclass(M8025C0,M8025C1)
• LTE60: Inter RAT handover to HRPD/3GPP2
8025: LTE Handover to eHRPD per eHRPD bandclass(M8025C0,M8025C2)
• LTE60: Inter RAT handover to HRPD/3GPP2
8025: LTE Handover to eHRPD per eHRPD bandclass(M8025C0,M8025C3)
• LTE60: Inter RAT handover to HRPD/3GPP2
8025: LTE Handover to eHRPD per eHRPD bandclass(M8025C5,M8025C7)
• LTE60: Inter RAT handover to HRPD/3GPP2
8025: LTE Handover to eHRPD per eHRPD bandclass(M8025C5)
• LTE60: Inter RAT handover to HRPD/3GPP2
8025: LTE Handover to eHRPD per eHRPD bandclass(M8025C5,M8025C6)
• LTE60: Inter RAT handover to HRPD/3GPP2
8025: LTE Handover to eHRPD per eHRPD bandclass(M8025C0,M8025C7)
• LTE9: Service differentiation
8001: LTE Cell Load(M8001C269)8026: LTE QoS(M8026C30)
• LTE496: Support of QCI 2, 3 and 4
8001: LTE Cell Load(M8001C271)8026: LTE QoS(M8026C31)
• LTE496: Support of QCI 2, 3 and 4
8001: LTE Cell Load(M8001C272)8026: LTE QoS(M8026C32)
• LTE496: Support of QCI 2, 3 and 4
8001: LTE Cell Load(M8001C273)8026: LTE QoS(M8026C33)
8001: LTE Cell Load(M8001C309)8026: LTE QoS(M8026C34)
8001: LTE Cell Load(M8001C310)8026: LTE QoS(M8026C35)
8001: LTE Cell Load(M8001C311)8026: LTE QoS(M8026C36)
8001: LTE Cell Load(M8001C312)8026: LTE QoS(M8026C37)
8001: LTE Cell Load(M8001C313)8026: LTE QoS(M8026C38)
• LTE473: Extended DRX settings
8001: LTE Cell Load(M8001C429)
• LTE473: Extended DRX settings
8001: LTE Cell Load(M8001C429,M8001C319,M8001C318)
8001: LTE Cell Load(M8001C298,M8001C297)
8001: LTE Cell Load(M8001C296,M8001C295)
8012: LTE Cell Throughput(M8012C117,M8012C165)
8012: LTE Cell Throughput(M8012C119,M8012C166)
8012: LTE Cell Throughput(M8012C121,M8012C167)
8012: LTE Cell Throughput(M8012C123,M8012C168)
8012: LTE Cell Throughput(M8012C125,M8012C169)
8012: LTE Cell Throughput(M8012C127,M8012C170)
8012: LTE Cell Throughput(M8012C129,M8012C171)
8012: LTE Cell Throughput(M8012C131,M8012C172)
8012: LTE Cell Throughput(M8012C133,M8012C173)
8012: LTE Cell Throughput(M8012C91,M8012C156)
8012: LTE Cell Throughput(M8012C93,M8012C157)
8012: LTE Cell Throughput(M8012C95,M8012C158)
8012: LTE Cell Throughput(M8012C97,M8012C159)
8012: LTE Cell Throughput(M8012C99,M8012C160)
8012: LTE Cell Throughput(M8012C101,M8012C161)
8012: LTE Cell Throughput(M8012C103,M8012C162)
8012: LTE Cell Throughput(M8012C105,M8012C163)
8012: LTE Cell Throughput(M8012C107,M8012C164)
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
8013: LTE UE State(M8013C45,M8013C49)
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
8013: LTE UE State(M8013C50,M8013C52)
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
8013: LTE UE State(M8013C46,M8013C48)
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
8013: LTE UE State(M8013C51,M8013C53)
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
8013: LTE UE State(M8013C43,M8013C44)
• LTE1127: Service based mobility trigger
8021: LTE Handover(M8021C7,M8021C8)
• LTE1127: Service based mobility trigger
8021: LTE Handover(M8021C7)
• LTE1617: RLF triggered handover
8027: LTE Handover (RLF trigger)(M8027C0,M8027C1)
• LTE1617: RLF triggered handover
8027: LTE Handover (RLF trigger)(M8027C1)
• LTE1617: RLF triggered handover
8027: LTE Handover (RLF trigger)(M8027C0,M8027C2)
• LTE1617: RLF triggered handover
8027: LTE Handover (RLF trigger)(M8027C3,M8027C4)
• LTE1617: RLF triggered handover
8027: LTE Handover (RLF trigger)(M8027C3)
• LTE1617: RLF triggered handover
8027: LTE Handover (RLF trigger)(M8027C3,M8027C5)
• LTE798: Performance Counter Histogram Package I
8005: LTE Power and Quality UL(M8005C105,M8005C106,M8005C107,M8005C108,M
• LTE798: Performance Counter Histogram Package I
8005: LTE Power and Quality UL(M8005C127,M8005C128,M8005C129,M8005C130,M
8006: LTE EPS Bearer(M8006C198,M8006C189)
8006: LTE EPS Bearer(M8006C199,M8006C190)
8006: LTE EPS Bearer(M8006C200,M8006C191)
8006: LTE EPS Bearer(M8006C198,M8006C216,M8006C189,M8006C207)
8006: LTE EPS Bearer(M8006C199,M8006C217,M8006C190,M8006C208)
8006: LTE EPS Bearer(M8006C200,M8006C218,M8006C191,M8006C209)
• LTE496: Support of QCI 2, 3 and 4
8001: LTE Cell Load(M8001C228)
• LTE496: Support of QCI 2, 3 and 4
8001: LTE Cell Load(M8001C229)
• LTE496: Support of QCI 2, 3 and 4
8001: LTE Cell Load(M8001C230)
• LTE872: SRVCC to WCDMA
8016: LTE Inter System Handover(M8016C29)
• LTE872: SRVCC to WCDMA
8016: LTE Inter System Handover(M8016C29,M8016C31)
• LTE872: SRVCC to WCDMA
8016: LTE Inter System Handover(M8016C29,M8016C30)
• LTE873: Relationship Model GERAN changes in eNB
8016: LTE Inter System Handover(M8016C33)
• LTE873: Relationship Model GERAN changes in eNB
8016: LTE Inter System Handover(M8016C33,M8016C35)
• LTE873: Relationship Model GERAN changes in eNB
8016: LTE Inter System Handover(M8016C33,M8016C34)
• LTE651: Performance Monitoring I • LTE55: Inter-frequency handover • LTE54: Intra-LTE handover via S1
8009: LTE Intra eNB Handover(M8009C6,M8009C7)8014: LTE Inter eNB Handover(M
• LTE651: Performance Monitoring I
8001: LTE Cell Load(M8001C7,M8001C6,M8001C8,M8001C286)
• LTE651: Performance Monitoring I • LTE1899: Dedicated PM-counters for E-RAB Management failure causes
8006: LTE EPS Bearer(M8006C7,M8006C6,M8006C9,M8006C8,M8006C180,M8006C
• LTE9: Service differentiation • LTE7: Support of multiple EPS bearer • LTE651: Performance Monitoring I • LTE1899: Dedicated PM-counters for E-RAB Management failure causes • LTE9: Service differentiation
8006: LTE EPS Bearer(M8006C98,M8006C89,M8006C116,M8006C107,M8006C176,M
8006: LTE EPS Bearer(M8006C98,M8006C89,M8006C116,M8006C107,M8006C266,M
• LTE7: Support of multiple EPS bearer • LTE1899: Dedicated PM-counters for E-RAB Management failure causes
8013: LTE UE State(M8013C5,M8013C19,M8013C17,M8013C18,M8013C21,M8013C • LTE651: Performance Monitoring I • LTE572: IMS emergency sessions • LTE22: Emergency call handling • LTE1074: Multimedia priority services •• LTE1361: Additional QoS performance 8006: LTE EPS Bearer(M8006C185,M8006C181,M8006C182,M8006C183,M8006C18 LTE651: Performance Monitoring I measurements • LTE1960: PM-Counters for E-RAB Establishment monitoring (non-GBR QCI) • LTE1740: PM Counters enhancement for RABmodification/context/TM7
• LTE651: Performance Monitoring I
8006: LTE EPS Bearer(M8006C181)
• LTE651: Performance Monitoring I
8006: LTE EPS Bearer(M8006C182)
• LTE651: Performance Monitoring I
8006: LTE EPS Bearer(M8006C183)
• LTE651: Performance Monitoring I
8006: LTE EPS Bearer(M8006C184)
• LTE651: Performance Monitoring I
8006: LTE EPS Bearer(M8006C185)
• LTE651: Performance Monitoring I
8006: LTE EPS Bearer(M8006C185,M8006C181,M8006C182,M8006C183,M8006C18
• LTE651: Performance Monitoring I
8006: LTE EPS Bearer(M8006C181,M8006C176)
• LTE651: Performance Monitoring I
8006: LTE EPS Bearer(M8006C182,M8006C177)
• LTE651: Performance Monitoring I
8006: LTE EPS Bearer(M8006C183,M8006C178)
• LTE651: Performance Monitoring I
8006: LTE EPS Bearer(M8006C184,M8006C179)
• LTE651: Performance Monitoring I
8006: LTE EPS Bearer(M8006C185,M8006C180)
• LTE651: Performance Monitoring I • LTE1899: Dedicated PM-counters for E-RAB Management failure causes
8006: LTE EPS Bearer(M8006C7,M8006C6,M8006C9,M8006C8,M8006C254,M8006C
• LTE651: Performance Monitoring I • LTE572: IMS emergency sessions • LTE22: Emergency call handling • LTE1047: Control plane overload handling •• LTE1074: services LTE1935: Multimedia PM counterspriority for E-RAB HO incoming; •RRC/ERAB LTE1361: Additional QoS performance setup time measurements
8013: LTE UE State(M8013C19,M8013C17,M8013C18,M8013C21,M8013C30,M8013
• LTE1935: PM counters for E-RAB HO incoming; RRC/ERAB setup time
8007: LTE Radio Bearer(M8007C15)
• LTE1935: PM counters for E-RAB HO incoming; RRC/ERAB setup time
8008: LTE RRC(M8008C17)
• LTE1935: PM counters for E-RAB HO incoming; RRC/ERAB setup time
8008: LTE RRC(M8008C18)
8007: LTE Radio Bearer(M8007C14)
• LTE1960: PM-Counters for E-RAB Establishment 8006: LTE EPS Bearer(M8006C224) monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment 8006: LTE EPS Bearer(M8006C225) monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment 8006: LTE EPS Bearer(M8006C226) monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment 8006: LTE EPS Bearer(M8006C227) monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment 8006: LTE EPS Bearer(M8006C228) monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment 8006: LTE EPS Bearer(M8006C229) monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment 8006: LTE EPS Bearer(M8006C230) monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment 8006: LTE EPS Bearer(M8006C231) monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment 8006: LTE EPS Bearer(M8006C232) monitoring (non-GBR QCI)
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
8006: LTE EPS Bearer(M8006C59,M8006C68)
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
8006: LTE EPS Bearer(M8006C60,M8006C69)
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
8006: LTE EPS Bearer(M8006C61,M8006C70)
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
8006: LTE EPS Bearer(M8006C62,M8006C71)
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
8006: LTE EPS Bearer(M8006C63,M8006C72)
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
8006: LTE EPS Bearer(M8006C55,M8006C56,M8006C57,M8006C58,M8006C59,M80
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
8006: LTE EPS Bearer(M8006C55,M8006C56,M8006C57,M8006C58,M8006C59,M80
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
8006: LTE EPS Bearer(M8006C55,M8006C56,M8006C57,M8006C58,M8006C59,M80
• LTE1800: Downlink interference shaping
8011: LTE Cell Resource(M8011C88,M8011C87)
• LTE1800: Downlink interference shaping
8011: LTE Cell Resource(M8011C89)
• LTE1042: Nominal Bitrate for non-GBR bearers
8006: LTE EPS Bearer(M8006C233)
• LTE1042: Nominal Bitrate for non-GBR bearers
8006: LTE EPS Bearer(M8006C234)
• LTE1042: Nominal Bitrate for non-GBR bearers
8006: LTE EPS Bearer(M8006C235)
• LTE1042: Nominal Bitrate for non-GBR bearers
8006: LTE EPS Bearer(M8006C236)
• LTE1042: Nominal Bitrate for non-GBR bearers
8006: LTE EPS Bearer(M8006C233,M8006C235)
• LTE1042: Nominal Bitrate for non-GBR bearers
8006: LTE EPS Bearer(M8006C233,M8006C236)
• LTE770: Basic Performance Counter Collection II 8008: LTE RRC(M8008C1)8013: LTE UE State(M8013C18) • LTE651: Performance Monitoring I
• LTE1960: PM-Counters for E-RAB Establishment 8006: LTE EPS Bearer(M8006C201,M8006C192) monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment 8006: LTE EPS Bearer(M8006C202,M8006C193) monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment 8006: LTE EPS Bearer(M8006C203,M8006C194) monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment 8006: LTE EPS Bearer(M8006C204,M8006C195) monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment 8006: LTE EPS Bearer(M8006C205,M8006C196) monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment 8006: LTE EPS Bearer(M8006C201,M8006C219,M8006C192,M8006C210) monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment 8006: LTE EPS Bearer(M8006C202,M8006C220,M8006C193,M8006C211) monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment 8006: LTE EPS Bearer(M8006C203,M8006C221,M8006C194,M8006C212) monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment 8006: LTE EPS Bearer(M8006C204,M8006C222,M8006C195,M8006C213) monitoring (non-GBR QCI)
• LTE1960: PM-Counters for E-RAB Establishment 8006: LTE EPS Bearer(M8006C205,M8006C223,M8006C196,M8006C214) monitoring (non-GBR QCI)
• LTE1935: PM counters for E-RAB HO incoming; RRC/ERAB setup time
8021: LTE Handover(M8021C25)
• LTE1935: PM counters for E-RAB HO incoming; RRC/ERAB setup time
8021: LTE Handover(M8021C25,M8021C30)
• LTE1935: PM counters for E-RAB HO incoming; RRC/ERAB setup time
8021: LTE Handover(M8021C35,M8021C25)
• LTE1935: PM counters for E-RAB HO incoming; RRC/ERAB setup time
8021: LTE Handover(M8021C36,M8021C25)
• LTE132: VLAN based traffic separation • LTE125: IPv6 for U/C-Plane
51127: LTE VLAN IP Statistics(M51127C1)
• LTE132: VLAN based traffic separation • LTE125: IPv6 for U/C-Plane
51127: LTE VLAN IP Statistics(M51127C3)
• LTE132: VLAN based traffic separation • LTE125: IPv6 for U/C-Plane
51127: LTE VLAN IP Statistics(M51127C3)
• LTE132: VLAN based traffic separation • LTE125: IPv6 for U/C-Plane
51127: LTE VLAN IP Statistics(M51127C1)
• LTE651: Performance Monitoring I
8001: LTE Cell Load(M8001C7,M8001C6)8029: LTE MAC(M8029C32)
• LTE1803: Downlink carrier aggregation 3 CC - 40 8001: LTE Cell Load(M8001C497) MHz • LTE1836: TDD downlink carrier aggregation - 60 Mhz • LTE1803: Downlink carrier aggregation 3 CC - 40 8001: LTE Cell Load(M8001C498) MHz • LTE1836: TDD downlink carrier aggregation - 60 Mhz • LTE1803: Downlink carrier aggregation 3 CC - 40 8001: LTE Cell Load(M8001C319,M8001C318,M8001C497) MHz • LTE1836: TDD downlink carrier aggregation - 60 Mhz • LTE1803: Downlink carrier aggregation 3 CC - 40 8001: LTE Cell Load(M8001C499) MHz • LTE1836: TDD downlink carrier aggregation - 60 Mhz • LTE1113: eICIC - macro
8011: LTE Cell Resource(M8011C112,M8011C113,M8011C114,M8011C115,M8011C11
• LTE1113: eICIC - macro
8001: LTE Cell Load(M8001C265)8011: LTE Cell Resource(M8011C112,M8011C113,M
• LTE1496: eICIC - micro
8011: LTE Cell Resource(M8011C118,M8011C128,M8011C119,M8011C120,M8011C1
• LTE1496: eICIC - micro
8011: LTE Cell Resource(M8011C129,M8011C139,M8011C130,M8011C131,M8011C1
• LTE651: Performance Monitoring I • LTE534: ARP based admission control for ERABs
8013: LTE UE State(M8013C13,M8013C16,M8013C15,M8013C10,M8013C9,M8013C
• LTE951: Enhanced cell ID location service
8000: LTE S1AP(M8000C43,M8000C44)
• LTE951: Enhanced cell ID location service
8000: LTE S1AP(M8000C45,M8000C43)
• LTE951: Enhanced cell ID location service
8000: LTE S1AP(M8000C46,M8000C43)
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
8006: LTE EPS Bearer(M8006C55,M8006C64)
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
8006: LTE EPS Bearer(M8006C56,M8006C65)
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
8006: LTE EPS Bearer(M8006C57,M8006C66)
• LTE1740: PM Counters enhancement for RABmodification/context/TM7
8006: LTE EPS Bearer(M8006C58,M8006C67)
• LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1321: eRAB modification - GBR
8006: LTE EPS Bearer(M8006C55,M8006C56,M8006C57,M8006C58,M8006C59,M80
• LTE1740: PM Counters enhancement for RABmodification/context/TM7 • LTE1321: eRAB modification - GBR
8006: LTE EPS Bearer(M8006C55,M8006C56,M8006C57,M8006C58,M8006C59,M80
• LTE1788: Automatic access class barring
8001: LTE Cell Load(M8001C319,M8001C322)
• LTE1836: TDD downlink carrier aggregation - 60 8011: LTE Cell Resource(M8011C166) Mhz • LTE1804: Downlink carrier aggregation 3 CC - 60 MHz •• LTE1921: eICICdownlink - micro carrier aggregation - 60 8011: LTE Cell Resource(M8011C167) LTE1836: TDD Mhz • LTE1804: Downlink carrier aggregation 3 CC - 60 MHz •• LTE1921: eICIC - micro 8020: LTE Cell Availability(M8020C6,M8020C7) LTE432: Cell Outage Detection • LTE1103: Load based Power Saving
• LTE651: Performance Monitoring I • LTE1899: Dedicated PM-counters for E-RAB Management failure causes
8006: LTE EPS Bearer(M8006C7,M8006C6,M8006C9,M8006C8,M8006C254,M8006C
• LTE651: Performance Monitoring I • LTE1899: Dedicated PM-counters for E-RAB Management failure causes
8006: LTE EPS Bearer(M8006C7,M8006C6,M8006C9,M8006C8,M8006C254,M8006C
• LTE651: Performance Monitoring I • LTE1899: Dedicated PM-counters for E-RAB Management failure causes
8006: LTE EPS Bearer(M8006C7,M8006C6,M8006C9,M8006C8,M8006C254,M8006C
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
8010: LTE Power and Quality DL(M8010C76,M8010C86,M8010C87,M8010C88,M801
• LTE651: Performance Monitoring I • LTE572: IMS emergency sessions • LTE22: Emergency call handling • LTE1074: Multimedia priority services •• LTE1361: QoSoverload performance LTE1047: Additional Control plane handling measurements • LTE1912: RRC establishment monitoring extensions
8013: LTE UE State(M8013C19,M8013C17,M8013C18,M8013C21,M8013C31,M8013
• LTE2023: User plane overload handling
8001: LTE Cell Load(M8001C319,M8001C299,M8001C300)
• LTE64: Service based handover thresholds
8021: LTE Handover(M8021C37)
• LTE64: Service based handover thresholds
8021: LTE Handover(M8021C37,M8021C38)
• LTE738: SRVCC to 1xRTT/CDMA
8016: LTE Inter System Handover(M8016C36)
• LTE738: SRVCC to 1xRTT/CDMA
8016: LTE Inter System Handover(M8016C36,M8016C40)
• LTE738: SRVCC to 1xRTT/CDMA
8016: LTE Inter System Handover(M8016C36,M8016C37)
8001: LTE Cell Load(M8001C149,M8001C152,M8001C319)
• LTE738: SRVCC to 1xRTT/CDMA
8016: LTE Inter System Handover(M8016C36,M8016C38)
• LTE738: SRVCC to 1xRTT/CDMA
8016: LTE Inter System Handover(M8016C36,M8016C39)
• LTE738: SRVCC to 1xRTT/CDMA
8016: LTE Inter System Handover(M8016C36,M8016C37,M8016C38,M8016C39,M80
• LTE738: SRVCC to 1xRTT/CDMA
8016: LTE Inter System Handover(M8016C41)
• LTE738: SRVCC to 1xRTT/CDMA
8016: LTE Inter System Handover(M8016C41,M8016C42)
• LTE1900: Centralized RAN
8012: LTE Cell Throughput(M8012C89)8029: LTE MAC(M8029C33)
• LTE1900: Centralized RAN
8012: LTE Cell Throughput(M8012C89)8029: LTE MAC(M8029C34)
• LTE1900: Centralized RAN
8012: LTE Cell Throughput(M8012C89)8029: LTE MAC(M8029C35)
• LTE1357: Load balancing between LTE and UTRAN
8016: LTE Inter System Handover(M8016C43)
• LTE1357: Load balancing between LTE and UTRAN
8016: LTE Inter System Handover(M8016C43,M8016C44)
• LTE1357: Load balancing between LTE and UTRAN
8001: LTE Cell Load(M8001C319)8011: LTE Cell Resource(M8011C162)
• LTE1089: Downlink carrier aggregation • LTE1558: TDD Downlink carrier aggregation • LTE2006: Flexible Scell selection
8011: LTE Cell Resource(M8011C68,M8011C165)
• LTE1117: LTE MBMS
8030: LTE MBMS(M8030C1)
• LTE1117: LTE MBMS
8030: LTE MBMS(M8030C3)
• LTE1117: LTE MBMS
8030: LTE MBMS(M8030C2)
• LTE1117: LTE MBMS
8030: LTE MBMS(M8030C4)
• LTE1117: LTE MBMS
8030: LTE MBMS(M8030C5)
• LTE1117: LTE MBMS
8030: LTE MBMS(M8030C6)
• LTE2051: Measurement based Idle Mode Load Balancing
8034: LTE EUTRA carrier frequency(M8034C0)
• LTE2051: Measurement based Idle Mode Load Balancing
8034: LTE EUTRA carrier frequency(M8034C0,M8034C1)
• LTE798: Performance Counter Histogram Package I • LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
8010: LTE Power and Quality DL(M8010C36,M8010C37,M8010C38,M8010C39,M801
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
8016: LTE Inter System Handover(M8016C45)
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
8016: LTE Inter System Handover(M8016C45,M8016C46)
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
8016: LTE Inter System Handover(M8016C47)
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
8016: LTE Inter System Handover(M8016C47,M8016C48)
• LTE2175: PM counter enhancement for CSFB to 1xRTT, CQI level
8016: LTE Inter System Handover(M8016C47,M8016C49)
• LTE770: Basic Performance Counter Collection II 8012: LTE Cell Throughput(M8012C20)8011: LTE Cell Resource(M8011C54) • LTE805: Perf Counter Plus Package for Res Utilization and Throughput I • LTE770: Basic Performance Counter Collection II 8012: LTE Cell Throughput(M8012C19)8011: LTE Cell Resource(M8011C50) • LTE805: Perf Counter Plus Package for Res Utilization and Throughput I • LTE1402: Uplink intra eNode B CoMP
8001: LTE Cell Load(M8001C198,M8001C295)8012: LTE Cell Throughput(M8012C89
• LTE432: Cell Outage Detection
8020: LTE Cell Availability(M8020C6,M8020C3)
• LTE432: Cell Outage Detection • LTE1103: Load based Power Saving
8020: LTE Cell Availability(M8020C6,M8020C4)
• LTE432: Cell Outage Detection • LTE1103: Load based Power Saving
8020: LTE Cell Availability(M8020C6,M8020C5)
• LTE651: Performance Monitoring I • LTE1899: Dedicated PM-counters for E-RAB Management failure causes
8006: LTE EPS Bearer(M8006C0,M8006C251,M8006C247)
• LTE651: Performance Monitoring I • LTE1899: Dedicated PM-counters for E-RAB Management failure causes
8006: LTE EPS Bearer(M8006C0,M8006C252)
• LTE651: Performance Monitoring I • LTE1899: Dedicated PM-counters for E-RAB Management failure causes
8006: LTE EPS Bearer(M8006C0,M8006C253)
• LTE651: Performance Monitoring I • LTE761: Advanced target cell selection and HO retry for intra- freq HO • LTE1899: Dedicated PM-counters for E-RAB Management failure causes
8006: LTE EPS Bearer(M8006C7,M8006C6,M8006C9,M8006C8,M8006C14,M8006C2
Unknown(M8001C489)
Unknown(M8001C490)
Unknown(M8001C491)
Unknown(M8001C492)
8001: LTE Cell Load(M8001C265,M8001C264)
8001: LTE Cell Load(M8001C267,M8001C266)
• LTE770: Basic Performance Counter Collection II 8001: LTE Cell Load(M8001C148)
• LTE770: Basic Performance Counter Collection II 8001: LTE Cell Load(M8001C151)
8018: LTE eNB Load(M8018C9,M8018C8)
• LTE9: Service differentiation
8001: LTE Cell Load(M8001C227)
• LTE9: Service differentiation
8001: LTE Cell Load(M8001C235)
• LTE10: EPS bearers for conversational voice • LTE496: Support of QCI 2, 3 and 4
8001: LTE Cell Load(M8001C419)
• LTE10: EPS bearers for conversational voice • LTE496: Support of QCI 2, 3 and 4
8001: LTE Cell Load(M8001C420)
• LTE770: Basic Performance Counter Collection II 8012: LTE Cell Throughput(M8012C17)
8006: LTE EPS Bearer(M8006C9,M8006C8,M8006C254,M8006C255,M8006C258,M8 • LTE651: Performance Monitoring I • LTE770: Basic Performance Counter Collection II • LTE1899: Dedicated PM-counters for E-RAB Management failure causes
• LTE770: Basic Performance Counter Collection II 51123: LTE Ethernet Link(M51123C0)
51129: LTE VLAN Statistics(M51129C1)
• LTE770: Basic Performance Counter Collection II 51123: LTE Ethernet Link(M51123C1)
• LTE770: Basic Performance Counter Collection II 51129: LTE VLAN Statistics(M51129C3) • LTE806: Performance Counter Plus Package for Transport I • LTE770: Basic Performance Counter Collection II 51123: LTE Ethernet Link(M51123C4,M51123C2)Unknown(M51123C7)
KPI Logical Formula
KPI Formula (with Counter IDs)
DRB SSR=(DRB setup successes / DRB setup attempts)*100%
100*sum([M8007C1]) / sum([M8007C0])
RB DR = (abnormal RB releases / 100*sum([M8006C261] + [M8006C254] total RB releases) * 100% [M8006C255] - [M8006C258] - [M8006C260] + [M8006C8] + [M8006C9])/sum([M8006C254] + [M8006C263] + [M8006C261] + [M8006C6] + [M8006C7] + [M8006C8] + [M8006C9]) S1 init Cont SSR=(initial context 100*sum([M8013C47]) / sum([M8013C45]) setup successes / initial context setup attempts)*100% S1 SSR=(S1 setup successes / S1 setup attempts)*100%
100*sum([M8000C7]) / sum([M8000C6])
E-RAB SSR=(E-RAB setup successes / E-RAB setup attempts)*100%
100*sum([M8006C1]) / sum([M8006C0])
E-RAB NRR UP = (normal E-RAB 100*sum([M8006C255] + [M8006C258] + releases user perspective / all E- [M8006C260] + [M8006C6] + RAB releases) * 100% [M8006C7])/sum([M8006C254] + [M8006C261] + [M8006C6] + [M8006C7] + [M8006C8] + [M8006C9]) E-RAB NRR RAN = (normal E100*sum([M8006C255] + [M8006C258] + RAB releases RAN view / all ERAB releases) * 100%
[M8006C260] + [M8006C6] + [M8006C7] + [M8006C8] + [M8006C9])/sum([M8006C254] + [M8006C261] + [M8006C6] + [M8006C7] + [M8006C8] + [M8006C9]) 100*sum([M8006C261] + [M8006C254] -
E-RAB DR RAN = (abnormal ERAB releases from RAN point of [M8006C255] - [M8006C258] view / all E-RAB releases) * 100% [M8006C260])/sum([M8006C254] + [M8006C261] + [M8006C6] + [M8006C7] + [M8006C8] + [M8006C9]) Paging DCR=(discarded RRC 100*sum([M8008C2]) / sum([M8008C1]) paging records / transmitted RRC paging records)*100% Intra HO SR =(number of successful intra eNB HOs) / (number of intra eNB HO attempts)*100%
100*sum([M8009C7]) / sum([M8009C6])
Intra HO prep SR =(number of successful intra eNB HO prep) / (total number of intra enB HO preparations)*100% =(number of =(number intra eNB HO Intra HO FR of attempts) / unsuccessful intra eNB HOs) / (total number of intra (number of intra eNB eNB HO HO preparations)*100% attempts)*100%
100*sum([M8009C6]) / sum([M8009C2])
Intra tot HO SR= (intra eNB HO prep successes) / (intra eNB HO preparations) * (intra eNB HO successes) / (intra eNB attempts) Inter HO X2 based HO *100% SR =(number = of successful inter eNB X2 (intra HO basedeNB HOs) / attempts) / (intra eNB HO preparations) * based (number of inter eNB X2 (intra eNB HO successes) / (intra HO attempts)*100% Inter X2 based HO prep SR eNB HO attempts)*100% =(number of successful inter eNB = X2 based / (intra eNBHO HOprep) successes) / (intra (total number of inter eNB X2 eNB HO preparations)*100% based preparations)*100%= Inter X2HO based HO FR =(number (number of inter inter eNB eNB X2 based of unsuccessful X2 HO attempts) / based HOs) / (total number of inter X2 (number of inter eNB eNB X2 based based HO preparations)*100% HO Interattempts)*100% tot X2 based HO SR= (inter eNB X2 based HO prep successes) / (inter eNB X2 based HO preparations) * Init E-RAB ACSS= (inter eNB X2 based HO* UE RRCConnEstSuccRate successes) / LOGS1 Succ rate * InitialE(inter eNB X2 based HO attempts) RABSetupSuccRate * 100 % *100%= AVG X2X2 SIG THP HO = attempts) (inter IN eNB based (incoming X2AP signaling / volume)*8 / based HO (inter eNB X2 (MEASUREMENT_DURATION)*6 preparations) * 0*1000 (inter eNB X2 X2 SIG based HO= AVG OUT THP successes) / (outgoing X2AP signaling (inter eNB X2 volume)*8 / based HO attempts)*100%= (MEASUREMENT_DURATION)*6 (inter eNB X2 based HO 0*1000 AVG X2 DAT/ THP IN= successes) (incoming userHO plane data (inter eNB X2AP X2 based volume)*8/1000 / preparations)*100% (MEASUREMENT_DURATION)*6 0 AVG X2 DAT THP OUT=
100*sum([M8009C7]) / sum([M8009C2])
100*sum([M8009C8]) / sum([M8009C6])
100*sum([M8014C7]) / sum ([M8014C6])
100*sum([M8014C6]) / sum ([M8014C0])
100*sum([M8014C8]) / sum ([M8014C6])
100*sum([M8014C7]) / sum([M8014C0])
100*(sum([M8013C5]) / sum([M8013C17] + [M8013C18] + [M8013C19] + [M8013C34] + [M8013C31]] + [M8013C21])) * (sum([M8013C44]) sum([M8004C0])*8 // sum([M8013C43])) (sum(PERIOD_DURATION *)*60*1000) (sum([M8006C206] + [M8006C207] + [M8006C208] + [M8006C209] + [M8006C210] + [M8006C211] + [M8006C212] + [M8006C213] + sum([M8004C1])*8 / (sum(PERIOD_DURATION [M8006C214]) / sum([M8006C188] + )*60*1000) [M8006C189] + [M8006C190] + [M8006C191] + [M8006C192] + [M8006C193] + [M8006C194] + [M8006C195] + [M8006C196])) sum([M8004C2])*8/1000 / (sum(PERIOD_DURATION )*60)
sum([M8004C3])*8/1000 / (outgoing X2AP user plane data (sum(PERIOD_DURATION )*60) volume)*8/1000 / (MEASUREMENT_DURATION)*6 0
IP VOL UL=(outgoing IP octets [kB]) / 1000
sum([M51120C3]) / 1000
IP VOL IN=(incoming IP octets)
sum([M51120C1])/1000
IP THP UL = (outgoing IP octets [kB])*8 / measurement duration [sec]
sum([M51120C3]) *8 / (sum(MEASUREMENT_DURATION)*60)
IP THP DL=(incoming IP octets [kB])*8 / measurement duration [sec]
sum([M51120C1]) *8 / (sum(MEASUREMENT_DURATION )*60)
IP IN ER = (incoming erroneous IP 100 * sum([M51120C4]) / sum([M51120C0] + packets) / (total incoming IP [M51120C4]) packets) Inter Si based HO prep SR =(number of successful inter eNB S1 based HO prep) / (total number of inter eNB S1 based preparations)*100% Inter S1HO based HO prep FDR =(number of =(number of inter inter eNB eNB S1 S1 based based HO attempts) / HO prep failure_x) / (total (total number number of of inter inter eNB eNB S1 S1 based HO preparations)*100% based HO preparations)*100% Inter S1 based HO prep FDR =(number of inter eNB S1 based HO prep failure_x) / (total number of inter eNB S1 based preparations)*100% Inter S1HO based HO prep FDR
100*sum([M8014C18]) / sum([M8014C14])
100*sum([M8014C15]) / sum([M8014C14])
100*sum([M8014C16]) / sum([M8014C14])
100*sum([M8014C17]) / sum([M8014C14])
=(number of inter eNB S1 based HO prep failure_x) / (total number of inter eNB S1 based preparations)*100% Inter S1HO based HO SR =(number
100*sum([M8014C19]) / sum([M8014C18])
of successful inter eNB S1 based HOs) / (number of inter eNB S1 based HO Interattempts)*100% S1 based HO FR =(number
100*sum([M8014C20]) / sum([M8014C18])
of unsuccessful inter eNB S1 based HOs) / (number of inter eNB S1 based HO Interattempts)*100% tot S1 based HO SR=
100*sum([M8014C19]) / sum([M8014C14])
(inter eNB S1 based HO prep successes) / (inter eNB S1 based HO preparations) * (inter eNB S1 based HO successes) / (inter eNB S1 based HO attempts) *100% = (inter eNB S1 based HO attempts) / (inter eNB S1 based HO preparations) * (inter eNB S1 based HO successes) / (inter eNB S1 based HO attempts)*100%
E-RAB SFRCause = (E-RAB setup failure_x / E-RAB setup attempts) * 100%
100*sum([M8006C246] + [M8006C250]) / sum([M8006C0])
E-RAB SFRCause = (E-RAB setup failure_x / E-RAB setup attempts) * 100%
100*sum([M8006C245] + [M8006C249]) / sum([M8006C0])
E-RAB SFRCause = (E-RAB setup failure_x / E-RAB setup attempts) * 100%
100*sum([M8006C244] + [M8006C248]) / sum([M8006C0])
E-RAB SFRCause = (E-RAB setup failure_x / E-RAB setup attempts) * 100%
100*sum([M8006C0] - [M8006C1] [M8006C246] - [M8006C250] - [M8006C245] [M8006C249] - [M8006C244] - [M8006C248]) / sum([M8006C0])
E-RAB DRCause = (abnormal ERAB release request_x / all ERAB releases) * 100%
100*sum([M8006C256]) / sum([M8006C254] + [M8006C261] + [M8006C6] + [M8006C7] + [M8006C8] + [M8006C9])
E-RAB DRCause = (abnormal ERAB release request_x / all ERAB releases) * 100%
100*sum([M8006C257]) / sum([M8006C254] + [M8006C261] + [M8006C6] + [M8006C7] + [M8006C8] + [M8006C9])
E-RAB DRCause = (abnormal ERAB release request_x / all ERAB releases) * 100%
100*sum([M8006C254] - [M8006C256] [M8006C257] - [M8006C264] - [M8006C255] [M8006C258] - [M8006C259] - [M8006C260]) / sum([M8006C254] + [M8006C261] + + [M8006C7] S1 SFRCause=(S1 setup failure_x [M8006C6] 100*sum([M8000C8]) / + [M8006C8] + [M8006C9]) / S1 setup sum([M8000C6]) attempts)*100% S1 SFRCause=(S1 setup failure_x 100*sum([M8000C9]) / / S1 setup sum([M8000C6]) attempts)*100% Intra HO prep FRCause =(number 100*sum([M8014C3]) / of intra eNB HO prep sum([M8009C2]) failure_x) / (total number of intra enB HO preparations)*100% Intra HO prep FRCause =(number 100*sum([M8009C5]) / of intra eNB HO prep sum([M8009C2]) failure_x) / (total number of intra enB HO preparations)*100% Inter X2 based HO prep FR = (number of inter eNB X2 based HO prep failure_x) / (total number of inter eNB X2 based HO preparations)*100%
100*sum([M8014C2]) / sum([M8014C0])
Inter X2 based HO prep FR = (number of inter eNB X2 based HO prep failure_x) / (total number of inter eNB X2 based preparations)*100% Inter X2HO based HO prep FR = (number of inter eNB X2 based HO prep failure_x) / (total number of inter eNB X2 based HO preparations)*100% CSFB AttDR=( CS Fallback
100*sum([M8014C3]) / sum ([M8014C0])
100*sum([M8014C5]) / sum ([M8014C0])
100*sum([M8016C12]) / sum([M8016C11])
Attempts _x / CS Fallback Attempts all)*100% CSFB AttDR=( CS Fallback Attempts _x / CS Fallback Attempts all)*100%
100*sum([M8016C11] - [M8016C12]) / sum([M8016C11])
CSFB AttDR=( CS Fallback Attempts _x / CS Fallback Attempts all)*100%
100*sum([M8016C13]) / sum([M8016C11])
E-RAB ISSR=(intial E-RAB setup successes / initial E-RAB setup attempts)*100%
100* sum([M8006C206]+ [M8006C207] + [M8006C208] + [M8006C209] + [M8006C210] + [M8006C211] + [M8006C212] + [M8006C213] + [M8006C214]) /sum([M8006C188]+ [M8006C189] + [M8006C190] + [M8006C191] + 100* sum([M8006C215]+ [M8006C216] + [M8006C192] + [M8006C193] + [M8006C194] [M8006C217] + [M8006C218] + [M8006C219] + + [M8006C195] [M8006C220] + + [M8006C196]) [M8006C221] + [M8006C222] +
E-RAB ASSR=(additional E-RAB setup successes / additional ERAB setup attempts)*100%
[M8006C223]) /sum([M8006C197]+ + [M8006C199] + [M8006C200] + Inter Frequency HO SR = (number [M8006C198] 100*sum([M8021C2]) / sum([M8021C0]) [M8006C201] + [M8006C202] + [M8006C203] + of successful Inter-Frequency [M8006C204] + [M8006C205]) HOs) / (number of Inter-Frequency HO attempts)*100% Inter Frequency HO SR = (number 100*sum([M8021C3]) / sum([M8021C1]) of successful Inter-Frequency HOs measurement gap assisted) / (number of Inter-Frequency HO attempts measurement DATA_RB_STP_ATT = gap DATA_RB_STP_ATT = sum([M8007C0]) assisted)*100% DATA_RB_STP_ATT
RB SR = 100 - RB DR
E-RAB Satt= E-RAB setup attempts
100 - 100*sum([M8006C261] + [M8006C254] [M8006C255] - [M8006C258] - [M8006C260] + [M8006C8] + [M8006C9])/sum([M8006C254] + [M8006C263] + [M8006C261] + [M8006C6] + [M8006C7] + [M8006C8] + [M8006C9]) sum([M8006C0])
E-RAB DR UP = (abnormal E-RAB 100*sum([M8006C261] + [M8006C254] release requests, user perspective [M8006C255] - [M8006C258] - [M8006C260] + / all E-RAB releases) * 100% [M8006C8] + [M8006C9])/sum([M8006C254] + [M8006C261] + [M8006C6] + [M8006C7] + [M8006C8] + [M8006C9]) S1 init Cont SAtt= initial context sum([M8013C45]) setup attempts
S1 SattR = S1 setup attempts
sum([M8000C6])
Paging Records = transmitted RRC paging records
sum([M8008C1])
Intra HO preps = (total number of intra eNB HO preparations)
sum([M8009C2])
Intra HO Att =(number of intra eNB sum([M8009C6]) HO attempts)
Inter X2 based HO Att = (number of inter eNB X2 based HO attempts)
sum ([M8014C6])
Inter X2 based HO preparations = sum ([M8014C0]) (total number of inter eNB X2 based HO preparations) Inter Si based HO preparations = (total number of inter eNB S1 based HO preparations)
sum([M8014C14])
LatencyAvgDL=PDCP SDU delay avg([M8001C2]) on DL DTCH Mean
LatencyAvgUL=PDCP SDU delay avg([M8001C5]) on UL DTCH Mean
SIGN_CONN_REESTAB_ATT = SIGN_CONN_REESTAB_ATT_H O
sum([M8008C6])
SIGN_CONN_REESTAB_ATT = SIGN_CONN_REESTAB_ATT_O THER
sum([M8008C8])
RRC REEST SSR=(RRC 100*sum([M8008C5]) / sum([M8008C4]) connection re-establishment completions / RRC connection reestablishment attempts)*100% RRC REEST RejR=(RRC connection re-establishment rejections / RRC connection reestablishment attempts)*100%
100*sum([M8008C0]) / sum([M8008C4])
RRC REEST FailR=( RRC connection re-establishment attempts - RRC connection reestablishment completions - RRC connection re-establishment S1 PartRDR=(S1 partial reset_x / rejections) / (RRC connection reS1 Partial reset)*100% establsishment attempts)*100%
100*sum([M8008C4]- [M8008C5] - [M8008C0]) / sum([M8008C4])
S1 PartRDR=(S1 partial reset_x / S1 Partial reset)*100%
100*sum([M8000C16]) / sum([M8000C15] + [M8000C16])
100*sum([M8000C15]) / sum([M8000C15] + [M8000C16])
GCST DR x =( UE CONT REL S1 100*sum([M8018C5] + [M8018C7]) / reset x/ UE before GCST)*100% sum([M8018C8]/[M8018C9])
GCST DR x =( UE CONT REL S1 100*sum([M8018C4] + [M8018C6]) / reset x/ UE before GCST)*100% sum([M8001C318]/[M8001C319])
IMS HO preps = sum([M8021C6]) (total number HO preparations for IMS emergency sessions) HO prep IMS SR =(number of successful HO prep IMS) / (total number of HO preparations IMS)*100% =(number ofIMS HO IMS attempts) of / Intra HO att SR =(number (total number of HO IMS HO IMS attempts preparations)*100%
100*sum([M8021C12]) / sum([M8021C6])
HO IMS SR =(number of successful HO compl IMS) / (total number of HO attempts IMS)*100% =(number of HO IMS compl) / (total number of HO IMS attempts)*100%
100*sum(([M8021C15])/ sum([M8021C12])
sum([M8021C12])
Intra tot HO IMS SR= (HO IMS prep successes) / (HO IMS preparations) * (HO IMS successes) / (HO IMS attempts) *100% Total PDCCH Orders = Number of = Total PDCCH order attempts (HO IMS attempts) / (HO IMS preparations) * (HO IMS successes) / (HO IMS Initial PDCCH Orders = Number of attempts)*100% Initial PDCCH order attempts = (HO IMS successes) / (HO IMS preparations)*100% PDCCH Order SR = 100*(Number of Succ Orders/ Initial PDCCH Order Atts)
100*sum(([M8021C15])/ sum([M8021C6])
Total PDCCH Order SR = 100*(Number of Succ Orders/ ( Initial PDCCH Order Atts + Unavailability of dedicated preamble PDCCH order of Unav Dedfor Pream x = Number purposes)) unavailability of dedicated
100*sum([M8001C423])/sum([M8001C422] + [M8001C425])
sum([M8001C421])
sum([M8001C422])
100*sum([M8001C423])/sum([M8001C422])
sum([M8001C425])
preamble x Unav Ded Pream x = Number of unavailability of dedicated preamble x
sum([M8001C426])
Unav Ded Pream x = Number of unavailability of dedicated preamble x
sum([M8001C424] - [M8001C425] [M8001C426])
Late HOs = Number of Late HO Events
sum([M8021C20])
Type1 Early HOs = Number of Type 1 Early HO Events
sum([M8021C21])
Type2 Early HOs = Number of Type 2 Early HO Events
sum([M8021C22])
HO ATT UE DRX SR = number of sum([M8021C18]) HO UE DRX attempts
HO UE DRX SR =(number of successful HO UE DRX compl) / (number of HO UE DRX attempts)*100%
100*sum([M8021C19]) / sum([M8021C18])
NACC ATT LTE GSM = number of sum([M8016C26]) NACC Attempts from LTE to GSM
Inter RAT HO preps = (total number of inter RAT HO preparations)
sum([M8016C14])
Inter RAT HO prep SR =(number 100*sum([M8016C21]+[M8016C29]+ of successful inter RAT HO prep) / [M8016C33])/ sum([M8016C14]) (total number of inter RAT HO preparations)*100% =(number of inter HO Inter RAT HO prepRAT FRCause 100*sum([M8016C15]) / sum([M8016C14]) attempts) / =(number of inter RAT HO prep (total number of inter RAT HO failure_x) / preparations)*100% (total number of inter RAT HO preparations)*100% Inter RAT HO prep FRCause =(number of inter RAT HO prep failure_x) / (total number of inter RAT HO preparations)*100% Inter RAT HO prep FRCause
100*sum([M8016C16]) / sum([M8016C14])
100*sum([M8016C17]) / sum([M8016C14])
=(number of inter RAT HO prep failure_x) / (total number of inter RAT HO preparations)*100% Inter RAT PS-HO WCDMA SR =
100*sum([M8016C23]) / sum([M8016C21]) (number of successful inter RAT PS-HOs WCDMA) / (number of inter RAT HO WCDMA attempts) 100% WCDMA Att = Inter RAT *PS-HO sum([M8016C21]) (number of inter RAT PS-HO WCDMA attempts) Inter RAT PS-HO WCDMA FR = 100*sum([M8016C25]) / sum([M8016C21]) (number of unsuccessful inter RAT PS-HOs WCDMA) / (number of inter RAT PS-HO WCDMA * 100% Inter RATattempts) tot HO SR= 100* sum([M8016C23]+[M8016C30]+ (inter RAT HO prep successes) / [M8016C34])/ sum([M8016C14]) (inter RAT HO preparations) * (inter RAT HO successes) / (inter RAT *100% IP INHO ER=attempts) (incoming erroneous IP 100*sum([M51127C4]) / sum([M51127C0]+ = packets) / [M51127C4]) (inter RAT HO attempts) / (inter (total incoming IP packets) RAT HO preparations) * (inter RAT HO successes) / (inter RAT HO attempts)*100% = (inter RAT HO successes) / (inter RAT HO preparations)*100%
E-RAB IMS ASatt= Add E-RAB sum([M8000C32]) setup attempts IMS Emg Sessions
E-RAB IMS ASSR=(Add E-RAB 100*sum([M8000C33]) / (sum[M8000C32]) setup successes for IMS emr sess / Add E-RAB setup attempts for IMS emer sess)*100% E-RAB IMS AS Fail = Additional E- sum([M8000C34]) RAB setup failures IMS Emg Sessions E-RAB SSR QCI1=(E-RAB setup successes QCI1 / E-RAB setup attempts QCI1)*100%
100*sum([M8006C206] + [M8006C215]) / sum([M8006C188] + [M8006C197])
E-RAB Satt QCI1= E-RAB setup init attempts for QCI1 + E-RAB setup add attempts for QCI1
sum([M8006C188] + [M8006C197])
E-RAB Satt nGBR= E-RAB setup attempts for non GBR
sum([M8006C192] + [M8006C193] + [M8006C194] + [M8006C195] + [M8006C196] + [M8006C201] + [M8006C202] + [M8006C203] + [M8006C204] + [M8006C205]))
UL RLC PDU ReTrR= (number of received duplicated RLC PDUs) / (number all received RLC PDUs)
sum([M8001C144]) / sum([M8001C142])*100
DL RLC PDU ReTrR= (number of retrans. RLC PDUs) / (number all trans RLC PDUs)
sum([M8001C138]) / sum([M8001C137]+ [M8001C138])*100
E-RAB QCI1 NRR UP = (normal E-RAB QCI1 releases user perspective / all E-RAB QCI1 releases) * 100%
100*sum([M8006C267] + [M8006C270] + [M8006C272] + [M8006C89] + [M8006C98]) / sum([M8006C89] + [M8006C98] + [M8006C107] + [M8006C116] + [M8006C266] + [M8006C273]) sum([M8012C18])/1000
DL RLC PDU VOL= (DL transmitted RLC PDU volume)
DL PDCP SDU VOL= PDCP SDU sum([M8012C20])/1000000 VOL DL
UL PDCP SDU VOL= PDCP SDU sum([M8012C19])/1000000 VOL UL
MAX ACT UE ENB=(maximum of Max (sum([M8018C8])/sum([M8018C9])) average number of active UEs per eNB) DL MAC PDU ReTrR= (number of retrans. MAC PDUs) / (number all trans MAC PDUs)
sum([M8001C12]) / sum([M8001C11]+ [M8001C12])*100
E-RAB SSR non GBR=(E-RAB setup successes non GBR / ERAB setup attempts non GBR)*100%
100*sum (([M8006C210] + M8006C211] + M8006C212] + M8006C213] + M8006C214] + [M8006C219] + [M8006C220] + [M8006C221] + [M8006C222] + [M8006C223]) / + [M8006C193] + RCC Con SSR = (RRC connection sum([M8006C192] 100*sum([M8013C5]) / sum([M8013C17] + [M8006C194] + [M8006C195] + [M8006C196] setup completions / RRC [M8013C18] + [M8013C19] + [M8013C34] + + [M8006C201] [M8006C202] + [M8006C203] + connection requests) * 100% [M8013C31] ++[M8013C21]) [M8006C204] + [M8006C205])) UE ECM_IDLE SuccR=(normal transactions / all transactions)*100%
100*sum([M8013C13]+ [M8013C10]+ [M8013C9]+ [M8013C28])/ ([M8013C13]+ [M8013C16]+ [M8013C15] + [M8013C10]+ [M8013C12] + RCC Con SSR EMG = (RRC 100*sum([M8013C26]) [M8013C11]+ connection setup completions for / sum([M8013C21]) emergency calls / RRC connection [M8013C9]+ [M8013C28]) requests for emergency calls) * 100% SIGN_CONN_ESTAB_ATT = sum([M8013C21]) SIGN_CONN_ESTAB_ATT_x
(RRC connection setup failure_x / 100*sum([M8013C6]) / sum([M8013C17] + RRC connection requests) * 100% [M8013C18] + [M8013C19] + [M8013C34] + [M8013C31]] + [M8013C21]) (RRC connection setup failure_x / 100*sum([M8013C7]) / sum([M8013C17] + RRC connection requests) * 100% [M8013C18] + [M8013C19] + [M8013C34] + [M8013C31]] + [M8013C21]) SIGN_CONN_ESTAB_ATT = SIGN_CONN_ESTAB_ATT_x
sum ([M8013C17])
SIGN_CONN_ESTAB_ATT = SIGN_CONN_ESTAB_ATT_x
sum([M8013C18])
SIGN_CONN_ESTAB_ATT = SIGN_CONN_ESTAB_ATT_x
sum([M8013C19])
E-RAB DRCause = (abnormal ERAB release request_x / all ERAB releases) * 100%
100*sum([M8006C8]) / sum([M8006C254] + [M8006C261] + [M8006C6] + [M8006C7] + [M8006C8] + [M8006C9])
E-RAB DRCause = (abnormal ERAB release request_x / all ERAB releases) * 100%
100*sum([M8006C9]) / sum([M8006C254] + [M8006C261] + [M8006C6] + [M8006C7] + [M8006C8] + [M8006C9])
CELL AVR BLU = 100*sum([M8020C3]/([M8020C6]-[M8020C4])) (number of samples when cell is available) / (number of all samples number of samples when cell Inter S1 based HO is Att = (number sum([M8014C18]) planned unavailable ) HO of inter eNB S1 based attempts) ACT UE Area=( average number of RRC connected UEs)
sum([M8001C318])/sum([M8001C319])
Inter RAT HO SR =(number of successful inter RAT HOs) / (number of inter RAT HO attempts)*100%
100*sum([M8016C23]+[M8016C30]+ [M8016C34]) / sum([M8016C21]+[M8016C29]+ [M8016C33])
Inter RAT HO Att = (number of inter RAT HO attempts)
sum([M8016C21]+[M8016C29]+[M8016C33])
Inter RAT HO FR =(number of unsuccessful inter RAT HOs) / (number of inter RAT HO attempts)*100%
100*sum([M8016C25]+[M8016C31]+ [M8016C35]) / sum([M8016C21]+[M8016C29]+ [M8016C33])
PDCPSDUDiscRDL= 100 x (Number of discarded PDCP SDUs in DL)/ (Total number of PDCP SDUs in DL)
100* sum([M8001C155])/ sum([M8001C154]+ [M8026C259]+[M8001C155])
PDCPSDUDiscRDLQCI1= 100 x (Number of discarded PDCP SDUs in DL per QCI1)/ (Total number of PDCP SDUs in DL per QCI1) PDCPSDUDiscRDLQCI2= 100 x
100*sum([M8001C323])/ sum([M8001C314]+ [M8026C260]+[M8001C323])
(Number of discarded PDCP SDUs in DL per QCI2)/ (Total number of PDCP SDUs in DL per QCI2) PDCPSDUDiscRDLQCI3= 100 x (Number of discarded PDCP SDUs in DL per QCI3)/ (Total number of PDCP SDUs in DL per QCI3)
100*sum([M8001C324])/ sum([M8001C315]+ [M8026C261]+[M8001C324])
100*sum([M8001C325])/ sum([M8001C316]+ [M8026C262]+[M8001C325])
PDCPSDUDiscRDLQCI4= 100 x 100*sum([M8001C326])/ sum([M8001C317]+ (Number of discarded PDCP [M8026C263]+[M8001C326]) SDUs in DL per QCI4)/ (Total number of PDCP SDUs in DL per QCI4) PDCPSDUDiscRDLnonGBR= 100 100*sum([M8001C155]-[M8001C323]x (Number of discarded PDCP [M8001C324]-[M8001C325]-[M8001C326])/ SDUs in DL per nonGBR)/ (Total sum([M8001C154]+[M8026C259] number of PDCP SDUs in DL per ([M8001C314]+[M8026C260])- ([M8001C315]+ nonGBR) [M8026C261])([M8001C316]+[M8026C262])S1 WR SR=(S1 WRITE100*sum([M8000C40] - [M8000C26]) / ([M8001C317]+[M8026C263])+[M8001C155]REPLACE Warning Responses/ sum([M8000C39]) [M8001C323]-[M8001C324]-[M8001C325]S1 WRITE-REPLACE Warning [M8001C326]) Requests)*100% S1 WR = S1 WRITE-REPLACE Warning Requests
sum([M8000C39])
S1 KR SR=( S1 KILL-RESPONSE 100*sum([M8000C42] - [M8000C27]) / messages / S1 KILL-REQUEST sum([M8000C41]) meesages)*100% S1 KR = S1 KILL-REQUEST messages
sum([M8000C41])
Prim ETWS =(Primary ETWS Notifications)
sum([M8001C231])
Prim ETWS =(Secondary ETWS Notifications)
sum([M8001C232])
Prim ETWS =(CMAS Notifications) sum([M8001C233])
Paging ETWS/CMAS= Number of sum([M8008C16]) pagings for ETWS or CMAS
AVG UL PRBs=(average (used/available UL PRBs ) per TTI)
avg([M8011C24])/10
AVG DL PRBs=(average avg([M8011C37])/10 (used/available)DL PRBs per TTI)
AVG UL RLC CELL THP= sum([M8012C17])*8 / (UL received RLC PDU (sum(PERIOD_DURATION )*60) volume)*8 / (MEASUREMENT_DURATION)*6 0 AVG DL RLC CELL THP= sum([M8012C18])*8 / (DL transmitted RLC PDU (sum(PERIOD_DURATION)*60) volume)*8 / (MEASUREMENT_DURATION)*6 0 AVG UL PDCP CELL THP= 8*sum([M8012C19])/sum([M8012C89]) average PDCP cell throughput UL
AVG DL PDCP CELL THP= 8*sum([M8012C20])/sum([M8012C90]) average PDCP cell throughput DL
AVG DL PDCP CELL THP QCI1= avg([M8012C143]) average PDCP cell throughput DL for QCI1 DRBs AVG UL PDCP CELL THP QCI1= avg([M8012C116]) average PDCP cell throughput UL for QCI1 DRBs HeNB Redirect =Number of Home sum([M8008C15]) eNB redirects
NumCGIUTRANReq = Number of sum([M8008C12]) CGI Req Reports for UTRAN
CGIUTRANSuccRatio = (Number 100 * sum([M8008C13]) / sum([M8008C12]) of Succ CGI Reports for UTRAN) / (Number of CGI Req Reports for UTRAN) x 100 CGIUTRANFailRatio = (Number of 100 * sum([M8008C14]) / sum([M8008C12]) Failed CGI Reports for UTRAN) / ( Number of CGI Req Reports for UTRAN) x 100 PDCPSDULossRDL=(number of lost PDCP SDUs DL / number of transmitted PDCP SDUs DL)*100%
100*sum([M8026C259]) / sum([M8001C154]+ [M8026C259])
PDCPSDULossRDL_QCI1=(numb 100*sum([M8026C260]) / sum([M8001C314]+ er of lost PDCP SDUs DL per [M8026C260]) QCI1 / number of transmitted PDCP SDUs DL per QCI1)*100%
PDCPSDULossRDL_QCI2=(numb 100*sum([M8026C261]) / sum([M8001C315]+ er of lost PDCP SDUs DL per [M8026C261]) QCI2 / number of transmitted PDCP SDUs DL per QCI2)*100% PDCPSDULossRDL_QCI3=(numb 100*sum([M8026C262]) / sum([M8001C316]+ er of lost PDCP SDUs DL per [M8026C262]) QCI3 / number of transmitted PDCP SDUs DL per QCI3)*100% PDCPSDULossRDL_QCI4=(numb 100*sum([M8026C263]) / sum([M8001C317]+ er of lost PDCP SDUs DL per [M8026C263]) QCI4 / number of transmitted PDCP SDUs DL per QCI4)*100% PDCPSDULossRUL=(number of lost PDCP SDUs UL / number of transmitted PDCP SDUs UL)*100%
100*sum([M8026C254])/sum([M8001C153]+ [M8026C254])
PDCPSDULossRUL_QCI1=(numb 100*sum([M8026C255])/sum([M8001C305]+ er of lost PDCP SDUs UL per [M8026C255]) QCI1 / number of transmitted PDCP SDUs UL per QCI1)*100% PDCPSDULossRUL_QCI2=(numb 100*sum([M8026C256])/sum([M8001C306]+ er of lost PDCP SDUs UL per [M8026C256]) QCI2 / number of transmitted PDCP SDUs UL per QCI2)*100% PDCPSDULossRUL_QCI3=(numb 100*sum([M8026C257])/sum([M8001C307]+ er of lost PDCP SDUs UL per [M8026C257]) QCI3 / number of transmitted PDCP SDUs UL per QCI3)*100% PDCPSDULossRUL_QCI4=(numb 100*sum([M8026C258])/sum([M8001C308]+ er of lost PDCP SDUs UL per [M8026C258]) QCI4 / number of transmitted PDCP SDUs UL per QCI4)*100% NumLBHOAtt = Number of LB HO sum([M8021C23]) Attempts
LBHOSuccR = (Number of LB HO 100 * sum([M8021C24]) / sum([M8021C23]) Successful Completions) / (Number of LB HO Attempts) x 100 Aver CA 2CCs UE=(average number of CA UEs in DL for 2 CCs)
avg([M8001C494]/100)
Aver UE Conf One Scell=(average avg([M8001C495]/100) number of UEs with configured one SCell in DL)
Aver UE Act SCell=(average number of UEs with an activated SCell in DL)
avg([M8001C496]/100)
Penetr CA 2CCs UEs=(average 100*(avg([M8001C494]/100))/ number of CA UEs for 2CCs in (sum([M8001C318])/sum([M8001C319])) DL)/( average number of UEs in RRC_CONNECTED state)x100 % SCell Conf SuccR=(Successful SCell Configurations / Attempted SCell Configurations)*100%
100*sum([M8011C68]) / sum([M8011C67])
DL RLC PDU VOL SCell= (DL transmitted RLC PDU volume SCell)
sum([M8012C151])/1000
Aver TTIB UE=(average number of UEs in TTIB Mode)
avg([M8011C62]/100)
IPThrDLQCI1= IP Throughput Volume QCI1 in DL/ (IP Throughput Time QCI1 in DL)
sum([M8012C117])/sum([M8012C118])
IPThrDLQCI2= IP Throughput Volume QCI2 in DL/ (IP Throughput Time QCI2 in DL)
sum([M8012C119])/sum([M8012C120])
IPThrDLQCI3= IP Throughput Volume QCI3 in DL/ (IP Throughput Time QCI3 in DL)
sum([M8012C121])/sum([M8012C122])
IPThrDLQCI4= IP Throughput Volume QCI4 in DL/ (IP Throughput Time QCI4 in DL)
sum([M8012C123])/sum([M8012C124])
IPThrDLQCI5= IP Throughput Volume QCI5 in DL/ (IP Throughput Time QCI5 in DL)
sum([M8012C125])/sum([M8012C126])
IPThrDLQCI6= IP Throughput Volume QCI6 in DL/ (IP Throughput Time QCI6 in DL)
sum([M8012C127])/sum([M8012C128])
IPThrDLQCI7= IP Throughput Volume QCI7 in DL/ (IP Throughput Time QCI7 in DL)
sum([M8012C129])/sum([M8012C130])
IPThrDLQCI8= IP Throughput Volume QCI8 in DL/ (IP Throughput Time QCI8 in DL)
sum([M8012C131])/sum([M8012C132])
IPThrDLQCI9= IP Throughput Volume QCI9 in DL/ (IP Throughput Time QCI9 in DL)
sum([M8012C133])/sum([M8012C134])
IPThrULQCI1= IP Throughput Volume QCI1 in UL/ (IP Throughput Time QCI1 in UL)
sum([M8012C91])/sum([M8012C92])
IPThrULQCI2= IP Throughput Volume QCI2 in UL/ (IP Throughput Time QCI2 in UL)
sum([M8012C93])/sum([M8012C94])
IPThrULQCI3= IP Throughput Volume QCI3 in UL/ (IP Throughput Time QCI3 in UL)
sum([M8012C95])/sum([M8012C96])
IPThrULQCI4= IP Throughput Volume QCI4 in UL/ (IP Throughput Time QCI4 in UL)
sum([M8012C97])/sum([M8012C98])
IPThrULQCI5= IP Throughput Volume QCI5 in UL/ (IP Throughput Time QCI5 in UL)
sum([M8012C99])/sum([M8012C100])
IPThrULQCI6= IP Throughput Volume QCI6 in UL/ (IP Throughput Time QCI6 in UL)
sum([M8012C101])/sum([M8012C102])
IPThrULQCI7= IP Throughput Volume QCI7 in UL/ (IP Throughput Time QCI7 in UL)
sum([M8012C103])/sum([M8012C104])
IPThrULQCI8= IP Throughput Volume QCI8 in UL/ (IP Throughput Time QCI8 in UL)
sum([M8012C105])/sum([M8012C106])
IPThrULQCI9= IP Throughput Volume QCI9 in UL/ (IP Throughput Time QCI9 in UL)
sum([M8012C107])/sum([M8012C108])
AVG RSSI Cell PUCCH= average avg( [M8005C208]) of measured RSSI values for PUCCH per Cell
AVG RSSI Cell PUSCH= average avg( [M8005C233]) of measured RSSI values for PUSCH per Cell AVG SINR Cell PUCCH= average avg([M8005C258]) of measured SINR values for PUCCH per Cell AVG SINR Cell PUCCH= average avg( [M8005C283]) of measured SINR values for PUSCH per Cell SIGN_CONN_ESTAB_ATT = SIGN_CONN_ESTAB_ATT_x
sum([M8013C34])
SIGN_CONN_ESTAB_ATT = SIGN_CONN_ESTAB_ATT_x
sum([M8013C31])
RCC Con SSR MOS=(RRC connection setup completions (mobile originating signaling) / RRC connection requests(mobile originating signaling))*100% RCC Con SSR MOC=(RRC
100*sum([M8013C35]) / sum([M8013C17])
100*sum([M8013C36]) / sum([M8013C19])
connection setup completions (mobile originating calls) / RRC connection requests(mobile originating calls))*100% RCC Con SSR MTA=(RRC
100*sum([M8013C37]) / sum([M8013C18]) connection setup completions (mobile terminating access) / RRC connection requests(mobile terminating access))*100% RCC Con SSR DTA=(RRC 100*sum([M8013C38]) / sum([M8013C34]) connection setup completions (delay tolerant access) / RRC connection requests(delay tolerant access))*100% RCC Con SSR HPC=(RRC 100*sum([M8013C32]) / sum([M8013C31]) connection setup completions (high priority calls) / RRC connection requests(high priority calls))*100% RCC Con RR MOS=(RRC
100*sum([M8013C39]) / sum([M8013C17])
connection setup rejections (mobile originating signaling) / RRC connection requests(mobile originating signaling))*100% RCC Con RR MOC=(RRC
100*sum([M8013C40]) / sum([M8013C19])
connection setup rejections (mobile originating calls) / RRC connection requests(mobile originating calls))*100%
RCC Con RR MTA=(RRC 100*sum([M8013C41]) / sum([M8013C18]) connection setup rejections (mobile terminating access) / RRC connection requests(mobile terminating access))*100% RCC Con RR DTA=(RRC 100*sum([M8013C42]) / sum([M8013C34]) connection setup rejections (delay tolerant access) / RRC connection requests(delay tolerant access))*100% RCC Con RR HPC=(RRC 100*sum([M8013C33]) / sum([M8013C31]) connection setup rejections (high priority calls) / RRC connection requests(high priority calls))*100% RCC Con RR EMG = (RRC 100*sum([M8013C30]) / sum([M8013C21]) connection setup rejections for emergency calls / RRC connection requests for emergency calls) * 100% E-RAB SSR=(E-RAB setup 100*sum([M8006C187]) /sum([M8006C186]) successes(high priority calls) / ERAB setup attempts(high priority calls))*100% Avg Sim ERAB QCI1=(Sum of sum([M8006C45]) / sum([M8006C54]) Simultaneous E-RAB QCI1) / Denominator (number of samples in seconds in measurement period) Avg Sim ERAB QCI2=(Sum of sum([M8006C46]) / sum([M8006C54]) Simultaneous E-RAB QCI2) / Denominator (number of samples in seconds in measurement period) Avg Sim ERAB QCI3=(Sum of sum([M8006C47]) / sum([M8006C54]) Simultaneous E-RAB QCI3) / Denominator (number of samples in seconds in measurement period) Avg Sim ERAB QCI4=(Sum of sum([M8006C48]) / sum([M8006C54]) Simultaneous E-RAB QCI4) / Denominator (number of samples in seconds in measurement period) Avg Sim ERAB QCI5=(Sum of sum([M8006C49]) / sum([M8006C54]) Simultaneous E-RAB QCI5) / Denominator (number of samples in seconds in measurement period) Avg Sim ERAB QCI6=(Sum of sum([M8006C50]) / sum([M8006C54]) Simultaneous E-RAB QCI6) / Denominator (number of samples in seconds in measurement period) Avg Sim ERAB QCI7=(Sum of sum([M8006C51]) / sum([M8006C54]) Simultaneous E-RAB QCI7) / Denominator (number of samples in seconds in measurement period)
Avg Sim ERAB QCI8=(Sum of sum([M8006C52]) / sum([M8006C54]) Simultaneous E-RAB QCI8) / Denominator (number of samples in seconds in measurement period) Avg Sim ERAB QCI9=(Sum of sum([M8006C53]) / sum([M8006C54]) Simultaneous E-RAB QCI9) / Denominator (number of samples in seconds in measurement period) AVG UL CoMP = (UL average avg([M8001C198]) / 100 number of UEs utilizing intra-eNB CoMP) NumCGIReq = Number of CGI Req Reports
sum([M8008C10])
CGISuccRatio =( Number of Succ 100* sum([M8008C11])/sum([M8008C10]) CGI Reports)/( Number of CGI Req Reports)x100 X2 SSR=(X2 setup successes / X2 100*sum([M8022C0]-[M8022C1]) / setup attempts)*100% sum([M8022C0])
X2 SattR = X2 setup attempts
sum([M8022C0])
X2 IP RetSR=(X2 IP Adress successful retrievals / X2 IP adress retrieval attempts)*100%
100*sum([M8000C37]) / sum([M8000C38])
X2 IP Ret Att = X2 IP Adress retrieval attempts
sum([M8000C38])
CellResG1DL=( Used TTIs by cell 100*sum([M8011C75])/ sum([M8011C79]) group 1 in DL/Total Number of TTIs in DL) CellResG2DL=( Used TTIs by cell 100*sum([M8011C76])/ sum([M8011C79]) group 2 in DL/Total Number of TTIs in DL) CellResG3DL=( Used TTIs by cell 100*sum([M8011C77])/ sum([M8011C79]) group 3 in DL/Total Number of TTIs in DL)
CellResG4DL=( Used TTIs by cell 100*sum([M8011C78])/ sum([M8011C79]) group 4 in DL/Total Number of TTIs in DL) CellResG1UL=( Used TTIs by cell 100*sum([M8011C70])/ sum([M8011C74]) group 1 in UL/Total Number of TTIs in UL) CellResG2UL=( Used TTIs by cell 100*sum([M8011C71])/ sum([M8011C74]) group 2 in UL/Total Number of TTIs in UL) CellResG3UL=( Used TTIs by cell 100*sum([M8011C72])/ sum([M8011C74]) group 3 in UL/Total Number of TTIs in UL) CellResG4UL=( Used TTIs by cell 100*sum([M8011C73])/ sum([M8011C74]) group 4 in UL/Total Number of TTIs in UL) AVG CQI= sum(number of hits in class_x * x) / sum(total number of hits over all classes)
sum(1*[M8010C37]+ 2*[M8010C38]+ 3*[M8010C39]+ 4*[M8010C40]+ 5*[M8010C41]+ AVG CQI Offset= average of avg([M8010C54])/1000 xmeasured = 0, ..., 15 6*[M8010C42]+ CQI offset values 7*[M8010C43]+ 8*[M8010C44]+ 9*[M8010C45]+ AVG RSSI PUCCH= average of sum(-120*([M8005C6]) - 119*([M8005C7]) 10*[M8010C46]+ measured RSSI values for 117*([M8005C8]) 11*[M8010C47]+ - 115*([M8005C9]) PUCCH 113*([M8005C10]) 12*[M8010C48]+ - 111*([M8005C11]) 109*([M8005C12]) 13*[M8010C49]+ - 107*([M8005C13]) 105*([M8005C14]) 14*[M8010C50]+ - 103*([M8005C15]) AVG RSSI PUSCH= average of sum(-120*([M8005C28]) - 119*([M8005C29]) 101*([M8005C16]) 99*([M8005C17]) 15*[M8010C51]) / measured RSSI values for 117*([M8005C30]) - 115*([M8005C31]) 97*([M8005C18]) - sum([M8010C36]+[M8010C37]+ PUSCH 113*([M8005C32])- -95*([M8005C19]) 111*([M8005C33]) 93*([M8005C20]) 91*([M8005C21]) - [M8010C38]+[M8010C39]+ 109*([M8005C34]) - 107*([M8005C35]) 89*([M8005C22]) 87*([M8005C23]) - [M8010C40]+[M8010C41]+ - 103*([M8005C37]) PDCPSDULossRDL_QCI5=(numb 105*([M8005C36]) 100*sum([M8026C5]) / sum([M8026C19]+ 85*([M8005C24]) 83*([M8005C25]) [M8010C42]+[M8010C43]+ 101*([M8005C38]) - 99*([M8005C39])- er of lost PDCP SDUs DL per [M8026C5]) 81*([M8005C26]) [M8010C44]+[M8010C45]+ 97*([M8005C40]) - 95*([M8005C41]) QCI5 / number of transmitted 80*([M8005C27]) )/sum( ([M8005C6])- + [M8010C46]+[M8010C47]+ 93*([M8005C42]) - 91*([M8005C43]) PDCP SDUs DL per QCI5)*100% ([M8005C7]) + ( [M8010C48]+[M8010C49]+ 89*([M8005C44]) - 87*([M8005C45]) PDCPSDULossRDL_QCI6=(numb [M8010C50]+[M8010C51]) 100*sum([M8026C6]) / sum([M8026C20]+ 85*([M8005C46]) - 83*([M8005C47]) er of lost PDCP SDUs DL per [M8026C6]) 81*([M8005C48]) [M8005C8]) + ([M8005C9]) + ([M8005C10]) + QCI6 / number of transmitted 80*([M8005C49]) )/sum(([M8005C28]) + ([M8005C11]) + ([M8005C12]) + ([M8005C13]) PDCP SDUs DL per QCI6)*100% ([M8005C29]) + ([M8005C30]) + ([M8005C31]) + ([M8005C14]) + ([M8005C15]) + ([M8005C16]) ([M8005C32]) + ([M8005C33]) + PDCPSDULossRDL_QCI7=(numb + 100*sum([M8026C7]) / sum([M8026C21]+ + ([M8005C17]) + ([M8005C18]) + ([M8005C34]) + ([M8005C35]) + ([M8005C36]) er of lost PDCP SDUs DL per [M8026C7]) ([M8005C19]) + ([M8005C20]) + ([M8005C21]) + ([M8005C37]) + ([M8005C38]) + QCI7 / number of transmitted + ([M8005C22]) + ([M8005C23]) + ([M8005C39]) + ([M8005C40]) + PDCP SDUs DL per QCI7)*100% ([M8005C24]) + ([M8005C25]) + ([M8005C41]) + ([M8005C42]) + ([M8005C43]) ([M8005C26]) + + ([M8005C27]) ([M8005C44]) + )([M8005C45]) + ([M8005C46]) + ([M8005C47]) + ([M8005C48]) + ([M8005C49]) )
PDCPSDULossRDL_QCI8=(numb 100*sum([M8026C8]) / sum([M8026C22]+ er of lost PDCP SDUs DL per [M8026C8]) QCI8 / number of transmitted PDCP SDUs DL per QCI8)*100% PDCPSDULossRDL_QCI9=(numb 100*sum([M8026C9]) / sum([M8026C23]+ er of lost PDCP SDUs DL per [M8026C9]) QCI9 / number of transmitted PDCP SDUs DL per QCI9)*100% PDCPSDULossRUL_QCI5=(numb 100*sum([M8026C0]) / sum([M8026C24]+ er of lost PDCP SDUs UL per [M8026C0]) QCI5 / number of transmitted PDCP SDUs UL per QCI5)*100% PDCPSDULossRUL_QCI6=(numb 100*sum([M8026C1]) / sum([M8026C25]+ er of lost PDCP SDUs UL per [M8026C1]) QCI6 / number of transmitted PDCP SDUs UL per QCI6)*100% PDCPSDULossRUL_QCI7=(numb 100*sum([M8026C2]) / sum([M8026C26]+ er of lost PDCP SDUs UL per [M8026C2]) QCI7 / number of transmitted PDCP SDUs UL per QCI7)*100% PDCPSDULossRUL_QCI8=(numb 100*sum([M8026C3]) / sum([M8026C28]+ er of lost PDCP SDUs UL per [M8026C3]) QCI8 / number of transmitted PDCP SDUs UL per QCI8)*100% PDCPSDULossRUL_QCI9=(numb 100*sum([M8026C4]) / sum([M8026C29]+ er of lost PDCP SDUs UL per [M8026C4]) QCI9 / number of transmitted PDCP SDUs UL per QCI9)*100% Inter RAT HO preps eHRPD= (total number of inter RAT HO preparations to eHRPD)
sum([M8025C0])
Inter RAT HO prep eHRPD SR 100*sum([M8025C4])/ sum([M8025C0]) =(number of successful inter RAT HO prep eHRPD) / (total number of inter RAT HO preparations eHRPD)*100% Inter RAT HO prep eHRPD 100*sum([M8025C1]) / sum([M8025C0]) FRCause =(number of inter RAT HO prep eHRPD failure_x) / (total number of inter RAT HO preparations Inter RAT HOeHRPD)*100% prep eHRPD 100*sum([M8025C2]) / sum([M8025C0]) FRCause =(number of inter RAT HO prep eHRPD failure_x) / (total number of inter RAT HO preparations Inter RAT HOeHRPD)*100% prep eHRPD 100* sum([M8025C3])/ sum([M8025C0]) FRCause =(number of inter RAT HO prep eHRPD failure_x) / (total number of inter RAT HO preparations eHRPD)*100%
Inter RAT HO eHRPD SR 100*sum([M8025C7]) / sum([M8025C5]) =(number of successful inter RAT Hos to eHRPD) / (number of inter RAT HO attempts to eHRPD)*100% Inter RAT HO eHRPD Att = sum([M8025C5]) (number of inter RAT HO eHRPD attempts) Inter RAT HO eHRPD FR 100*sum([M8025C6]) / sum([M8025C5]) =(number of unsuccessful inter RAT HOs to eHRPD) / (number of inter RAT HO attempts to eHRPD)*100% Inter RAT tot HO eHRPD SR= 100* sum([M8025C7])/ sum([M8025C0]) (inter RAT HO eHRPD successes) / (inter RAT HO preparations to eHRPD)*100% PDCPSDUDelayDLQCI1= Average PDCP SDU delay in DL for QCI1
avg([M8001C269] + [M8026C30])
PDCPSDUDelayDLQCI2= Average PDCP SDU delay in DL for QCI2
avg([M8001C271] + [M8026C31])
PDCPSDUDelayDLQCI3= Average PDCP SDU delay in DL for QCI3
avg([M8001C272] + [M8026C32])
PDCPSDUDelayDLQCI4= Average PDCP SDU delay in DL for QCI4
avg([M8001C273] + [M8026C33])
PDCPSDUDelayDLQCI5= Average PDCP SDU delay in DL for QCI5
avg([M8001C309] + [M8026C34])
PDCPSDUDelayDLQCI6= Average PDCP SDU delay in DL for QCI6
avg([M8001C310] + [M8026C35])
PDCPSDUDelayDLQCI7= Average PDCP SDU delay in DL for QCI7
avg([M8001C311] + [M8026C36])
PDCPSDUDelayDLQCI8= Average PDCP SDU delay in DL for QCI8
avg([M8001C312] + [M8026C37])
PDCPSDUDelayDLQCI9= Average PDCP SDU delay in DL for QCI9
avg([M8001C313] + [M8026C38])
Aver Dongle UE=(average number avg([M8001C429]) of UEs with unlimited power supply resources) Aver Dongle UE 100*avg([M8001C429])/ Penetration=100*(average number (sum([M8001C318])/sum([M8001C319])) of UEs with unlimited power supply resources)/(Averaged number UEs in RRC Connected sum([M8001C297])/ sum([M8001C298]) Aver Actof UE state) SchedDataDL=(average number of active UEs with scheduled data in DL) Aver Act UE sum([M8001C295])/ sum([M8001C296]) SchedDataUL=(average number of active UEs with scheduiled data in UL) IPThrDLQCI1= IP Throughput Volume QCI1 in DL/ (IP Throughput Scheduled Transmission Time QCI1 in DL)
sum([M8012C117])/sum([M8012C165])
IPThrDLQCI2= IP Throughput Volume QCI2 in DL/ (IP Throughput Scheduled Transmission Time QCI2 in DL)
sum([M8012C119])/sum([M8012C166])
IPThrDLQCI3= IP Throughput Volume QCI3 in DL/ (IP Throughput Scheduled Transmission Time QCI3 in DL)
sum([M8012C121])/sum([M8012C167])
IPThrDLQCI4= IP Throughput Volume QCI4 in DL/ (IP Throughput Scheduled Transmission Time QCI4 in DL)
sum([M8012C123])/sum([M8012C168])
IPThrDLQCI5= IP Throughput Volume QCI5 in DL/ (IP Throughput Scheduled Transmission Time QCI5 in DL)
sum([M8012C125])/sum([M8012C169])
IPThrDLQCI6= IP Throughput Volume QCI6 in DL/ (IP Throughput Scheduled Transmission Time QCI6 in DL)
sum([M8012C127])/sum([M8012C170])
IPThrDLQCI7= IP Throughput Volume QCI7 in DL/ (IP Throughput Scheduled Transmission Time QCI7 in DL)
sum([M8012C129])/sum([M8012C171])
IPThrDLQCI8= IP Throughput Volume QCI8 in DL/ (IP Throughput Scheduled Transmission Time QCI8 in DL)
sum([M8012C131])/sum([M8012C172])
IPThrDLQCI9= IP Throughput Volume QCI9 in DL/ (IP Throughput Scheduled Transmission Time QCI9 in DL)
sum([M8012C133])/sum([M8012C173])
IPThrULQCI1= IP Throughput Volume QCI1 in UL/ (IP Throughput Scheduled Transmission Time QCI1 in UL)
sum([M8012C91])/sum([M8012C156])
IPThrULQCI2= IP Throughput Volume QCI2 in UL/ (IP Throughput Scheduled Transmission Time QCI2 in UL)
sum([M8012C93])/sum([M8012C157])
IPThrULQCI3= IP Throughput Volume QCI3 in UL/ (IP Throughput Scheduled Transmission Time QCI3 in UL)
sum([M8012C95])/sum([M8012C158])
IPThrULQCI4= IP Throughput Volume QCI4 in UL/ (IP Throughput Scheduled Transmission Time QCI4 in UL)
sum([M8012C97])/sum([M8012C159])
IPThrULQCI5= IP Throughput Volume QCI5 in UL/ (IP Throughput Scheduled Transmission Time QCI5 in UL)
sum([M8012C99])/sum([M8012C160])
IPThrULQCI6= IP Throughput Volume QCI6 in UL/ (IP Throughput Scheduled Transmission Time QCI6 in UL)
sum([M8012C101])/sum([M8012C161])
IPThrULQCI7= IP Throughput Volume QCI7 in UL/ (IP Throughput Scheduled Transmission Time QCI7 in UL)
sum([M8012C103])/sum([M8012C162])
IPThrULQCI8= IP Throughput Volume QCI8 in UL/ (IP Throughput Scheduled Transmission Time QCI8 in UL)
sum([M8012C105])/sum([M8012C163])
IPThrULQCI9= IP Throughput Volume QCI9 in UL/ (IP Throughput Scheduled Transmission Time QCI9 in UL)
sum([M8012C107])/sum([M8012C164])
S1 init Cont SFR=(initial context setup failure_radio_interface / initial context setup attempts)*100%
100*sum([M8013C49]) / sum([M8013C45])
UE Con Mod Succ rate =(UE Con 100*sum([M8013C52]) / sum([M8013C50]) Mod Succ / UE Con Mod Atts)*100% S1 init Cont SSR CSFB=(initial context setup successes for CS Fallback / initial context setup attempts for CS Fallback)*100%
100*sum([M8013C48]) / sum([M8013C46])
UE Con Mod Succ rate =(UE Con 100*sum([M8013C53]) / sum([M8013C51]) Mod Succ / UE Con Mod Atts)*100% UE LOGS1 Succ rate =( UEspecific logical S1 Signaling Connection Completions/ UEspecific logical S1 Signaling Connection Attempts)*100% SB HO SR =100*(SB HO Completions / SB HO Attempts)
100* sum([M8013C44])/sum([M8013C43])
100*sum([M8021C8]) / sum([M8021C7])
SB HO Att =Number of SB HO Attempts
sum([M8021C7])
HO Prep RLF SR =100*(HO Prepar RLF Successes) / (HO Prepar RLF Atts)
100*sum([M8027C1])/sum([M8027C0])
HO Prep RLF Att =HO Prepar RLF sum([M8027C1]) Atts
Total HO RLF SR =100*( HO RLF 100* sum([M8027C2])/sum([M8027C0]) Completions) /(HO Prepar RLF Atts) UE Cont Ret RLF SR =100*( UE Context Retrievals due to RLF Successes) /( UE Context Retrievals due to RLF Attempts)
100* sum([M8027C4])/sum([M8027C3])
UE Cont Ret RLF Att =UE Context sum([M8027C3]) Retrievals due to RLF Attempts
UE Cont Ret RLF FR =100*( UE Context Retrievals due to RLF Failures)/(UE Context Retrievals due to RLF Attempts)
100* sum([M8027C5])/sum([M8027C3])
AVG SINR PUCCH= average of measured SINR values for PUCCH AVG SINR PUSCH= average of measured SINR values for PUSCH E-RAB Satt QCI2= E-RAB setup init attempts for QCI2 + E-RAB setup add attempts for QCI2 E-RAB Satt QCI3= E-RAB setup init attempts for QCI3 + E-RAB setup add attempts for QCI3 E-RAB Satt QCI4= E-RAB setup init attempts for QCI4 + E-RAB setup add attempts for QCI4 E-RAB SSR QCI2=(E-RAB setup successes QCI2 / E-RAB setup attempts QCI2)*100% E-RAB SSR QCI3=(E-RAB setup successes QCI3 / E-RAB setup attempts QCI3)*100% E-RAB SSR QCI4=(E-RAB setup successes QCI4 / E-RAB setup attempts QCI4)*100%
sum(-10*([M8005C96]) - 9*([M8005C97]) 7*([M8005C98]) - 5*([M8005C99]) 3*([M8005C100]) -1*([M8005C101]) +1*([M8005C102]) + 3*([M8005C103]) + 5*([M8005C104]) + 7*([M8005C105]) + sum(-10*([M8005C118]) - 9*([M8005C119]) 9*([M8005C106]) + 11*([M8005C107]) 7*([M8005C120]) - 5*([M8005C121]) - + 13*([M8005C108]) + 15*([M8005C109]) + 3*([M8005C122]) -1*([M8005C123]) 17*([M8005C110]) + + +1*([M8005C124]) + 19*([M8005C111]) 3*([M8005C125]) + 21*([M8005C112]) + 23*([M8005C113]) + 5*([M8005C126]) + +7*([M8005C127]) sum([M8006C189] [M8006C198]) + + 25*([M8005C114]) + 27*([M8005C115]) 9*([M8005C128]) + 11*([M8005C129]) + 29*([M8005C116]) 13*([M8005C130]) + + 30*([M8005C117])) 15*([M8005C131]) +/ sum(([M8005C96]) + ([M8005C97]) + + 17*([M8005C132]) + 19*([M8005C133]) ([M8005C98]) + ([M8005C99]) + ([M8005C100]) 21*([M8005C134]) + 23*([M8005C135]) + + ([M8005C101]) + ([M8005C102]) sum([M8006C190] + 27*([M8005C137]) [M8006C199])+ 25*([M8005C136]) + ([M8005C103]) + ([M8005C104]) + 29*([M8005C138]) + 30*([M8005C139])) / ([M8005C105]) + ([M8005C106]) + + sum(([M8005C118]) + ([M8005C119]) ([M8005C107]) ([M8005C120]) + + ([M8005C108]) ([M8005C121]) + + ([M8005C109]) + + ([M8005C122]) + ([M8005C110]) ([M8005C123]) + sum([M8006C191] + [M8006C200]) ([M8005C111]) ([M8005C124]) ++ ([M8005C112]) ([M8005C125]) ++ ([M8005C113]) ([M8005C126]) + + ([M8005C114]) ([M8005C127]) ++ ([M8005C115]) + ([M8005C116]) ([M8005C128]) + ([M8005C129]) ++ ([M8005C117])) ([M8005C130]) + ([M8005C131]) + 100*sum([M8006C207] + [M8006C216]) / ([M8005C132]) + ([M8005C133]) + sum([M8006C189] + [M8006C198]) ([M8005C134]) + ([M8005C135]) + ([M8005C136]) + ([M8005C137]) + ([M8005C138]) + ([M8005C139])) 100*sum([M8006C208] + [M8006C217]) / sum([M8006C190] + [M8006C199])
100*sum([M8006C209] + [M8006C218]) / sum([M8006C191] + [M8006C200])
avg([UE_DRB_DL_DATA_QCI_2]/ avg([M8001C228]/100) 100)
avg([UE_DRB_DL_DATA_QCI_3]/ avg([M8001C229]/100) 100)
avg([UE_DRB_DL_DATA_QCI_4]/ avg([M8001C230]/100) 100)
Inter RAT HO UTRAN SRVCC Att sum([M8016C29]) = (number of inter RAT HO attempts to UTRAN with SRVCC)
Inter RAT HO UTRAN SRVCC FR 100*sum([M8016C31]) / sum([M8016C29]) =(number of unsuccessful inter RAT Hos UTRAN SRVCC) / (number of inter RAT HO attempts UTRAN SRVCC)*100% Inter RAT HO UTRAN SRVCC SR 100*sum([M8016C30]) / sum([M8016C29]) =(number of successful inter RAT Hos UTRAN SRVCC) / (number of inter RAT HO attempts UTRAN SRVCC)*100% Inter RAT HO GERAN SRVCC Att sum([M8016C33]) = (number of inter RAT HO attempts to GERAN with SRVCC) Inter RAT HO GERAN SRVCC FR 100*sum([M8016C35]) / sum([M8016C33]) =(number of unsuccessful inter RAT HOs GERAN SRVCC) / (number of inter RAT HO attempts GERAN Inter RATSRVCC)*100% HO GERAN SRVCC SR 100*sum([M8016C34]) / sum([M8016C33]) =(number of successful inter RAT HOs GERAN SRVCC) / (number of inter RAT HO attempts GERAN SRVCC)*100% 100*sum([SUCC_INTRA_ENB_H 100*sum([M8009C7] + [M8014C7] + O] + [SUCC_INTER_ENB_HO] + [INTER_ENB_S1_HO_SUCC] [HO_INTFREQ_SUCC]) / sum([ATT_INTRA_ENB_HO] RACH Stp Comp Succ rate = + [ATT_INTER_ENB_HO] + (RACH_STP_COMPLETIONS / [INTER_ENB_S1_HO_ATT] RACH_STP_Att)*100% [HO_INTFREQ_ATT])
[M8014C19] - [M8021C2]) / sum([M8009C6] + [M8014C6] +[M8014C18] - [M8021C0])
E-RAB DRCause = (abnormal ERAB release request_x / all ERAB releases) * 100%
100*sum([M8006C176] + [M8006C177] + [M8006C178] + [M8006C179] + [M8006C180]) / sum([M8006C254] + [M8006C261] + [M8006C6] + [M8006C7] + [M8006C8] + [M8006C9]) 100*sum([M8006C176]) / sum([M8006C266] +
E-RAB DRCause = (abnormal ERAB release request_x / all ERAB releases) * 100% E-RAB QCI1 DR RAN = (abnormal QCI1 E-RAB releases from RAN point of view / all QCI1 E-RAB releases) * 100% Add E-RAB ACSS= RRCConnEstSuccRate * UE LOGS1 Succ rate * InitialERABSetupSuccRate * AdditionalERABSetupSuccRate * 100 % Total E-RAB Act Time= (ERAB Active Time QCI1 + ERAB Act Time QCI2 + ERAB Active Time QCI3 + ERAB ActTime QCI4 + ERAB Active Time nonGBR)
100* sum([M8001C8]) /sum([M8001C6] + [M8001C7] + [M8001C286])
[M8006C273] + [M8006C89] + [M8006C98] + [M8006C107] + [M8006C116]) 100*sum([M8006C273] + [M8006C266] [M8006C267] - [M8006C270] - [M8006C272]) / sum([M8006C266] + [M8006C273] + [M8006C89] + [M8006C98] + [M8006C107] + [M8006C116]) 100*(sum([M8013C5]) / sum([M8013C17] + [M8013C18] + [M8013C19] + [M8013C34] + [M8013C31]] + [M8013C21])) * (sum([M8013C44]) / sum([M8013C43])) sum([M8006C184]+[M8006C183]+ *[M8006C182]+[M8006C181]+[M8006C185])/60 (sum([M8006C206] + [M8006C207] + [M8006C208] + [M8006C209] + [M8006C210] + [M8006C211] + [M8006C212]+ [M8006C213] + [M8006C214]) / sum([M8006C188] + [M8006C189] + [M8006C190] + [M8006C191] + [M8006C192] + [M8006C193] + [M8006C194] + [M8006C195] + [M8006C196])) * (sum([M8006C215] + [M8006C216] + [M8006C217] + [M8006C218] + [M8006C219] + [M8006C220] + [M8006C221] + [M8006C222] + [M8006C223]) / sum([M8006C197] + [M8006C198] + [M8006C199] + [M8006C200] +
E-RAB Act Time QCI1= ERAB Active Time QCI1
sum([M8006C181])/60
E-RAB Act Time QCI2= ERAB Active Time QCI2
sum([M8006C182])/60
E-RAB Act Time QCI3= ERAB Active Time QCI3
sum([M8006C183])/60
E-RAB Act Time QCI4= ERAB Active Time QCI14
sum([M8006C184])/60
E-RAB Act Time nonGBR= ERAB sum([M8006C185]) /60 Active Time nonGBR
E-RAB RetainR (RNL UE Los)= (Active ERAB Rel QCI1 + Active ERAB Rel QCI2 + Active ERAB Rel QCI3 + Active ERAB Rel QCI4 + Active ERAB QCI1 E-RAB RetainR (RNL UE Rel non GBR)/(ERAB Los)= Active ERAB Rel QCI1/ Active Time QCI1 ERAB Active Time+ ERAB Active Time QCI2 + ERAB Active Time QCI1 QCI3 + ERAB QCI2 RetainR (RNLActive UE ActiveE-RAB Time QCI4 + ERAB Los)= Active ERAB Rel QCI2 Time nonGBR) /ERAB Active Time QCI2
sum([M8006C176] + [M8006C177] + [M8006C178] + [M8006C179] + [M8006C180]) / (sum([M8006C181] + [M8006C182] + [M8006C183] + [M8006C184] + [M8006C185])/ (60 * 60)) sum([M8006C176]) /(sum([M8006C181])/(60 *
QCI3 E-RAB RetainR (RNL UE Los)= Active ERAB Rel QCI3 /ERAB Active Time QCI3
sum([M8006C178]) /(sum([M8006C183])/(60 * 60))
QCI4 E-RAB RetainR (RNL UE Los)= Active ERAB Rel QCI4 /ERAB Active Time QCI14
sum([M8006C179])/(sum([M8006C184])/(60 * 60))
Non GBR E-RAB RetainR (RNL UE Los)= Active ERAB Rel non GBR/ ERAB Active Time nonGBR
sum([M8006C180]) /(sum([M8006C185])/(60 * 60))
60))
sum([M8006C177])/(sum([M8006C182])/(60 * 60))
E-RAB Rel RRNA Ratio = (E-RAB 100*sum([M8006C260])/sum([M8006C254] + Releases due to resources not [M8006C261] + [M8006C6] + [M8006C7] + available) / all E-RAB releases) * [M8006C8] + [M8006C9]) 100%
(RRC connection setup failure_x / 100*sum([M8013C30] + [M8013C39] + RRC connection requests) * 100% [M8013C40] + [M8013C41] + [M8013C42] + [M8013C33]) / sum([M8013C17] + [M8013C18] + [M8013C19] + [M8013C34] + [M8013C31]] + [M8013C21]) Mean E-RAB Setup T= Mean Eavg([M8007C14]) RAB setup time
Max E-RAB Setup T= Maximum E-RAB setup time
max([M8007C15])
Mean RRC Setup T= mean RRC Connection setup time
avg([M8008C17])
Max RRC Setup T= maximum RRC Connection setup time
max([M8008C18])
Max Sim ERAB QCI1= Maximum of Simultaneous E-RAB QCI1
max([M8006C224])
Max Sim ERAB QCI2= Maximum of Simultaneous E-RAB QCI2
max([M8006C225])
Max Sim ERAB QCI3= Maximum of Simultaneous E-RAB QCI3
max([M8006C226])
Max Sim ERAB QCI4= Maximum of Simultaneous E-RAB QCI4
max([M8006C227])
Max Sim ERAB QCI5= Maximum of Simultaneous E-RAB QCI5
max([M8006C228])
Max Sim ERAB QCI6= Maximum of Simultaneous E-RAB QCI6
max([M8006C229])
Max Sim ERAB QCI7= Maximum of Simultaneous E-RAB QCI7
max([M8006C230])
Max Sim ERAB QCI8= Maximum of Simultaneous E-RAB QCI8
max([M8006C231])
Max Sim ERAB QCI9= Maximum of Simultaneous E-RAB QCI9
max([M8006C232])
ERAB Mod SR QCI5= Succ ERAB QCI5 Modifications/Att ERAB QCI5 Modifications
sum([M8006C68])/ sum([M8006C59])
ERAB Mod SR QCI6= Succ ERAB QCI6 Modifications/Att ERAB QCI6 Modifications
sum([M8006C69])/ sum([M8006C60])
ERAB Mod SR QCI7= Succ ERAB QCI7 Modifications/Att ERAB QCI7 Modifications
sum([M8006C70])/ sum([M8006C61])
ERAB Mod SR QCI8= Succ ERAB QCI8 Modifications/Att ERAB QCI8 Modifications
sum([M8006C71])/ sum([M8006C62])
ERAB Mod SR QCI9= Succ ERAB QCI9 Modifications/Att ERAB QCI9 Modifications
sum([M8006C72])/ sum([M8006C63])
E-RAB ModFR RadioIntF = (ERAB modification failure_ Radio Interface Procedure / E-RAB modification attempts) * 100%
100*sum([M8006C73]) / sum([M8006C55] + [M8006C56] + [M8006C57] + [M8006C58] + [M8006C59] + [M8006C60] + [M8006C61] + [M8006C62] + [M8006C63])
E-RAB ModFR NotSQCI = (E-RAB modification failure_ Not supported QCI value / E-RAB modification attempts) * 100%
100*sum([M8006C55] + [M8006C56] + [M8006C57] + [M8006C58] + [M8006C74]) / sum([M8006C59] + [M8006C60] + [M8006C61] + [M8006C62] + [M8006C63])
E-RAB ModFR RNLUns = (E-RAB modification failure_ Radio Network Layer Cause unspecified / E-RAB modification attempts) * 100% PRBs= AVG DL Preffered
100*sum([M8006C75]) / sum([M8006C55] + [M8006C56] + [M8006C57] + [M8006C58] + [M8006C59] + [M8006C60] + [M8006C61] + [M8006C62] + [M8006C63]) sum([M8011C88])/sum([M8011C87])
(Number of preffered PRBs DL)/ (Number of TTIs where DL interference shaping is applied) Numb Preferred PRBs chang = Number of changes of preffered PRBs
sum([M8011C89])
Mean nonGBrE-RAB ConNBR DL=( Mean Number of non-GBR E-RABs with Configured NBR in DL)
avg([M8006C233]/100)
Mean nonGBrE-RAB ConNBR UL=( Mean Number of non-GBR E-RABs with Configured NBR in UL)
avg([M8006C234]/100)
Mean nonGBrE-RAB NotReachNBR DL=( Mean Number of non-GBR E-RABs not Reaching the Configured NBR in DL duenonGBrE-RAB to Overload) Mean
avg([M8006C235]/100)
avg([M8006C236]/100)
NotReachNBR UL=( Mean Number of non-GBR E-RABs not Reaching the Configured NBR in UL due to Overload) Percent nonGBrE-RAB
sum([M8006C235])/ sum([M8006C233]) NotReachNBR DL=(Time of nonGBR E-RABs not Reaching the Configured NBR in DL due to Overload)/ (Time of non-GBR EPercent nonGBrE-RAB sum([M8006C236])/ sum([M8006C233]) RABs with Configured NBR DL) NotReachNBR UL=(Time of in nonGBR E-RABs not Reaching the Configured NBR in UL due to Overload)/ (Time of non-GBR EAvg Cells TA=(transmitted RRC sum([M8008C1]) / sum([M8013C18]) RABs with Configured NBR in UL) paging records / RRC Connection Setup Attempts (MT))) E-RAB Satt QCI5= E-RAB setup init attempts for QCI5 + E-RAB setup add attempts for QCI5
sum([M8006C192] + [M8006C201])
E-RAB Satt QCI6= E-RAB setup init attempts for QCI6 + E-RAB setup add attempts for QCI6
sum([M8006C193] + [M8006C202])
E-RAB Satt QCI7= E-RAB setup init attempts for QCI7 + E-RAB setup add attempts for QCI7
sum([M8006C194] + [M8006C203])
E-RAB Satt QCI8= E-RAB setup init attempts for QCI8 + E-RAB setup add attempts for QCI8
sum([M8006C195] + [M8006C204])
E-RAB Satt QCI9= E-RAB setup init attempts for QCI9 + E-RAB setup add attempts for QCI9
sum([M8006C196] + [M8006C205])
E-RAB SSR QCI5=(E-RAB setup successes QCI5 / E-RAB setup attempts QCI5)*100%
100*sum([M8006C210] + [M8006C219]) / sum([M8006C192] + [M8006C201])
E-RAB SSR QCI6=(E-RAB setup successes QCI6 / E-RAB setup attempts QCI6)*100%
100*sum([M8006C211] + [M8006C220]) / sum([M8006C193] + [M8006C202])
E-RAB SSR QCI7=(E-RAB setup successes QCI7 / E-RAB setup attempts QCI7)*100%
100*sum([M8006C212] + [M8006C221]) / sum([M8006C194] + [M8006C203])
E-RAB SSR QCI8=(E-RAB setup successes QCI8 / E-RAB setup attempts QCI8)*100%
100*sum([M8006C213] + [M8006C222]) / sum([M8006C195] + [M8006C204])
E-RAB SSR QCI9=(E-RAB setup successes QCI9 / E-RAB setup attempts QCI9)*100%
100*sum([M8006C214] + [M8006C223]) / sum([M8006C196] + [M8006C205])
NumIncomHOPrepAtt = Number of incoming HO preparation Attempts
sum([M8021C25])
IncomHOPrepSR = 100*(Number of incoming HO preparation Attempts)/(Number of incoming HO preparation Attempts)
100* sum([M8021C30])/sum([M8021C25])
IncomHOPrepFRRadioRes = 100* sum([M8021C35])/sum([M8021C25]) 100*(Number of incoming HO preparation Failures due to missing radio resources)/(Number of incoming HO preparation= IncomHOPrepFRTransRes 100* sum([M8021C36])/sum([M8021C25]) Attempts) 100*(Number of incoming HO preparation Failures due to missing transport resources)/ (Number of incoming HO IP IP inc VLAN traf=(incoming preparation Attempts) octets)/1000
sum([M51127C1])/1000
IP VOL UL=(outgoing IP octets [kB]) / 1000
sum([M51127C3]) / 1000
IP THP UL = (outgoing IP octets [kB])*8 / measurement duration [sec]
sum([M51127C3]) *8 / (sum(MEASUREMENT_DURATION)*60)
IP THP DL=(incoming IP octets [kB])*8 / measurement duration [sec]
sum([M51127C1]) *8 / (sum(MEASUREMENT_DURATION)*60)
Comp Cont Based RACH Stp 100* sum([M8029C32])/sum([M8001C6]+ Succ rate =(Msg3 Contention [M8001C7]) Based / RA Preambles Contention Based)*100% Aver CA 3CCs UE=(average number of CA UEs in DL for 3 CCs)
avg([M8001C497]/100)
Aver UE Conf Two Scells=(average number of UEs with configured two SCells in DL)
avg([M8001C498]/100)
Penetr CA 3CCs UEs=(average 100*(avg([M8001C497]/100))/ number of CA UEs for 3CCs in (sum([M8001C318])/sum([M8001C319])) DL)/( average number of UEs in RRC_CONNECTED state)x100 % Aver UE Act SCell=(average avg([M8001C499]/100) number of UEs with activated two SCells in DL) Num ABSs =Number of ABSs
sum([M8011C112] * 0,15 + [M8011C113] * 0,25 + [M8011C114] * 0,375 + [M8011C115] * 0,5 + [M8011C116] * 0,625 + [M8011C117] * 0,75)
eICIC Utilization =Number of ABSs / observation period [TTIs]
100*(sum([M8011C112] * 0,15 + [M8011C113] * 0,25 + [M8011C114] * 0,375 + [M8011C115] * 0,5 + [M8011C116] * 0,625 + [M8011C117] *0,75) ) / sum([M8001C265])
AVG DL ABS PRBs=(average sum([M8011C119].5+ [M8011C120].15 + (used/available)DL PRBs per ABS) [M8011C121].25 + [M8011C122].35 + [M8011C123].45 + [M8011C124].55 + [M8011C125].65 + [M8011C126].75 + [M8011C127].85 + AVG UL ABS PRBs=(average sum([M8011C130]*5+ [M8011C131]*15 + [M8011C128].95)/sum([M8011C118] + (used/available)UL PRBs per ABS) [M8011C132]*25 + [M8011C133]*35 + [M8011C119] + [M8011C120] + [M8011C121] + [M8011C134]*45 + [M8011C135]*55 + [M8011C122] + [M8011C123] + [M8011C124] + [M8011C136]*65 + [M8011C137]*75 + [M8011C125] + [M8011C126] + [M8011C127] + [M8011C138]*85 + UE ECM_IDLE R 100*sum([M8013C28]) / sum([M8013C13] + [M8011C128]) [M8011C139]*95)/sum([M8011C129] + ResNotAvailable=( transactions [M8013C16] + [M8013C15] + [M8013C10] + [M8011C130] + [M8011C131] + [M8011C132] Radio resources not available/ all [M8013C12] + [M8013C11] + [M8013C9] + + [M8011C133] transactions)*100% [M8013C28]) + [M8011C134] + [M8011C135] + [M8011C136] + [M8011C137] + [M8011C138] + E-CID InitReq SR =100*(Number [M8011C139]) 100*(sum([M8000C44] / sum([M8000C43])) of E-CID Initiation Response Messages / Number of E-CID Initiation Request Messages)
E-CID InitReq FR ReqI Not 100*(sum([M8000C45] / sum([M8000C43])) Supp=100*(Number of E-CID Initiation Failure Messages due to "Requested Item not Supported" / Number of E-CID E-CID InitReq FR Initiation ReqI Not 100*(sum([M8000C46] / sum([M8000C43])) Request Messages) Avail=100*(Number of E-CID Initiation Failure Messages due to " Requested Item Temporarily not Available" ERAB Mod/ Number SR QCI1of= E-CID 100*Succ 100*sum([M8006C64]) / sum([M8006C55]) Initiation Request Messages) E-RAB QCI1 Modifications / Att ERAB QCI1 Modifications ERAB Mod SR QCI2 = 100*Succ 100*sum([M8006C65]) / sum([M8006C56]) E-RAB QCI2 Modifications / Att ERAB QCI2 Modifications ERAB Mod SR QCI3 = 100*Succ 100*sum([M8006C66]) / sum([M8006C57]) E-RAB QCI3 Modifications / Att ERAB QCI3 Modifications ERAB Mod SR QCI4 = 100*Succ 100*sum([M8006C67]) / sum([M8006C58]) E-RAB QCI4 Modifications / Att ERAB QCI4 Modifications E-RAB ModFR RNLResUn = (ERAB modification failure_ Radio Network Layer Cause - Radio resources not available / E-RAB modification attempts) * 100% E-RAB ModFR TNLResUn = (ERAB modification failure_ Transport Layer cause - Transport Resource Unavailable / E-RAB modification attempts) * 100% Perc ACB = (Time period of
100*sum([M8006C237]) / sum([M8006C55] + [M8006C56] + [M8006C57] + [M8006C58] + [M8006C59] + [M8006C60] + [M8006C61] + [M8006C62] + [M8006C63]) 100*sum([M8006C238]) / sum([M8006C55] + [M8006C56] + [M8006C57] + [M8006C58] + [M8006C59] + [M8006C60] + [M8006C61] + [M8006C62] + [M8006C63]) 100*sum([M8001C322]) / sum([M8001C319])
automatic Access Class Barring due to overload)/(observation period) x100% SCell SchedBlock For1b = SCell Scheduling Blocking Rate due to Conflicts on PUCCH Format 1bwcs Resources
avg([M8011C166])
SCell SchedBlock For3 = SCell Scheduling Blocking Rate due to Conflicts on PUCCH Format 3 Resources
avg([M8011C167])
CELL PwRSav = (time of cell is in sum([M8020C7]) / sum([M8020C6]) * 100 power saving mode) / (total measured time)
E-RAB DRCause = (abnormal ERAB release request_x / all ERAB releases) * 100%
100*sum([M8006C259]) / sum([M8006C254] + [M8006C261] + [M8006C6] + [M8006C7] + [M8006C8] + [M8006C9])
E-RAB DRCause = (abnormal ERAB release request_x / all ERAB releases) * 100%
100*sum([M8006C264]) / sum([M8006C254] + [M8006C261] + [M8006C6] + [M8006C7] + [M8006C8] + [M8006C9])
E-RAB DRCause = (abnormal ERAB release request_x / all ERAB releases) * 100%
100*sum([M8006C261]) / sum([M8006C254] + [M8006C261] + [M8006C6] + [M8006C7] + [M8006C8] + [M8006C9])
AVG CQI = sum(number of hits for CW1 in class_x * x) / sum(total number of hits for CW1 over all classes) xS1= SFR 0, ...,=15 (RRC connection setup
sum(1 * [M8010C77] + 2 * [M8010C78] + 3 * [M8010C79] + 4 * [M8010C80] + 5 * [M8010C81] + 6 * [M8010C82] + 7 * [M8010C83] + 8 * [M8010C84] + 9 * [M8010C85] + 10 * [M8010C86] + 11 *+ 100*sum([M8013C65] + [M8013C66] [M8010C87] + 12 * [M8010C88] + 13 * failure_x / RRC connection [M8013C67] + [M8013C68] + [M8013C69]) / [M8010C89] + 14 * [M8010C90] * requests) * 100% sum([M8013C17] + [M8013C18] ++ 15 [M8013C19] [M8010C91]) sum([M8010C76] + [M8010C77] + [M8013C34]/ + [M8013C31]] + [M8013C21]) + [M8010C78] + Perc C plane Cell Overload =100* 100*sum([M8001C149] + [M8001C152]) / + [M8010C79] + [M8010C80] + [M8010C81] (aggregated time period of the sum([M8001C319]) [M8010C82] + Control Plane during Overload [M8010C83] + [M8010C84] + [M8010C85] + level 1 and 2 [M8010C86] + operation)/measurement period [M8010C87] + [M8010C88] + [M8010C89] + / Perc U plane Cell Overload =100* 100*sum([M8001C299] + [M8001C300])*1.024 duration) [M8010C90] + (aggregated time period of the sum([M8001C319]) User Plane during Overload level [M8010C91]) 1 and 2 operation)/measurement period duration) QCI1 HO Inter Frequency sum([M8021C37]) Attempts = (number of InterFrequency HO attempts with QCI1) Inter Frequency QCI1 HO SR = (number of successful InterFrequency Hos with QCI1) / (number of Inter-Frequency HO attempts 100% Prep Inter RATwith HO QCI1) 1xRTT*SRVCC
100 * sum([M8021C38]) / sum ([M8021C37])
RAT HO preparations to 1xRTT with SRVCC due to expiry of guarding timer TUlHoPrepTransfer1xSrvcc) / (number of inter RAT HO preparation attempts to 1xRTT with SRVCC) * 100%
sum ([M8016C36])
sum([M8016C36]) Att = (number of inter RAT HO preparation attempts to 1xRTT with Inter SRVCC) RAT HO 1xRTT SRVCC Prep 100 * sum([M8016C40]) SR = (number of successful inter / RAT HO preparations to 1xRTT sum ([M8016C36]) with SRVCC) /(number of inter RAT to Inter HO RATpreparation HO 1xRTT attempts SRVCC Prep 100 * sum([M8016C37]) 1xRTT with SRVCC) * 100% FR #1 = (number of failed inter /
Inter RAT HO 1xRTT SRVCC Prep FR #2 = (number of failed inter RAT HO preparations to 1xRTT with SRVCC due to expiry of guarding Inter RATtimer HO 1xRTT SRVCC Prep TC2KRelocPrep1xSrvcc) FR #3 = (number of failed/Inter (number of inter RAT HO System Handover preparations to preparation attempts to 1xRTT with SRVCC due1xRTT to with SRVCC)Failure * 100% received Inter RATHO HO 1xRTTindication SRVCC Prep message) / FR #4 = (number of failed Inter (number of inter RAT HO System Handover preparations to preparation attempts to 1xRTT with SRVCC due1xRTT to other with SRVCC) * 100% causes at HO RRC) / Inter RAT 1xRTT SRVCC Att = (number of inter HOHandover (number of Inter RAT System preparation attempts to 1xRTT attempts to 1xRTT with SRVCC) with SRVCC) * 100%
100 * sum([M8016C38]) / sum ([M8016C36])
Inter RAT HO 1xRTT SRVCC FR = (number of eNB initiated UE context releases due to intersystem handover to 1xRTT with SRVCC) / Average number of CRAN (number of Inter2RX System Handover receptions with Antennas = attempts to 1xRTT with SRVCC) * 100% * 100% (Sum of CRAN receptions with
100 * sum([M8016C42]) / sum ([M8016C41])
100 * sum([M8016C39]) / sum ([M8016C36]) 100 * sum([M8016C36] - [M8016C40] [M8016C37] - [M8016C38] -[M8016C39]) / sum ([M8016C36]) sum ([M8016C41])
100 * sum([M8029C33]) / sum ([M8012C89])
2RX Antennas) Average number/ (Number of CRAN of TTIs 100 * sum([M8029C34]) / in UL with at least one UE receptions with 4RX Antennas = sum ([M8012C89]) scheduled to transmit user plane 100% * data) (Sum of CRAN receptions with 4RX Antennas) Average number/ (Number of CRAN of TTIs 100 * sum([M8029C35]) / in UL with at least one UE receptions with 8RX Antennas = sum ([M8012C89]) scheduled to transmit user plane 100% * (Sum of CRAN receptions data) with 8RX Antennas) / (Number of TTIs UL with at least one UE Load in Balancing HO Attempts to scheduled to transmit user UTRAN = sum(Inter Systemplane load data) balancing handover attempts to
sum ([M8016C43])
UTRAN) Load Balancing HO Success Ratio to UTRAN = 100% * sum(Successful Inter System load balancing handover completions to UTRAN) Active Load/ Balancing state to sum(Inter System balancing UTRAN time ratio load = 100% * handover attempts to UTRAN) sum(High cell load indicator for load balancing to UTRAN) / sum(Denominator RRC SCell Configured toforSwapped Connected UEs per cell) Success Ratio = 100% *
100 * sum([M8016C44]) / sum ([M8016C43]) 100 * sum([M8011C162] / [M8001C319]
100 * sum([M8011C165]) / sum(Number of event A6 triggered sum([M8011C68]) SCell swaps) / sum(Number of successful SCell configurations)
Average number of activated avg([M8030C1]) MBMS sessions in the cell = sum(Average number of activated MBMS sessions) MBMS user data volume on M1 interface = sum(MBMS user data volume (M1 interface))
sum([M8030C3])
MBMS user data volume on eUu interface = sum(MBMS user data volume (eUu interface))
sum([M8030C2])
Lost MBMS user data volume on M1 interface type #1 = sum(Lost MBMS user data volume (M1 interface))
sum([M8030C4])
Dropped MBMS user data volume sum([M8030C5]) on M1 interface type #1 = sum(Dropped MBMS user data volume 1 (M1 interface)) Dropped MBMS user data volume sum([M8030C6]) on M1 interface type #2 = sum(Dropped MBMS user data volume 2) A4 measurement activations for MBIMLB = 100% * sum(Number of A4 measurement activations for Measurement Based IMLB) A4 measurement activation Success Ratio for MBIMLB = 100% * sum(Number of successfully evaluated A4 CW0 measurement AVG CQI for = sum(number reports for Measurement Based of hits in class_x * x - number of IMLB) / hits for CW1 in class_x * x) / sum(Number of A4ofmeasurement sum(total number hits over all activations for Measurement classes total number of requests hits for CSFB 1xRTT Parameter Based IMLB) CW1 over all classes) = sum(CS Fallback 1xRTT Parameter requests) x = 0, ..., 15 CSFB 1xRTT Parameter SR = 100% * sum(CS Fallback 1xRTT Parameter responses) / sum(CS Fallback 1xRTT CSFB preparations to 1xRTT = Parameter requests) sum(CS Fallback preparations to 1xRTT)
sum([M8034C0])
100 * sum([M8034C1]) / sum([M8034C0]) sum(1 * ([M8010C37] - [M8010C77]) + 2 * ([M8010C38] - [M8010C78]) + 3 * ([M8010C39] - [M8010C79]) + 4 * ([M8010C40] [M8010C80]) + 5 * ([M8010C41] - [M8010C81]) + 6 * ([M8010C42] - [M8010C82]) + 7 * sum([M8016C45]) ([M8010C43] - [M8010C83]) + 8 * ([M8010C44] - [M8010C84]) + 9 * ([M8010C45] [M8010C85]) + 10 * ([M8010C46] [M8010C86]) + 11 * ([M8010C47] - [M8010C87]) 100 + 12**sum([M8016C46]) ([M8010C48] - [M8010C88]) + 13 * /([M8010C49] - [M8010C89]) + 14 * sum([M8016C45]) ([M8010C50] - [M8010C90]) + 15 * ([M8010C51] - [M8010C91])) / (sum([M8010C36] sum([M8016C47]) + [M8010C37] + [M8010C38] + [M8010C39] + [M8010C40] + [M8010C41] + [M8010C42] + [M8010C43] + [M8010C44] + [M8010C45] + [M8010C46] + [M8010C47] + [M8010C48] + [M8010C49] + [M8010C50] + [M8010C51]) - sum([M8010C76] + [M8010C77] + [M8010C78] + [M8010C79] + [M8010C80] + [M8010C81] + [M8010C82] + [M8010C83] + [M8010C84] + [M8010C85] + [M8010C86] + [M8010C87] + [M8010C88] + [M8010C89] + [M8010C90] + [M8010C91]))
CSFB preparations SR to 1xRTT = 100% * sum(CS Fallback UL Handover Preparation Transfers to 1xRTT) / sum(CS Fallback preparations CSFB preparation Failure Ratiototo 1xRTT) 1xRTT due to HO Failure = 100%
100 * sum([M8016C48]) / sum([M8016C47]) 100 * sum([M8016C49]) / sum([M8016C47])
* sum(Failed CS Fallback preparations to 1xRTT=due to DL Spectral efficiency [M8012C20] * 8 / [M8011C54] / 180 received HO Failure (PDCP SDU volume indication in message) /sum(CS Fallback DL[bits]/Measurement period preparations to 1xRTT) duration [seconds])/(averaged # of PRBs used for PDSCH=*(PDCP 180 000 UL Spectral efficiency [Hz]) SDU volume in
[M8012C19] *8 / [M8011C50] / 180
DL[bits]/Measurement period duration [seconds])/(averaged # of PRBs used for PDSCH * 180 000 100%* avg(([M8001C198] / 100) Percentage of CoMP UEs = (UL [Hz]) average number of UEs utilizing *sum([M8012C89]) / sum([M8001C295]) intra-eNB CoMP) / (average number of active UEs with scheduiled data inofUL) CELL AVR=(time cell*100% is sum([M8020C3]) / available for services) / (total measured time)= (number of samples when cell is available) / CELL PL UAVR= (time of cell is (number of all samples) planned unavailable for services) / (total measured time)= (number of samples when cell is planned unavailable) / of cell is CELL UPL UAVR=(time (number of all samples) unplanned unavailable for
sum([M8020C6])*100%
sum([M8020C4]) / sum([M8020C6])*100
sum([M8020C5]) / sum([M8020C6])*100%
services) / (total measured time)= (number of samples when cell is unplanned unavailable) / E-RAB SFRCause = (E-RAB 100*sum([M8006C247] + [M8006C251]) (number of all samples) setup failure_x / E-RAB setup / attempts) * 100% sum([M8006C0]) E-RAB SFRCause = (E-RAB setup failure_x / E-RAB setup attempts) * 100%
100*sum([M8006C252]) / sum([M8006C0])
E-RAB SFRCause = (E-RAB setup failure_x / E-RAB setup attempts) * 100%
100*sum([M8006C253]) / sum([M8006C0])
E-RAB DRCause = (abnormal ERAB release request_x / all ERAB releases) * 100%
100*sum([M8006C14]) / sum([M8006C254] + [M8006C261] + [M8006C6] + [M8006C7] + [M8006C8] + [M8006C9])
Avg Num of Act UEs with UE Cat N = (Act UE Cat N Avg)
avg([M8001C489])
Avg Num of Act UEs with UE Cat N = (Act UE Cat N Avg)
avg([M8001C490])
Avg Num of Act UEs with UE Cat N = (Act UE Cat N Avg)
avg([M8001C491])
Avg Num of Act UEs with UE Cat N = (Act UE Cat N Avg)
avg([M8001C492])
ACT UE D AVG DL=( DL average sum([M8001C264])/sum([M8001C265]) number of active UEs with data in buffer per cell) ACT UE D AVG UL =(UL average sum([M8001C266])/sum([M8001C267]) number of active UEs with data in buffer per cell) ACT UE D MAX DL=( DL maximum number of active UEs with data in buffer per cell)
max([M8001C148])
ACT UE D MAX UL=(UL maximum max([M8001C151]) number of active UEs with data in buffer per cell) ACT UE ENB=(average number of sum([M8018C8])/sum([M8018C9]) active UEs per eNB)
avg([UE_DRB_DL_DATA_QCI_1]/ avg([M8001C227]/100) 100)
avg([UE_DRB_DL_DATA_NON_G avg([M8001C235]/100) BR]/100)
avg([UE_DRB_UL_DATA_QCI_1]/ avg([M8001C419]/100) 100)
avg([UE_DRB_UL_DATA_NON_G avg([M8001C420]/100) BR]/100)
UL RLC PDU VOL= (UL received RLC PDU volume)
sum([M8012C17])/1000
E-RAB DR PDCP SDU VOL = (abnormal E-RAB release requests, user perspective / PDCP SDU Vol) * 100%
1000000000 * sum ([M8006C261] + [M8006C254] - [M8006C255] - [M8006C258] [M8006C260] +[M8006C8] + [M8006C9]) / (sum([M8012C19] + [M8012C20])
ETH THP DL=(incoming Eth octets [kB])*8 / measurement duration [sec]
sum([M51123C0]) *8 / (sum(MEASUREMENT_DURATION)*60)
ETH THP DL=(incoming Eth octets [kB])*8 / measurement duration [sec]
sum([M51129C1]) *8 / (sum(MEASUREMENT_DURATION)*60)
ETH THP UL=(outgoing Eth octets sum([M51123C1]) *8 / [kB])*8 / measurement duration (sum(MEASUREMENT_DURATION)*60) [sec] ETH THP UL=(outgoing Eth octets sum([M51129C3]) *8 / [kB])*8 / measurement duration (sum(MEASUREMENT_DURATION)*60) [sec] ETH IN ER= (incoming erroneous sum([M51123C4] + [M51123C7]) / Eth packets) / sum([M51123C2])*100 (total incoming Eth packets)
KPI Formula (with NetAct Names)
100*sum([DATA_RB_STP_COMP]) / sum([DATA_RB_STP_ATT])
100*sum([ERAB_REL_HO_PART] + [ERAB_REL_ENB] [ERAB_REL_ENB_RNL_INA] [ERAB_REL_ENB_RNL_RED] [ERAB_REL_ENB_RNL_RRNA] + / 100*sum([UE_CTX_SETUP_SUCC]) [EPC_EPS_BEARER_REL_REQ_RNL] + sum([UE_CTX_SETUP_ATT]) [EPC_EPS_BEARER_REL_REQ_OTH])/su m([ERAB_REL_ENB] + [ERAB_REL_HO_SUCC] + 100*sum([S1_SETUP_SUCC]) / [ERAB_REL_HO_PART] + sum([S1_SETUP_ATT]) [EPC_EPS_BEARER_REL_REQ_NORM] + [EPC_EPS_BEARER_REL_REQ_DETACH] + [EPC_EPS_BEARER_REL_REQ_RNL] + [EPC_EPS_BEARER_REL_REQ_OTH]) 100*sum([EPS_BEARER_SETUP_COMPL ETIONS]) / sum([EPS_BEARER_SETUP_ATTEMPTS]) 100*sum([ERAB_REL_ENB_RNL_INA] + [ERAB_REL_ENB_RNL_RED] + [ERAB_REL_ENB_RNL_RRNA] + [EPC_EPS_BEARER_REL_REQ_NORM] + [EPC_EPS_BEARER_REL_REQ_DETACH] 100*sum([ERAB_REL_ENB_RNL_INA] + )/sum([ERAB_REL_ENB] + [ERAB_REL_ENB_RNL_RED] + [ERAB_REL_HO_PART] + [ERAB_REL_ENB_RNL_RRNA] + [EPC_EPS_BEARER_REL_REQ_NORM] [EPC_EPS_BEARER_REL_REQ_NORM] + + [EPC_EPS_BEARER_REL_REQ_DETACH] [EPC_EPS_BEARER_REL_REQ_DETACH] 100*sum([ERAB_REL_HO_PART] + + [EPC_EPS_BEARER_REL_REQ_RNL] + + [EPC_EPS_BEARER_REL_REQ_RNL] + [ERAB_REL_ENB] [EPC_EPS_BEARER_REL_REQ_OTH]) [EPC_EPS_BEARER_REL_REQ_OTH])/su [ERAB_REL_ENB_RNL_INA] m([ERAB_REL_ENB] + [ERAB_REL_ENB_RNL_RED] [ERAB_REL_HO_PART] + [ERAB_REL_ENB_RNL_RRNA])/sum([ERA 100*sum([DISC_RRC_PAGING]) / [EPC_EPS_BEARER_REL_REQ_NORM] B_REL_ENB] + [ERAB_REL_HO_PART] ++ sum([RRC_PAGING_REQUESTS]) [EPC_EPS_BEARER_REL_REQ_DETACH] [EPC_EPS_BEARER_REL_REQ_NORM] + + [EPC_EPS_BEARER_REL_REQ_RNL] + [EPC_EPS_BEARER_REL_REQ_DETACH] [EPC_EPS_BEARER_REL_REQ_OTH]) + [EPC_EPS_BEARER_REL_REQ_RNL] + 100*sum([SUCC_INTRA_ENB_HO]) / [EPC_EPS_BEARER_REL_REQ_OTH]) sum([ATT_INTRA_ENB_HO])
Formula Note
100*sum([ATT_INTRA_ENB_HO]) / sum([INTRA_ENB_HO_PREP])
100*sum([ENB_INTRA_HO_FAIL]) / sum([ATT_INTRA_ENB_HO])
100*sum([SUCC_INTRA_ENB_HO]) / sum([INTRA_ENB_HO_PREP])
100*sum([SUCC_INTER_ENB_HO]) / sum ([ATT_INTER_ENB_HO])
100*sum([ATT_INTER_ENB_HO]) / sum ([INTER_ENB_HO_PREP])
100*sum([INTER_ENB_HO_FAIL]) / sum ([ATT_INTER_ENB_HO])
100*sum([SUCC_INTER_ENB_HO]) / sum([INTER_ENB_HO_PREP])
100*(sum([SIGN_CONN_ESTAB_COMP]) / sum([SIGN_CONN_ESTAB_ATT_MO_S] + [SIGN_CONN_ESTAB_ATT_MT] + [SIGN_CONN_ESTAB_ATT_MO_D] + [SIGN_CONN_ESTAB_ATT_DEL_TOL] sum([VOLUME_X2_IN_SIG_DATA])*8 / + [SIGN_CONN_ESTAB_ATT_HIPRIO]] (sum(PERIOD_DURATION )*60*1000) + [SIGN_CONN_ESTAB_ATT_EMG])) * (sum([S1_SIGN_CONN_ESTAB_SUCC_UE sum([VOLUME_X2_OUT_SIG_DATA])*8 / ]) / (sum(PERIOD_DURATION )*60*1000) sum([S1_SIGN_CONN_ESTAB_ATT_UE])) * (sum([ERAB_INI_SETUP_SUCC_QCI1] + [ERAB_INI_SETUP_SUCC_QCI2] + sum([X2_DATA_VOL_IN_UPLANE])*8/1000 /[ERAB_INI_SETUP_SUCC_QCI3] (sum(PERIOD_DURATION )*60) + [ERAB_INI_SETUP_SUCC_QCI4] + [ERAB_INI_SETUP_SUCC_QCI5] + [ERAB_INI_SETUP_SUCC_QCI6] + sum([X2_DATA_VOL_OUT_UPLANE])*8/10 [ERAB_INI_SETUP_SUCC_QCI7] + 00 / (sum(PERIOD_DURATION )*60) [ERAB_INI_SETUP_SUCC_QCI8] + [ERAB_INI_SETUP_SUCC_QCI9]) / sum([ERAB_INI_SETUP_ATT_QCI1] + [ERAB_INI_SETUP_ATT_QCI2] + [ERAB_INI_SETUP_ATT_QCI3] + [ERAB_INI_SETUP_ATT_QCI4] + [ERAB_INI_SETUP_ATT_QCI5] + [ERAB_INI_SETUP_ATT_QCI6] + [ERAB_INI_SETUP_ATT_QCI7] + [ERAB_INI_SETUP_ATT_QCI8] + [ERAB_INI_SETUP_ATT_QCI9]))
sum([ifOutOctets15]) / 1000
sum([ifInOctets15])/1000
sum([ifOutOctets15]) *8 / (sum(MEASUREMENT_DURATION)*60)
sum([ifInOctets15]) *8 / (sum(MEASUREMENT_DURATION )*60)
100 * sum([ifInErrors15]) / sum([ifInPackets15] + [ifInErrors15])
100*sum([INTER_ENB_S1_HO_ATT]) / sum([INTER_ENB_S1_HO_PREP])
100*sum([INTER_S1_HO_PREP_FAIL_TIM E]) / sum([INTER_ENB_S1_HO_PREP])
100*sum([INTER_S1_HO_PREP_FAIL_NO RR]) / sum([INTER_ENB_S1_HO_PREP])
100*sum([INTER_S1_HO_PREP_FAIL_OT HER]) / sum([INTER_ENB_S1_HO_PREP])
100*sum([INTER_ENB_S1_HO_SUCC]) / sum([INTER_ENB_S1_HO_ATT])
100*sum([INTER_ENB_S1_HO_FAIL]) / sum([INTER_ENB_S1_HO_ATT])
100*sum([INTER_ENB_S1_HO_SUCC]) / sum([INTER_ENB_S1_HO_PREP])
100*sum([ERAB_INI_SETUP_FAIL_RNL_U EL] + [ERAB_ADD_SETUP_FAIL_RNL_UEL]) / sum([EPS_BEARER_SETUP_ATTEMPTS]) 100*sum([ERAB_INI_SETUP_FAIL_TNL_T RU] + [ERAB_ADD_SETUP_FAIL_TNL_TRU]) / sum([EPS_BEARER_SETUP_ATTEMPTS]) 100*sum([ERAB_INI_SETUP_FAIL_RNL_R RNA] + [ERAB_ADD_SETUP_FAIL_RNL_RRNA]) / sum([EPS_BEARER_SETUP_ATTEMPTS]) 100*sum([EPS_BEARER_SETUP_ATTEM PTS] [EPS_BEARER_SETUP_COMPLETIONS] [ERAB_INI_SETUP_FAIL_RNL_UEL] [ERAB_ADD_SETUP_FAIL_RNL_UEL] 100*sum([ERAB_REL_ENB_RNL_UEL])- / [ERAB_INI_SETUP_FAIL_TNL_TRU] sum([ERAB_REL_ENB] + [ERAB_ADD_SETUP_FAIL_TNL_TRU] [ERAB_REL_HO_PART] + [ERAB_INI_SETUP_FAIL_RNL_RRNA] - + [EPC_EPS_BEARER_REL_REQ_NORM] [ERAB_ADD_SETUP_FAIL_RNL_RRNA]) / [EPC_EPS_BEARER_REL_REQ_DETACH] 100*sum([ERAB_REL_ENB_TNL_TRU]) / sum([EPS_BEARER_SETUP_ATTEMPTS]) + [EPC_EPS_BEARER_REL_REQ_RNL] + sum([ERAB_REL_ENB] + [EPC_EPS_BEARER_REL_REQ_OTH]) [ERAB_REL_HO_PART] + [EPC_EPS_BEARER_REL_REQ_NORM] + [EPC_EPS_BEARER_REL_REQ_DETACH] 100*sum([ERAB_REL_ENB] + [EPC_EPS_BEARER_REL_REQ_RNL] + [ERAB_REL_ENB_RNL_UEL] [EPC_EPS_BEARER_REL_REQ_OTH]) [ERAB_REL_ENB_TNL_TRU] [ERAB_REL_HO_FAIL_TIM] [ERAB_REL_ENB_RNL_INA] 100*sum([S1_SETUP_FAIL_NO_RESP]) / [ERAB_REL_ENB_RNL_RED] sum([S1_SETUP_ATT]) [ERAB_REL_ENB_RNL_EUGR] [ERAB_REL_ENB_RNL_RRNA]) / sum([ERAB_REL_ENB] + 100*sum([S1_SETUP_FAIL_IND_BY_MME] [ERAB_REL_HO_PART] + )[EPC_EPS_BEARER_REL_REQ_NORM] / + sum([S1_SETUP_ATT]) [EPC_EPS_BEARER_REL_REQ_DETACH] + [EPC_EPS_BEARER_REL_REQ_RNL] + [EPC_EPS_BEARER_REL_REQ_OTH]) 100*sum([FAIL_ENB_HO_PREP_AC]) / sum([INTRA_ENB_HO_PREP])
100*sum([FAIL_ENB_HO_PREP_OTH]) / sum([INTRA_ENB_HO_PREP])
100*sum([FAIL_ENB_HO_PREP_TIME]) / sum([INTER_ENB_HO_PREP])
100*sum([FAIL_ENB_HO_PREP_AC]) / sum ([INTER_ENB_HO_PREP])
100*sum([FAIL_ENB_HO_PREP_OTHER]) / sum ([INTER_ENB_HO_PREP]) 100*sum([CSFB_REDIR_CR_CMODE_ATT ]) / sum([CSFB_REDIR_CR_ATT])
100*sum([CSFB_REDIR_CR_ATT] [CSFB_REDIR_CR_CMODE_ATT]) / sum([CSFB_REDIR_CR_ATT]) 100*sum([CSFB_REDIR_CR_EMERGENC Y_ATT]) / sum([CSFB_REDIR_CR_ATT])
100* sum([ERAB_INI_SETUP_SUCC_QCI1]+ [ERAB_INI_SETUP_SUCC_QCI2] + [ERAB_INI_SETUP_SUCC_QCI3] + [ERAB_INI_SETUP_SUCC_QCI4] + 100* [ERAB_INI_SETUP_SUCC_QCI5] + sum([ERAB_ADD_SETUP_SUCC_QCI1]+ [ERAB_INI_SETUP_SUCC_QCI6] ++ [ERAB_ADD_SETUP_SUCC_QCI2] [ERAB_INI_SETUP_SUCC_QCI7] ++ [ERAB_ADD_SETUP_SUCC_QCI3] [ERAB_INI_SETUP_SUCC_QCI8] + [ERAB_ADD_SETUP_SUCC_QCI4] 100*sum([HO_INTFREQ_SUCC]) / + [ERAB_INI_SETUP_SUCC_QCI9]) [ERAB_ADD_SETUP_SUCC_QCI5] + sum([HO_INTFREQ_ATT]) /sum([ERAB_INI_SETUP_ATT_QCI1]+ [ERAB_ADD_SETUP_SUCC_QCI6] + [ERAB_INI_SETUP_ATT_QCI2] + + [ERAB_ADD_SETUP_SUCC_QCI7] [ERAB_INI_SETUP_ATT_QCI3] + + [ERAB_ADD_SETUP_SUCC_QCI8] [ERAB_INI_SETUP_ATT_QCI4] + 100*sum([HO_INTFREQ_GAP_SUCC]) / [ERAB_ADD_SETUP_SUCC_QCI9]) [ERAB_INI_SETUP_ATT_QCI5] + sum([HO_INTFREQ_GAP_ATT]) /sum([ERAB_ADD_SETUP_ATT_QCI1]+ [ERAB_INI_SETUP_ATT_QCI6] ++ [ERAB_ADD_SETUP_ATT_QCI2] [ERAB_INI_SETUP_ATT_QCI7] ++ [ERAB_ADD_SETUP_ATT_QCI3] [ERAB_INI_SETUP_ATT_QCI8] ++ [ERAB_ADD_SETUP_ATT_QCI4] DATA_RB_STP_ATT = [ERAB_INI_SETUP_ATT_QCI9]) [ERAB_ADD_SETUP_ATT_QCI5] + sum([DATA_RB_STP_ATT]) [ERAB_ADD_SETUP_ATT_QCI6] + [ERAB_ADD_SETUP_ATT_QCI7] + [ERAB_ADD_SETUP_ATT_QCI8] + 100 - 100*sum([ERAB_REL_HO_PART] + [ERAB_ADD_SETUP_ATT_QCI9]) [ERAB_REL_ENB] [ERAB_REL_ENB_RNL_INA] [ERAB_REL_ENB_RNL_RED] [ERAB_REL_ENB_RNL_RRNA] + sum([EPS_BEARER_SETUP_ATTEMPTS]) [EPC_EPS_BEARER_REL_REQ_RNL] + [EPC_EPS_BEARER_REL_REQ_OTH])/su m([ERAB_REL_ENB] + [ERAB_REL_HO_SUCC] + [ERAB_REL_HO_PART] + [EPC_EPS_BEARER_REL_REQ_NORM] + [EPC_EPS_BEARER_REL_REQ_DETACH] + [EPC_EPS_BEARER_REL_REQ_RNL] + [EPC_EPS_BEARER_REL_REQ_OTH])
100*sum([ERAB_REL_HO_PART] + [ERAB_REL_ENB] [ERAB_REL_ENB_RNL_INA] [ERAB_REL_ENB_RNL_RED] [ERAB_REL_ENB_RNL_RRNA] sum([UE_CTX_SETUP_ATT]) + [EPC_EPS_BEARER_REL_REQ_RNL] + [EPC_EPS_BEARER_REL_REQ_OTH])/su m([ERAB_REL_ENB] + [ERAB_REL_HO_PART] + sum([S1_SETUP_ATT]) [EPC_EPS_BEARER_REL_REQ_NORM] + [EPC_EPS_BEARER_REL_REQ_DETACH] + [EPC_EPS_BEARER_REL_REQ_RNL] + [EPC_EPS_BEARER_REL_REQ_OTH]) sum([RRC_PAGING_REQUESTS])
sum([INTRA_ENB_HO_PREP])
sum([ATT_INTRA_ENB_HO])
sum ([ATT_INTER_ENB_HO])
sum ([INTER_ENB_HO_PREP])
sum([INTER_ENB_S1_HO_PREP])
avg([PDCP_SDU_DELAY_DL_DTCH_MEA N])
avg([PDCP_SDU_DELAY_UL_DTCH_MEA N])
sum([RRC_CON_RE_ESTAB_ATT_HO_FAI L])
sum([RRC_CON_RE_ESTAB_ATT_OTHER ])
100*sum([RRC_CON_RE_ESTAB_SUCC]) / sum([RRC_CON_RE_ESTAB_ATT])
100*sum([REJ_RRC_CONN_RE_ESTAB]) / sum([RRC_CON_RE_ESTAB_ATT])
100*sum([RRC_CON_RE_ESTAB_ATT][RRC_CON_RE_ESTAB_SUCC] [REJ_RRC_CONN_RE_ESTAB]) / sum([RRC_CON_RE_ESTAB_ATT]) 100*sum([S1AP_PARTIAL_RESET_INIT_E NB]) / sum([S1AP_PARTIAL_RESET_INIT_ENB] + [S1AP_PARTIAL_RESET_INIT_MME]) 100*sum([S1AP_PARTIAL_RESET_INIT_M ME]) / sum([S1AP_PARTIAL_RESET_INIT_ENB] + [S1AP_PARTIAL_RESET_INIT_MME]) 100*sum([ACT_UE_CONT_REL_INIT_ENB ] + [ACT_UE_CONT_REL_INIT_MME]) / sum([SUM_ACTIVE_UE_ENB]/ [DENOM_ACTIVE_UE_ENB]) 100*sum([UE_CONT_REL_INIT_ENB] + [UE_CONT_REL_INIT_MME]) / sum([SUM_RRC_CONN_UE]/ [DENOM_RRC_CONN_UE]) sum([HO_EMG_PREP])
100*sum([HO_EMG_ATT]) / sum([HO_EMG_PREP])
sum([HO_EMG_ATT])
100*sum(([HO_EMG_SUCC])/ sum([HO_EMG_ATT])
100*sum(([HO_EMG_SUCC])/ sum([HO_EMG_PREP])
sum([PDCCH_ORDER_ATT])
sum([PDCCH_INIT_ORDER_ATT])
100*sum([PDCCH_ORDER_SUCCESS])/su m([PDCCH_INIT_ORDER_ATT])
100*sum([PDCCH_ORDER_SUCCESS])/su m([PDCCH_INIT_ORDER_ATT] + [D_PREAMB_PDCCH_UNAVAIL]) sum([D_PREAMB_PDCCH_UNAVAIL])
sum([D_PREAMB_HO_UNAVAIL])
sum([D_PREAMB_UNAVAIL] [D_PREAMB_PDCCH_UNAVAIL] [D_PREAMB_HO_UNAVAIL]) sum([MRO_LATE_HO])
sum([MRO_EARLY_TYPE1_HO])
sum([MRO_EARLY_TYPE2_HO])
sum([HO_DRX_ATT])
100*sum([HO_DRX_SUCC]) / sum([HO_DRX_ATT])
sum([NACC_TO_GSM_ATT])
sum([ISYS_HO_PREP])
100*sum([ISYS_HO_ATT]+ [ISYS_HO_UTRAN_SRVCC_ATT]+ [ISYS_HO_GERAN_SRVCC_ATT])/ sum([ISYS_HO_PREP]) 100*sum([ISYS_HO_PREP_FAIL_TIM]) / sum([ISYS_HO_PREP])
100*sum([ISYS_HO_PREP_FAIL_AC]) / sum([ISYS_HO_PREP])
100*sum([ISYS_HO_PREP_FAIL_OTH]) / sum([ISYS_HO_PREP])
100*sum([ISYS_HO_SUCC]) / sum([ISYS_HO_ATT])
sum([ISYS_HO_ATT])
100*sum([ISYS_HO_FAIL]) / sum([ISYS_HO_ATT])
100* sum([ISYS_HO_SUCC]+ [ISYS_HO_UTRAN_SRVCC_SUCC]+ [ISYS_HO_GERAN_SRVCC_SUCC])/ sum([ISYS_HO_PREP]) 100*sum([ifInErrors15]) / sum([ifInPackets15]+ [ifInErrors15])
sum([E_RAB_SETUP_ATT_EMG])
100*sum([E_RAB_SETUP_SUCC_EMG]) / (sum[E_RAB_SETUP_ATT_EMG])
sum([E_RAB_SETUP_FAIL_RB_EMG])
100*sum([ERAB_INI_SETUP_SUCC_QCI1] + [ERAB_ADD_SETUP_SUCC_QCI1]) / sum([ERAB_INI_SETUP_ATT_QCI1] + [ERAB_ADD_SETUP_ATT_QCI1]) sum([ERAB_INI_SETUP_ATT_QCI1] + [ERAB_ADD_SETUP_ATT_QCI1])
sum([ERAB_INI_SETUP_ATT_QCI5] + [ERAB_INI_SETUP_ATT_QCI6] + [ERAB_INI_SETUP_ATT_QCI7] + [ERAB_INI_SETUP_ATT_QCI8] + [ERAB_INI_SETUP_ATT_QCI9] + / sum([UL_RLC_PDU_RETR_REQ]) [ERAB_ADD_SETUP_ATT_QCI5] + sum([UL_RLC_PDU_REC_TOT])*100 [ERAB_ADD_SETUP_ATT_QCI6] + [ERAB_ADD_SETUP_ATT_QCI7] + [ERAB_ADD_SETUP_ATT_QCI8] + sum([RLC_PDU_RE_TRANS]) / [ERAB_ADD_SETUP_ATT_QCI9])) sum([RLC_PDU_FIRST_TRANS]+ [RLC_PDU_RE_TRANS])*100 100*sum([ERAB_REL_ENB_RNL_INA_QCI 1] + [ERAB_REL_ENB_RNL_RED_QCI1] + [ERAB_REL_ENB_RNL_RRNA_QCI1] + [EPC_EPS_BEAR_REL_REQ_N_QCI1] + [EPC_EPS_BEAR_REL_REQ_D_QCI1]) / sum([RLC_PDU_VOL_TRANSMITTED])/10 sum([EPC_EPS_BEAR_REL_REQ_N_QCI 00 1] + [EPC_EPS_BEAR_REL_REQ_D_QCI1] + [EPC_EPS_BEAR_REL_REQ_R_QCI1] + sum([PDCP_SDU_VOL_DL])/1000000 + [EPC_EPS_BEAR_REL_REQ_O_QCI1] [ERAB_REL_ENB_QCI1] + [ERAB_REL_HO_PART_QCI1]) sum([PDCP_SDU_VOL_UL])/1000000
Max (sum([SUM_ACTIVE_UE_ENB])/sum([DEN OM_ACTIVE_UE_ENB])) sum([HARQ_RETRANS_ON_DL_SCH]) / sum([TRANSMIT_TB_ON_DL_SCH]+ [HARQ_RETRANS_ON_DL_SCH])*100 100*sum (([ERAB_INI_SETUP_SUCC_QCI5] + M8006C211] + M8006C212] + M8006C213] + M8006C214] + [ERAB_ADD_SETUP_SUCC_QCI5] + 100*sum([SIGN_CONN_ESTAB_COMP]) / [ERAB_ADD_SETUP_SUCC_QCI6] + sum([SIGN_CONN_ESTAB_ATT_MO_S] + [ERAB_ADD_SETUP_SUCC_QCI7] [SIGN_CONN_ESTAB_ATT_MT] + + [ERAB_ADD_SETUP_SUCC_QCI8] + [SIGN_CONN_ESTAB_ATT_MO_D] + [ERAB_ADD_SETUP_SUCC_QCI9]) / + [SIGN_CONN_ESTAB_ATT_DEL_TOL] 100*sum([ENB_INIT_TO_IDLE_NORM_RE sum([ERAB_INI_SETUP_ATT_QCI5] ++ [SIGN_CONN_ESTAB_ATT_HIPRIO] L]+ [ERAB_INI_SETUP_ATT_QCI6] + [SIGN_CONN_ESTAB_ATT_EMG]) [EPC_INIT_TO_IDLE_DETACH]+ [ERAB_INI_SETUP_ATT_QCI7] + [EPC_INIT_TO_IDLE_UE_NORM_REL]+ [ERAB_INI_SETUP_ATT_QCI8] + [PRE_EMPT_UE_CONTEXT_NON_GBR])/ [ERAB_INI_SETUP_ATT_QCI9] + 100*sum([SIGN_CONN_ESTAB_COMP_E ([ENB_INIT_TO_IDLE_NORM_REL]+ [ERAB_ADD_SETUP_ATT_QCI5] + MG]) [ENB_INIT_TO_IDLE_OTHER]+ [ERAB_ADD_SETUP_ATT_QCI6] + / sum([SIGN_CONN_ESTAB_ATT_EMG]) [ENB_INIT_TO_IDLE_RNL] + [ERAB_ADD_SETUP_ATT_QCI7] + [EPC_INIT_TO_IDLE_DETACH]+ [ERAB_ADD_SETUP_ATT_QCI8] + sum([SIGN_CONN_ESTAB_ATT_EMG]) [EPC_INIT_TO_IDLE_OTHER] + [ERAB_ADD_SETUP_ATT_QCI9])) [EPC_INIT_TO_IDLE_RNL]+ [EPC_INIT_TO_IDLE_UE_NORM_REL]+ [PRE_EMPT_UE_CONTEXT_NON_GBR]) 100*sum([SIGN_EST_F_RRCCOMPL_MIS SING]) / sum([SIGN_CONN_ESTAB_ATT_MO_S] + [SIGN_CONN_ESTAB_ATT_MT] + [SIGN_CONN_ESTAB_ATT_MO_D] + 100*sum([SIGN_EST_F_RRCCOMPL_ERR [SIGN_CONN_ESTAB_ATT_DEL_TOL] + OR]) / [SIGN_CONN_ESTAB_ATT_HIPRIO]] + sum([SIGN_CONN_ESTAB_ATT_MO_S] + [SIGN_CONN_ESTAB_ATT_EMG]) [SIGN_CONN_ESTAB_ATT_MT] + [SIGN_CONN_ESTAB_ATT_MO_D] + sum ([SIGN_CONN_ESTAB_ATT_MO_S]) [SIGN_CONN_ESTAB_ATT_DEL_TOL] + [SIGN_CONN_ESTAB_ATT_HIPRIO]] + [SIGN_CONN_ESTAB_ATT_EMG]) sum([SIGN_CONN_ESTAB_ATT_MT])
sum([SIGN_CONN_ESTAB_ATT_MO_D])
100*sum([EPC_EPS_BEARER_REL_REQ_ RNL]) / sum([ERAB_REL_ENB] + [ERAB_REL_HO_PART] + [EPC_EPS_BEARER_REL_REQ_NORM] + 100*sum([EPC_EPS_BEARER_REL_REQ_ [EPC_EPS_BEARER_REL_REQ_DETACH] OTH]) / + [EPC_EPS_BEARER_REL_REQ_RNL] + sum([ERAB_REL_ENB] + [EPC_EPS_BEARER_REL_REQ_OTH]) [ERAB_REL_HO_PART] + [EPC_EPS_BEARER_REL_REQ_NORM] + 100*sum([SAMPLES_CELL_AVAIL]/ [EPC_EPS_BEARER_REL_REQ_DETACH] ([DENOM_CELL_AVAIL]+ [EPC_EPS_BEARER_REL_REQ_RNL] + [SAMPLES_CELL_PLAN_UNAVAIL])) [EPC_EPS_BEARER_REL_REQ_OTH]) sum([INTER_ENB_S1_HO_ATT])
sum([SUM_RRC_CONN_UE])/sum([DENO M_RRC_CONN_UE])
100*sum([ISYS_HO_SUCC]+ [ISYS_HO_UTRAN_SRVCC_SUCC]+ [ISYS_HO_GERAN_SRVCC_SUCC]) / sum([ISYS_HO_ATT]+ [ISYS_HO_UTRAN_SRVCC_ATT]+ sum([ISYS_HO_ATT]+ [ISYS_HO_GERAN_SRVCC_ATT]) [ISYS_HO_UTRAN_SRVCC_ATT]+ [ISYS_HO_GERAN_SRVCC_ATT]) 100*sum([ISYS_HO_FAIL]+ [ISYS_HO_UTRAN_SRVCC_FAIL]+ [ISYS_HO_GERAN_SRVCC_FAIL]) / sum([ISYS_HO_ATT]+ [ISYS_HO_UTRAN_SRVCC_ATT]+ 100* sum([PDCP_SDU_DL_DISC])/ [ISYS_HO_GERAN_SRVCC_ATT]) sum([PDCP_SDU_DL]+ [PDCP_SDU_LOSS_DL_FNA]+ [PDCP_SDU_DL_DISC]) 100*sum([PDCP_SDU_DISC_DL_QCI_1])/ sum([PDCP_SDU_DL_QCI_1]+ [PDCP_SDU_LOSS_DL_QCI_1_FNA]+ [PDCP_SDU_DISC_DL_QCI_1]) 100*sum([PDCP_SDU_DISC_DL_QCI_2])/ sum([PDCP_SDU_DL_QCI_2]+ [PDCP_SDU_LOSS_DL_QCI_2_FNA]+ [PDCP_SDU_DISC_DL_QCI_2]) 100*sum([PDCP_SDU_DISC_DL_QCI_3])/ sum([PDCP_SDU_DL_QCI_3]+ [PDCP_SDU_LOSS_DL_QCI_3_FNA]+ [PDCP_SDU_DISC_DL_QCI_3])
100*sum([PDCP_SDU_DISC_DL_QCI_4])/ sum([PDCP_SDU_DL_QCI_4]+ [PDCP_SDU_LOSS_DL_QCI_4_FNA]+ [PDCP_SDU_DISC_DL_QCI_4]) 100*sum([PDCP_SDU_DL_DISC][PDCP_SDU_DISC_DL_QCI_1][PDCP_SDU_DISC_DL_QCI_2][PDCP_SDU_DISC_DL_QCI_3][PDCP_SDU_DISC_DL_QCI_4])/ 100*sum([S1AP_WRITE_REP_WARN_RE sum([PDCP_SDU_DL]+ SP] - [S1AP_WRITE_REP_WARN_FAIL]) / [PDCP_SDU_LOSS_DL_FNA] sum([S1AP_WRITE_REP_WARN_REQ]) ([PDCP_SDU_DL_QCI_1]+ [PDCP_SDU_LOSS_DL_QCI_1_FNA])sum([S1AP_WRITE_REP_WARN_REQ]) ([PDCP_SDU_DL_QCI_2]+ [PDCP_SDU_LOSS_DL_QCI_2_FNA])([PDCP_SDU_DL_QCI_3]+ [PDCP_SDU_LOSS_DL_QCI_3_FNA])([PDCP_SDU_DL_QCI_4]+ 100*sum([S1AP_KILL_RESP] [PDCP_SDU_LOSS_DL_QCI_4_FNA])+ [S1AP_KILL_FAIL]) / [PDCP_SDU_DL_DISC]sum([S1AP_KILL_REQ]) [PDCP_SDU_DISC_DL_QCI_1][PDCP_SDU_DISC_DL_QCI_2]sum([S1AP_KILL_REQ]) [PDCP_SDU_DISC_DL_QCI_3][PDCP_SDU_DISC_DL_QCI_4]) sum([NUM_WARN_ETWS_PRIM])
sum([NUM_WARN_ETWS_SEC])
sum([NUM_WARN_CMAS])
sum([RRC_PAGING_ETWS_CMAS])
avg([UL_PRB_UTIL_TTI_MEAN])/10
avg([DL_PRB_UTIL_TTI_MEAN])/10
sum([RLC_PDU_VOL_RECEIVED])*8 / (sum(PERIOD_DURATION )*60)
sum([RLC_PDU_VOL_TRANSMITTED])*8 / (sum(PERIOD_DURATION)*60)
8*sum([PDCP_SDU_VOL_UL])/sum([ACTIV E_TTI_UL])
8*sum([PDCP_SDU_VOL_DL])/sum([ACTIV E_TTI_DL])
avg([PDCP_DATA_RATE_MEAN_DL_QCI_ 1])
avg([PDCP_DATA_RATE_MEAN_UL_QCI_ 1])
sum([RRC_CON_REL_REDIR_H_ENB])
sum([UTRAN_REPORT_CGI_ATT])
100 * sum([UTRAN_REPORT_CGI_SUCC]) / sum([UTRAN_REPORT_CGI_ATT])
100 * 1. The failed CGI report means a reception of RRC Measurement sum([UTRAN_REPORT_CGI_INCOMPL]) / Report message including a "reportCGI" measurement result for sum([UTRAN_REPORT_CGI_ATT]) a UTRAN cell according to 3GPP TS 36.331 but the "reportCGI" measurement result does not contain the necessary IEs needed 100*sum([PDCP_SDU_LOSS_DL_FNA]) / for a unique cell identification like the LAC or RAC. 2. This indicator is used to monitor the correctenss of the ANR to sum([PDCP_SDU_DL]+ UTRAN behavioural focusing on failed CGI reports. [PDCP_SDU_LOSS_DL_FNA]) 100*sum([PDCP_SDU_LOSS_DL_QCI_1_ FNA]) / sum([PDCP_SDU_DL_QCI_1]+ [PDCP_SDU_LOSS_DL_QCI_1_FNA])
100*sum([PDCP_SDU_LOSS_DL_QCI_2_ FNA]) / sum([PDCP_SDU_DL_QCI_2]+ [PDCP_SDU_LOSS_DL_QCI_2_FNA]) 100*sum([PDCP_SDU_LOSS_DL_QCI_3_ FNA]) / sum([PDCP_SDU_DL_QCI_3]+ [PDCP_SDU_LOSS_DL_QCI_3_FNA]) 100*sum([PDCP_SDU_LOSS_DL_QCI_4_ FNA]) / sum([PDCP_SDU_DL_QCI_4]+ [PDCP_SDU_LOSS_DL_QCI_4_FNA]) 100*sum([PDCP_SDU_LOSS_UL_FNA])/su m([PDCP_SDU_UL]+ [PDCP_SDU_LOSS_UL_FNA]) 100*sum([PDCP_SDU_LOSS_UL_QCI_1_ FNA])/sum([PDCP_SDU_UL_QCI_1]+ [PDCP_SDU_LOSS_UL_QCI_1_FNA]) 100*sum([PDCP_SDU_LOSS_UL_QCI_2_ FNA])/sum([PDCP_SDU_UL_QCI_2]+ [PDCP_SDU_LOSS_UL_QCI_2_FNA]) 100*sum([PDCP_SDU_LOSS_UL_QCI_3_ FNA])/sum([PDCP_SDU_UL_QCI_3]+ [PDCP_SDU_LOSS_UL_QCI_3_FNA]) 100*sum([PDCP_SDU_LOSS_UL_QCI_4_ FNA])/sum([PDCP_SDU_UL_QCI_4]+ [PDCP_SDU_LOSS_UL_QCI_4_FNA]) sum([HO_LB_ATT])
100 * sum([HO_LB_SUCC]) / sum([HO_LB_ATT])
avg([CA_DL_CAP_UE_AVG]/100)
avg([CA_SCELL_CONF_UE_AVG]/100)
avg([CA_SCELL_ACTIVE_UE_AVG]/100)
100*(avg([CA_DL_CAP_UE_AVG]/100))/ (sum([SUM_RRC_CONN_UE])/sum([DENO M_RRC_CONN_UE])) 100*sum([CA_SCELL_CONFIG_SUCC]) / sum([CA_SCELL_CONFIG_ATT])
sum([RLC_PDU_DL_VOL_CA_SCELL])/10 00
avg([TTI_BUNDLING_MODE_UE_AVG]/10 0)
sum([IP_TPUT_VOL_DL_QCI_1])/sum([IP_ TPUT_TIME_DL_QCI_1])
sum([IP_TPUT_VOL_DL_QCI_2])/sum([IP_ TPUT_TIME_DL_QCI_2])
sum([IP_TPUT_VOL_DL_QCI_3])/sum([IP_ TPUT_TIME_DL_QCI_3])
sum([IP_TPUT_VOL_DL_QCI_4])/sum([IP_ TPUT_TIME_DL_QCI_4])
sum([IP_TPUT_VOL_DL_QCI_5])/sum([IP_ TPUT_TIME_DL_QCI_5])
sum([IP_TPUT_VOL_DL_QCI_6])/sum([IP_ TPUT_TIME_DL_QCI_6])
sum([IP_TPUT_VOL_DL_QCI_7])/sum([IP_ TPUT_TIME_DL_QCI_7])
sum([IP_TPUT_VOL_DL_QCI_8])/sum([IP_ TPUT_TIME_DL_QCI_8])
sum([IP_TPUT_VOL_DL_QCI_9])/sum([IP_ TPUT_TIME_DL_QCI_9])
sum([IP_TPUT_VOL_UL_QCI_1])/sum([IP_ TPUT_TIME_UL_QCI_1])
sum([IP_TPUT_VOL_UL_QCI_2])/sum([IP_ TPUT_TIME_UL_QCI_2])
sum([IP_TPUT_VOL_UL_QCI_3])/sum([IP_ TPUT_TIME_UL_QCI_3])
sum([IP_TPUT_VOL_UL_QCI_4])/sum([IP_ TPUT_TIME_UL_QCI_4])
sum([IP_TPUT_VOL_UL_QCI_5])/sum([IP_ TPUT_TIME_UL_QCI_5])
sum([IP_TPUT_VOL_UL_QCI_6])/sum([IP_ TPUT_TIME_UL_QCI_6])
sum([IP_TPUT_VOL_UL_QCI_7])/sum([IP_ TPUT_TIME_UL_QCI_7])
sum([IP_TPUT_VOL_UL_QCI_8])/sum([IP_ TPUT_TIME_UL_QCI_8])
sum([IP_TPUT_VOL_UL_QCI_9])/sum([IP_ TPUT_TIME_UL_QCI_9])
avg( [RSSI_CELL_PUCCH_MEAN])
avg( [RSSI_CELL_PUSCH_MEAN])
avg([SINR_CELL_PUCCH_MEAN])
avg( [SINR_CELL_PUSCH_MEAN])
sum([SIGN_CONN_ESTAB_ATT_DEL_TOL ])
sum([SIGN_CONN_ESTAB_ATT_HIPRIO])
100*sum([SIGN_CONN_ESTAB_SUCC_M O_S]) / sum([SIGN_CONN_ESTAB_ATT_MO_S]) 100*sum([SIGN_CONN_ESTAB_SUCC_M O_D]) / sum([SIGN_CONN_ESTAB_ATT_MO_D]) 100*sum([SIGN_CONN_ESTAB_SUCC_MT ]) / sum([SIGN_CONN_ESTAB_ATT_MT])
100*sum([SIGN_CONN_ESTAB_SUCC_DE L_TOL]) / sum([SIGN_CONN_ESTAB_ATT_DEL_TOL ]) 100*sum([SIGN_CONN_ESTAB_SUCC_HI PRIO]) / sum([SIGN_CONN_ESTAB_ATT_HIPRIO]) 100*sum([SIGN_CONN_ESTAB_REJ_MO_ S]) / sum([SIGN_CONN_ESTAB_ATT_MO_S]) 100*sum([SIGN_CONN_ESTAB_REJ_MO_ D]) / sum([SIGN_CONN_ESTAB_ATT_MO_D])
100*sum([SIGN_CONN_ESTAB_REJ_MT]) / sum([SIGN_CONN_ESTAB_ATT_MT])
100*sum([SIGN_CONN_ESTAB_REJ_DEL _TOL]) / sum([SIGN_CONN_ESTAB_ATT_DEL_TOL ]) 100*sum([SIGN_CONN_ESTAB_REJ_HIPR IO]) / sum([SIGN_CONN_ESTAB_ATT_HIPRIO]) 100*sum([SIGN_CONN_ESTAB_REJ_EMG ]) / sum([SIGN_CONN_ESTAB_ATT_EMG])
100*sum([ERAB_SETUP_SUCC_HIPRIO]) /sum([ERAB_SETUP_ATT_HIPRIO])
sum([SUM_SIMUL_ERAB_QCI_1]) / sum([DENOM_SUM_SIMUL_ERAB])
sum([SUM_SIMUL_ERAB_QCI_2]) / sum([DENOM_SUM_SIMUL_ERAB])
sum([SUM_SIMUL_ERAB_QCI_3]) / sum([DENOM_SUM_SIMUL_ERAB])
sum([SUM_SIMUL_ERAB_QCI_4]) / sum([DENOM_SUM_SIMUL_ERAB])
sum([SUM_SIMUL_ERAB_QCI_5]) / sum([DENOM_SUM_SIMUL_ERAB])
sum([SUM_SIMUL_ERAB_QCI_6]) / sum([DENOM_SUM_SIMUL_ERAB])
sum([SUM_SIMUL_ERAB_QCI_7]) / sum([DENOM_SUM_SIMUL_ERAB])
sum([SUM_SIMUL_ERAB_QCI_8]) / sum([DENOM_SUM_SIMUL_ERAB])
sum([SUM_SIMUL_ERAB_QCI_9]) / sum([DENOM_SUM_SIMUL_ERAB])
avg([UL_INTRA_COMP_UE_AVG]) / 100
sum([REPORT_CGI_REQ])
100* sum([SUCC_CGI_REPORTS])/sum([REPO RT_CGI_REQ]) 100*sum([X2_SETUP_ATT][X2_SETUP_FAIL]) / sum([X2_SETUP_ATT]) sum([X2_SETUP_ATT])
100*sum([X2_IP_RETR_VIA_S1_SUCC]) / sum([X2_IP_RETR_VIA_S1_ATT])
sum([X2_IP_RETR_VIA_S1_ATT])
100*sum([CRG_USED_TTI_DL_GRP_1])/ sum([TTI_PDSCH_AVAILABLE])
100*sum([CRG_USED_TTI_DL_GRP_2])/ sum([TTI_PDSCH_AVAILABLE])
100*sum([CRG_USED_TTI_DL_GRP_3])/ sum([TTI_PDSCH_AVAILABLE])
100*sum([CRG_USED_TTI_DL_GRP_4])/ sum([TTI_PDSCH_AVAILABLE])
100*sum([CRG_USED_TTI_UL_GRP_1])/ sum([TTI_PUSCH_AVAILABLE])
100*sum([CRG_USED_TTI_UL_GRP_2])/ sum([TTI_PUSCH_AVAILABLE])
100*sum([CRG_USED_TTI_UL_GRP_3])/ sum([TTI_PUSCH_AVAILABLE])
100*sum([CRG_USED_TTI_UL_GRP_4])/ sum([TTI_PUSCH_AVAILABLE])
sum(1*[UE_REP_CQI_LEVEL_01]+ 2*[UE_REP_CQI_LEVEL_02]+ 3*[UE_REP_CQI_LEVEL_03]+ 4*[UE_REP_CQI_LEVEL_04]+ 5*[UE_REP_CQI_LEVEL_05]+ avg([CQI_OFF_MEAN])/1000 6*[UE_REP_CQI_LEVEL_06]+ 7*[UE_REP_CQI_LEVEL_07]+ 8*[UE_REP_CQI_LEVEL_08]+ 9*[UE_REP_CQI_LEVEL_09]+ sum(-120*([RSSI_PUCCH_LEVEL_01]) 10*[UE_REP_CQI_LEVEL_10]+ 119*([RSSI_PUCCH_LEVEL_02]) 11*[UE_REP_CQI_LEVEL_11]+ 117*([RSSI_PUCCH_LEVEL_03]) 12*[UE_REP_CQI_LEVEL_12]+ 115*([RSSI_PUCCH_LEVEL_04]) 13*[UE_REP_CQI_LEVEL_13]+ 113*([RSSI_PUCCH_LEVEL_05]) 14*[UE_REP_CQI_LEVEL_14]+ sum(-120*([RSSI_PUSCH_LEVEL_01]) 111*([RSSI_PUCCH_LEVEL_06]) 15*[UE_REP_CQI_LEVEL_15]) / -119*([RSSI_PUSCH_LEVEL_02]) 109*([RSSI_PUCCH_LEVEL_07]) sum([UE_REP_CQI_LEVEL_00]+ 117*([RSSI_PUSCH_LEVEL_03]) -107*([RSSI_PUCCH_LEVEL_08]) [UE_REP_CQI_LEVEL_01]+ 115*([RSSI_PUSCH_LEVEL_04]) -105*([RSSI_PUCCH_LEVEL_09]) [UE_REP_CQI_LEVEL_02]+ 113*([RSSI_PUSCH_LEVEL_05]) -100*sum([PDCP_SDU_LOSS_DL_QCI_5]) 103*([RSSI_PUCCH_LEVEL_10]) [UE_REP_CQI_LEVEL_03]+ 111*([RSSI_PUSCH_LEVEL_06]) /[UE_REP_CQI_LEVEL_04]+ sum([PDCP_SDU_DL_QCI_5]+ -101*([RSSI_PUCCH_LEVEL_11]) 109*([RSSI_PUSCH_LEVEL_07]) [PDCP_SDU_LOSS_DL_QCI_5]) 99*([RSSI_PUCCH_LEVEL_12]) [UE_REP_CQI_LEVEL_05]+ 107*([RSSI_PUSCH_LEVEL_08])- 97*([RSSI_PUCCH_LEVEL_13]) [UE_REP_CQI_LEVEL_06]+ 105*([RSSI_PUSCH_LEVEL_09])- 95*([RSSI_PUCCH_LEVEL_14]) [UE_REP_CQI_LEVEL_07]+ 100*sum([PDCP_SDU_LOSS_DL_QCI_6]) 103*([RSSI_PUSCH_LEVEL_10])- [UE_REP_CQI_LEVEL_08]+ /93*([RSSI_PUCCH_LEVEL_15]) sum([PDCP_SDU_DL_QCI_6]+ - 101*([RSSI_PUSCH_LEVEL_11]) 91*([RSSI_PUCCH_LEVEL_16]) [UE_REP_CQI_LEVEL_09]+ [PDCP_SDU_LOSS_DL_QCI_6]) 99*([RSSI_PUSCH_LEVEL_12]) -89*([RSSI_PUCCH_LEVEL_17]) [UE_REP_CQI_LEVEL_10]+ 97*([RSSI_PUSCH_LEVEL_13]) -87*([RSSI_PUCCH_LEVEL_18]) [UE_REP_CQI_LEVEL_11]+ 95*([RSSI_PUSCH_LEVEL_14]) -100*sum([PDCP_SDU_LOSS_DL_QCI_7]) 85*([RSSI_PUCCH_LEVEL_19]) [UE_REP_CQI_LEVEL_12]+ 93*([RSSI_PUSCH_LEVEL_15]) /[UE_REP_CQI_LEVEL_13]+ sum([PDCP_SDU_DL_QCI_7]+ -83*([RSSI_PUCCH_LEVEL_20]) 91*([RSSI_PUSCH_LEVEL_16]) [PDCP_SDU_LOSS_DL_QCI_7]) 81*([RSSI_PUCCH_LEVEL_21]) [UE_REP_CQI_LEVEL_14]+ 89*([RSSI_PUSCH_LEVEL_17]) -80*([RSSI_PUCCH_LEVEL_22]) [UE_REP_CQI_LEVEL_15]) 87*([RSSI_PUSCH_LEVEL_18]) -)/sum( ([R SSI_PUCCH_LEVEL_01]) + 85*([RSSI_PUSCH_LEVEL_19]) ([RSSI_PUCCH_LEVEL_02]) +(83*([RSSI_PUSCH_LEVEL_20]) 81*([RSSI_PUSCH_LEVEL_21]) 80*([RSSI_PUSCH_LEVEL_22]) )/sum(([RS [RSSI_PUCCH_LEVEL_03]) SI_PUSCH_LEVEL_01]) + + ([RSSI_PUCCH_LEVEL_04]) + ([RSSI_PUSCH_LEVEL_02]) + ([RSSI_PUCCH_LEVEL_05]) + ([RSSI_PUSCH_LEVEL_03]) + ([RSSI_PUCCH_LEVEL_06]) + ([RSSI_PUSCH_LEVEL_04]) + ([RSSI_PUCCH_LEVEL_07]) + ([RSSI_PUSCH_LEVEL_05]) + ([RSSI_PUCCH_LEVEL_08]) + ([RSSI_PUSCH_LEVEL_06]) +
100*sum([PDCP_SDU_LOSS_DL_QCI_8]) / sum([PDCP_SDU_DL_QCI_8]+ [PDCP_SDU_LOSS_DL_QCI_8]) 100*sum([PDCP_SDU_LOSS_DL_QCI_9]) / sum([PDCP_SDU_DL_QCI_9]+ [PDCP_SDU_LOSS_DL_QCI_9]) 100*sum([PDCP_SDU_LOSS_UL_QCI_5]) / sum([PDCP_SDU_UL_QCI_5]+ [PDCP_SDU_LOSS_UL_QCI_5]) 100*sum([PDCP_SDU_LOSS_UL_QCI_6]) / sum([PDCP_SDU_UL_QCI_6]+ [PDCP_SDU_LOSS_UL_QCI_6]) 100*sum([PDCP_SDU_LOSS_UL_QCI_7]) / sum([PDCP_SDU_UL_QCI_7]+ [PDCP_SDU_LOSS_UL_QCI_7]) 100*sum([PDCP_SDU_LOSS_UL_QCI_8]) / sum([PDCP_SDU_UL_QCI_8]+ [PDCP_SDU_LOSS_UL_QCI_8]) 100*sum([PDCP_SDU_LOSS_UL_QCI_9]) / sum([PDCP_SDU_UL_QCI_9]+ [PDCP_SDU_LOSS_UL_QCI_9]) sum([ISYS_HO_EHRPD_PREP_BC])
100*sum([ISYS_HO_EHRPD_PREP_SUCC _BC])/ sum([ISYS_HO_EHRPD_PREP_BC]) 100*sum([ISYS_HO_EHRPD_PREP_FAIL1 _BC]) / sum([ISYS_HO_EHRPD_PREP_BC]) 100*sum([ISYS_HO_EHRPD_PREP_FAIL2 _BC]) / sum([ISYS_HO_EHRPD_PREP_BC]) 100* sum([ISYS_HO_EHRPD_PREP_FAIL3_BC] )/ sum([ISYS_HO_EHRPD_PREP_BC])
100*sum([ISYS_HO_EHRPD_SUCC_BC]) / sum([ISYS_HO_EHRPD_ATT_BC])
sum([ISYS_HO_EHRPD_ATT_BC])
100*sum([ISYS_HO_EHRPD_FAIL_TIM_B C]) / sum([ISYS_HO_EHRPD_ATT_BC])
100* sum([ISYS_HO_EHRPD_SUCC_BC])/ sum([ISYS_HO_EHRPD_PREP_BC])
avg([PDCP_RET_DL_DEL_MEAN_QCI_1] + [HARQ_DURATION_QCI1_AVG])
avg([PDCP_RET_DL_DEL_MEAN_QCI_2] + [HARQ_DURATION_QCI2_AVG])
avg([PDCP_RET_DL_DEL_MEAN_QCI_3] + [HARQ_DURATION_QCI3_AVG])
avg([PDCP_RET_DL_DEL_MEAN_QCI_4] + [HARQ_DURATION_QCI4_AVG])
avg([PDCP_RET_DL_DEL_MEAN_QCI_5] + [HARQ_DURATION_QCI5_AVG])
avg([PDCP_RET_DL_DEL_MEAN_QCI_6] + [HARQ_DURATION_QCI6_AVG])
avg([PDCP_RET_DL_DEL_MEAN_QCI_7] + [HARQ_DURATION_QCI7_AVG])
avg([PDCP_RET_DL_DEL_MEAN_QCI_8] + [HARQ_DURATION_QCI8_AVG])
avg([PDCP_RET_DL_DEL_MEAN_QCI_9] + [HARQ_DURATION_QCI9_AVG])
avg([CELL_LOAD_UNL_POW_RES])
100*avg([CELL_LOAD_UNL_POW_RES])/ (sum([SUM_RRC_CONN_UE])/sum([DENO M_RRC_CONN_UE])) sum([SUM_ACT_UE_SCHED_DATA_DL])/ sum([DENOM_ACT_UE_SCHED_DATA_D L]) sum([SUM_ACT_UE_SCHED_DATA_UL])/ sum([DENOM_ACT_UE_SCHED_DATA_U L]) sum([IP_TPUT_VOL_DL_QCI_1])/sum([IP_ TPUT_NET_TIME_DL_QCI1])
sum([IP_TPUT_VOL_DL_QCI_2])/sum([IP_ TPUT_NET_TIME_DL_QCI2])
sum([IP_TPUT_VOL_DL_QCI_3])/sum([IP_ TPUT_NET_TIME_DL_QCI3])
sum([IP_TPUT_VOL_DL_QCI_4])/sum([IP_ TPUT_NET_TIME_DL_QCI4])
sum([IP_TPUT_VOL_DL_QCI_5])/sum([IP_ TPUT_NET_TIME_DL_QCI5])
sum([IP_TPUT_VOL_DL_QCI_6])/sum([IP_ TPUT_NET_TIME_DL_QCI6])
sum([IP_TPUT_VOL_DL_QCI_7])/sum([IP_ TPUT_NET_TIME_DL_QCI7])
sum([IP_TPUT_VOL_DL_QCI_8])/sum([IP_ TPUT_NET_TIME_DL_QCI8])
sum([IP_TPUT_VOL_DL_QCI_9])/sum([IP_ TPUT_NET_TIME_DL_QCI9])
sum([IP_TPUT_VOL_UL_QCI_1])/sum([IP_ TPUT_NET_TIME_UL_QCI1])
sum([IP_TPUT_VOL_UL_QCI_2])/sum([IP_ TPUT_NET_TIME_UL_QCI2])
sum([IP_TPUT_VOL_UL_QCI_3])/sum([IP_ TPUT_NET_TIME_UL_QCI3])
sum([IP_TPUT_VOL_UL_QCI_4])/sum([IP_ TPUT_NET_TIME_UL_QCI4])
sum([IP_TPUT_VOL_UL_QCI_5])/sum([IP_ TPUT_NET_TIME_UL_QCI5])
sum([IP_TPUT_VOL_UL_QCI_6])/sum([IP_ TPUT_NET_TIME_UL_QCI6])
sum([IP_TPUT_VOL_UL_QCI_7])/sum([IP_ TPUT_NET_TIME_UL_QCI7])
sum([IP_TPUT_VOL_UL_QCI_8])/sum([IP_ TPUT_NET_TIME_UL_QCI8])
sum([IP_TPUT_VOL_UL_QCI_9])/sum([IP_ TPUT_NET_TIME_UL_QCI9])
100*sum([UE_CTX_SETUP_FAIL_RADIO_I NT]) / sum([UE_CTX_SETUP_ATT])
100*sum([UE_CTX_MOD_SUCC]) / sum([UE_CTX_MOD_ATT])
100*sum([UE_CTX_SETUP_SUCC_CSFB]) / sum([UE_CTX_SETUP_ATT_CSFB])
100*sum([UE_CTX_MOD_SUCC_CSFB]) / sum([UE_CTX_MOD_ATT_CSFB])
100* sum([S1_SIGN_CONN_ESTAB_SUCC_UE] )/sum([S1_SIGN_CONN_ESTAB_ATT_UE]) 100*sum([HO_SB_SUCC]) / sum([HO_SB_ATT]) sum([HO_SB_ATT])
100*sum([HO_RLF_PREP_SUCC])/sum([H O_RLF_PREP_ATT])
sum([HO_RLF_PREP_SUCC])
100* sum([HO_RLF_SUCC])/sum([HO_RLF_PR EP_ATT]) 100* sum([RCR_UE_CONTEXT_RETR_SUCC])/ sum([RCR_UE_CONTEXT_RETR_ATT]) sum([RCR_UE_CONTEXT_RETR_ATT])
100* sum([RCR_UE_CONTEXT_RETR_FAIL_TI M])/sum([RCR_UE_CONTEXT_RETR_ATT] )
sum(-10*([SINR_PUCCH_LEVEL_1]) 9*([SINR_PUCCH_LEVEL_2]) 7*([SINR_PUCCH_LEVEL_3]) 5*([SINR_PUCCH_LEVEL_4]) 3*([SINR_PUCCH_LEVEL_5]) sum(-10*([SINR_PUSCH_LEVEL_1]) -1*([SINR_PUCCH_LEVEL_6]) 9*([SINR_PUSCH_LEVEL_2]) +1*([SINR_PUCCH_LEVEL_7]) 7*([SINR_PUSCH_LEVEL_3]) - + 3*([SINR_PUCCH_LEVEL_8]) 5*([SINR_PUSCH_LEVEL_4]) -+ 5*([SINR_PUCCH_LEVEL_9]) + 3*([SINR_PUSCH_LEVEL_5]) sum([ERAB_INI_SETUP_ATT_QCI2] + 7*([SINR_PUCCH_LEVEL_10]) + -1*([SINR_PUSCH_LEVEL_6]) [ERAB_ADD_SETUP_ATT_QCI2]) 9*([SINR_PUCCH_LEVEL_11]) +1*([SINR_PUSCH_LEVEL_7]) + + 11*([SINR_PUCCH_LEVEL_12]) 3*([SINR_PUSCH_LEVEL_8]) + + 13*([SINR_PUCCH_LEVEL_13]) 5*([SINR_PUSCH_LEVEL_9]) + + 15*([SINR_PUCCH_LEVEL_14]) sum([ERAB_INI_SETUP_ATT_QCI3] 7*([SINR_PUSCH_LEVEL_10]) ++ + 17*([SINR_PUCCH_LEVEL_15]) [ERAB_ADD_SETUP_ATT_QCI3]) 9*([SINR_PUSCH_LEVEL_11]) + + 19*([SINR_PUCCH_LEVEL_16]) 11*([SINR_PUSCH_LEVEL_12]) ++ 21*([SINR_PUCCH_LEVEL_17]) + 13*([SINR_PUSCH_LEVEL_13]) + 23*([SINR_PUCCH_LEVEL_18]) + 15*([SINR_PUSCH_LEVEL_14]) + sum([ERAB_INI_SETUP_ATT_QCI4] 25*([SINR_PUCCH_LEVEL_19]) + + 17*([SINR_PUSCH_LEVEL_15]) + [ERAB_ADD_SETUP_ATT_QCI4]) 27*([SINR_PUCCH_LEVEL_20]) + 19*([SINR_PUSCH_LEVEL_16]) + 29*([SINR_PUCCH_LEVEL_21]) + 21*([SINR_PUSCH_LEVEL_17]) + 30*([SINR_PUCCH_LEVEL_22])) 23*([SINR_PUSCH_LEVEL_18]) +/ sum(([SINR_PUCCH_LEVEL_1]) 100*sum([ERAB_INI_SETUP_SUCC_QCI2] 25*([SINR_PUSCH_LEVEL_19]) ++ ([SINR_PUCCH_LEVEL_2]) + + + [ERAB_ADD_SETUP_SUCC_QCI2]) / 27*([SINR_PUSCH_LEVEL_20]) ([SINR_PUCCH_LEVEL_3]) + + + sum([ERAB_INI_SETUP_ATT_QCI2] 29*([SINR_PUSCH_LEVEL_21]) ([SINR_PUCCH_LEVEL_4]) + [ERAB_ADD_SETUP_ATT_QCI2]) 30*([SINR_PUSCH_LEVEL_22])) / ([SINR_PUCCH_LEVEL_5]) + sum(([SINR_PUSCH_LEVEL_1]) + 100*sum([ERAB_INI_SETUP_SUCC_QCI3] ([SINR_PUCCH_LEVEL_6]) + ([SINR_PUSCH_LEVEL_2]) + + [ERAB_ADD_SETUP_SUCC_QCI3]) / ([SINR_PUCCH_LEVEL_7]) + ([SINR_PUSCH_LEVEL_3]) + sum([ERAB_INI_SETUP_ATT_QCI3] + ([SINR_PUCCH_LEVEL_8]) + ([SINR_PUSCH_LEVEL_4]) + [ERAB_ADD_SETUP_ATT_QCI3]) ([SINR_PUCCH_LEVEL_9]) + ([SINR_PUSCH_LEVEL_5]) + ([SINR_PUCCH_LEVEL_10]) 100*sum([ERAB_INI_SETUP_SUCC_QCI4] ([SINR_PUSCH_LEVEL_6]) ++ ([SINR_PUCCH_LEVEL_11]) + [ERAB_ADD_SETUP_SUCC_QCI4]) / ([SINR_PUSCH_LEVEL_7]) ++ ([SINR_PUCCH_LEVEL_12]) sum([ERAB_INI_SETUP_ATT_QCI4] + + ([SINR_PUSCH_LEVEL_8]) + ([SINR_PUCCH_LEVEL_13]) [ERAB_ADD_SETUP_ATT_QCI4]) ([SINR_PUSCH_LEVEL_9]) ++ ([SINR_PUCCH_LEVEL_14]) + avg([UE_DRB_DL_DATA_QCI_2]/100) ([SINR_PUSCH_LEVEL_10]) + ([SINR_PUCCH_LEVEL_15]) ([SINR_PUSCH_LEVEL_11]) ++ ([SINR_PUCCH_LEVEL_16]) + ([SINR_PUSCH_LEVEL_12]) + ([SINR_PUCCH_LEVEL_17]) + ([SINR_PUSCH_LEVEL_13]) + ([SINR_PUCCH_LEVEL_18]) + ([SINR_PUSCH_LEVEL_14]) + avg([UE_DRB_DL_DATA_QCI_3]/100) ([SINR_PUCCH_LEVEL_19]) + ([SINR_PUSCH_LEVEL_15]) + ([SINR_PUCCH_LEVEL_20]) + ([SINR_PUSCH_LEVEL_16]) + ([SINR_PUCCH_LEVEL_21]) + ([SINR_PUSCH_LEVEL_17]) + ([SINR_PUCCH_LEVEL_22])) ([SINR_PUSCH_LEVEL_18]) + avg([UE_DRB_DL_DATA_QCI_4]/100) ([SINR_PUSCH_LEVEL_19]) + ([SINR_PUSCH_LEVEL_20]) + ([SINR_PUSCH_LEVEL_21]) + ([SINR_PUSCH_LEVEL_22])) sum([ISYS_HO_UTRAN_SRVCC_ATT])
100*sum([ISYS_HO_UTRAN_SRVCC_FAIL ]) / sum([ISYS_HO_UTRAN_SRVCC_ATT])
100*sum([ISYS_HO_UTRAN_SRVCC_SUC C]) / sum([ISYS_HO_UTRAN_SRVCC_ATT]) sum([ISYS_HO_GERAN_SRVCC_ATT])
100*sum([ISYS_HO_GERAN_SRVCC_FAIL ]) / sum([ISYS_HO_GERAN_SRVCC_ATT])
100*sum([ISYS_HO_GERAN_SRVCC_SU CC]) / sum([ISYS_HO_GERAN_SRVCC_ATT]) 100*sum([SUCC_INTRA_ENB_HO] + [SUCC_INTER_ENB_HO] + [INTER_ENB_S1_HO_SUCC] [HO_INTFREQ_SUCC]) / sum([ATT_INTRA_ENB_HO] + 100* [ATT_INTER_ENB_HO] + sum([RACH_STP_COMPLETIONS]) [INTER_ENB_S1_HO_ATT] /sum([RACH_STP_ATT_SMALL_MSG] + [HO_INTFREQ_ATT]) [RACH_STP_ATT_LARGE_MSG] + [RACH_STP_ATT_DEDICATED]) 100*sum([ERAB_REL_ENB_ACT_QCI1] + [ERAB_REL_ENB_ACT_QCI2] + [ERAB_REL_ENB_ACT_QCI3] + [ERAB_REL_ENB_ACT_QCI4] + [ERAB_REL_ENB_ACT_NON_GBR]) / / 100*sum([ERAB_REL_ENB_ACT_QCI1]) sum([ERAB_REL_ENB] + sum([ERAB_REL_ENB_QCI1] + [ERAB_REL_HO_PART] + [ERAB_REL_HO_PART_QCI1] + [EPC_EPS_BEARER_REL_REQ_NORM] [EPC_EPS_BEAR_REL_REQ_N_QCI1] + + [EPC_EPS_BEARER_REL_REQ_DETACH] [EPC_EPS_BEAR_REL_REQ_D_QCI1] + 100*sum([ERAB_REL_HO_PART_QCI1] + [EPC_EPS_BEARER_REL_REQ_RNL]+++ [EPC_EPS_BEAR_REL_REQ_R_QCI1] [ERAB_REL_ENB_QCI1] [EPC_EPS_BEARER_REL_REQ_OTH]) [EPC_EPS_BEAR_REL_REQ_O_QCI1]) [ERAB_REL_ENB_RNL_INA_QCI1] [ERAB_REL_ENB_RNL_RED_QCI1] [ERAB_REL_ENB_RNL_RRNA_QCI1]) / / 100*(sum([SIGN_CONN_ESTAB_COMP]) sum([ERAB_REL_ENB_QCI1] + sum([SIGN_CONN_ESTAB_ATT_MO_S] + [ERAB_REL_HO_PART_QCI1] ++ [SIGN_CONN_ESTAB_ATT_MT] [EPC_EPS_BEAR_REL_REQ_N_QCI1] [SIGN_CONN_ESTAB_ATT_MO_D] + + [EPC_EPS_BEAR_REL_REQ_D_QCI1] [SIGN_CONN_ESTAB_ATT_DEL_TOL] ++ sum([ERAB_IN_SESSION_TIME_QCI4]+ [EPC_EPS_BEAR_REL_REQ_R_QCI1] [SIGN_CONN_ESTAB_ATT_HIPRIO]] ++ [ERAB_IN_SESSION_TIME_QCI3]+ [EPC_EPS_BEAR_REL_REQ_O_QCI1]) [SIGN_CONN_ESTAB_ATT_EMG])) [ERAB_IN_SESSION_TIME_QCI2]+ *[ERAB_IN_SESSION_TIME_QCI1]+ (sum([S1_SIGN_CONN_ESTAB_SUCC_UE [ERAB_IN_SESSION_TIME_NON_GBR])/6 ]) 0/ sum([S1_SIGN_CONN_ESTAB_ATT_UE])) * (sum([ERAB_INI_SETUP_SUCC_QCI1] + [ERAB_INI_SETUP_SUCC_QCI2] + [ERAB_INI_SETUP_SUCC_QCI3] + [ERAB_INI_SETUP_SUCC_QCI4] + [ERAB_INI_SETUP_SUCC_QCI5] + [ERAB_INI_SETUP_SUCC_QCI6] + [ERAB_INI_SETUP_SUCC_QCI7]+
sum([ERAB_IN_SESSION_TIME_QCI1])/60
sum([ERAB_IN_SESSION_TIME_QCI2])/60
sum([ERAB_IN_SESSION_TIME_QCI3])/60
sum([ERAB_IN_SESSION_TIME_QCI4])/60
sum([ERAB_IN_SESSION_TIME_NON_GB R]) /60
sum([ERAB_REL_ENB_ACT_QCI1] + [ERAB_REL_ENB_ACT_QCI2] + [ERAB_REL_ENB_ACT_QCI3] + [ERAB_REL_ENB_ACT_QCI4] + [ERAB_REL_ENB_ACT_NON_GBR]) sum([ERAB_REL_ENB_ACT_QCI1]) / /(sum([ERAB_IN_SESSION_TIME_QCI1])/ (sum([ERAB_IN_SESSION_TIME_QCI1] + [ERAB_IN_SESSION_TIME_QCI2] + (60 * 60)) [ERAB_IN_SESSION_TIME_QCI3] + [ERAB_IN_SESSION_TIME_QCI4] + sum([ERAB_REL_ENB_ACT_QCI2])/ [ERAB_IN_SESSION_TIME_NON_GBR])/ (sum([ERAB_IN_SESSION_TIME_QCI2])/ (60 * 60)) (60 * 60)) sum([ERAB_REL_ENB_ACT_QCI3]) / (sum([ERAB_IN_SESSION_TIME_QCI3])/ (60 * 60)) sum([ERAB_REL_ENB_ACT_QCI4])/ (sum([ERAB_IN_SESSION_TIME_QCI4])/ (60 * 60)) sum([ERAB_REL_ENB_ACT_NON_GBR]) / (sum([ERAB_IN_SESSION_TIME_NON_G BR])/(60 * 60)) 100*sum([ERAB_REL_ENB_RNL_RRNA])/ sum([ERAB_REL_ENB] + [ERAB_REL_HO_PART] + [EPC_EPS_BEARER_REL_REQ_NORM] + [EPC_EPS_BEARER_REL_REQ_DETACH] + [EPC_EPS_BEARER_REL_REQ_RNL] + [EPC_EPS_BEARER_REL_REQ_OTH])
100*sum([SIGN_CONN_ESTAB_REJ_EMG ] + [SIGN_CONN_ESTAB_REJ_MO_S] + [SIGN_CONN_ESTAB_REJ_MO_D] + [SIGN_CONN_ESTAB_REJ_MT] + [SIGN_CONN_ESTAB_REJ_DEL_TOL] + avg([ERAB_SETUP_TIME_MEAN]) [SIGN_CONN_ESTAB_REJ_HIPRIO]) / sum([SIGN_CONN_ESTAB_ATT_MO_S] + [SIGN_CONN_ESTAB_ATT_MT] + [SIGN_CONN_ESTAB_ATT_MO_D] + max([ERAB_SETUP_TIME_MAX]) [SIGN_CONN_ESTAB_ATT_DEL_TOL] + [SIGN_CONN_ESTAB_ATT_HIPRIO]] + [SIGN_CONN_ESTAB_ATT_EMG]) avg([RRC_CON_STP_TIM_MEAN])
max([RRC_CON_STP_TIM_MAX])
max([SIMUL_ERAB_QCI1_MAX])
max([SIMUL_ERAB_QCI2_MAX])
max([SIMUL_ERAB_QCI3_MAX])
max([SIMUL_ERAB_QCI4_MAX])
max([SIMUL_ERAB_QCI5_MAX])
max([SIMUL_ERAB_QCI6_MAX])
max([SIMUL_ERAB_QCI7_MAX])
max([SIMUL_ERAB_QCI8_MAX])
max([SIMUL_ERAB_QCI9_MAX])
sum([ERAB_MOD_SUCC_QCI5])/ sum([ERAB_MOD_ATT_QCI5])
sum([ERAB_MOD_SUCC_QCI6])/ sum([ERAB_MOD_ATT_QCI6])
sum([ERAB_MOD_SUCC_QCI7])/ sum([ERAB_MOD_ATT_QCI7])
sum([ERAB_MOD_SUCC_QCI8])/ sum([ERAB_MOD_ATT_QCI8])
sum([ERAB_MOD_SUCC_QCI9])/ sum([ERAB_MOD_ATT_QCI9])
100*sum([ERAB_MOD_FAIL_TIMER]) / sum([ERAB_MOD_ATT_QCI1] + [ERAB_MOD_ATT_QCI2] + [ERAB_MOD_ATT_QCI3] + [ERAB_MOD_ATT_QCI4] + 100*sum([ERAB_MOD_ATT_QCI1] + [ERAB_MOD_ATT_QCI5] [ERAB_MOD_ATT_QCI2] + + [ERAB_MOD_ATT_QCI6] [ERAB_MOD_ATT_QCI3] + + [ERAB_MOD_ATT_QCI7] [ERAB_MOD_ATT_QCI4] + + [ERAB_MOD_ATT_QCI8] + [ERAB_MOD_FAIL_QCI_NSUPP]) / 100*sum([ERAB_MOD_FAIL_RNL_UNSPE [ERAB_MOD_ATT_QCI9]) sum([ERAB_MOD_ATT_QCI5] + C]) / sum([ERAB_MOD_ATT_QCI1] + [ERAB_MOD_ATT_QCI6] [ERAB_MOD_ATT_QCI2] + + [ERAB_MOD_ATT_QCI7] [ERAB_MOD_ATT_QCI3] + + [ERAB_MOD_ATT_QCI8] + [ERAB_MOD_ATT_QCI4] + sum([DL_INTERFER_SHAP_AMOUNT])/su [ERAB_MOD_ATT_QCI9]) [ERAB_MOD_ATT_QCI5] + m([DL_INTERFER_SHAP_USE]) [ERAB_MOD_ATT_QCI6] + [ERAB_MOD_ATT_QCI7] + [ERAB_MOD_ATT_QCI8] + sum([DL_INTERFER_SHAP_CHANGE]) [ERAB_MOD_ATT_QCI9])
avg([ERAB_NBR_DL_AVG]/100)
avg([ERAB_NBR_UL_AVG]/100)
avg([ERAB_NBR_DL_FAIL_OVL_AVG]/100 )
avg([ERAB_NBR_UL_FAIL_OVL_AVG]/100 )
sum([ERAB_NBR_DL_FAIL_OVL_AVG])/ sum([ERAB_NBR_DL_AVG])
sum([ERAB_NBR_UL_FAIL_OVL_AVG])/ sum([ERAB_NBR_DL_AVG])
sum([RRC_PAGING_REQUESTS]) / sum([SIGN_CONN_ESTAB_ATT_MT])
sum([ERAB_INI_SETUP_ATT_QCI5] + [ERAB_ADD_SETUP_ATT_QCI5])
sum([ERAB_INI_SETUP_ATT_QCI6] + [ERAB_ADD_SETUP_ATT_QCI6])
sum([ERAB_INI_SETUP_ATT_QCI7] + [ERAB_ADD_SETUP_ATT_QCI7])
sum([ERAB_INI_SETUP_ATT_QCI8] + [ERAB_ADD_SETUP_ATT_QCI8])
sum([ERAB_INI_SETUP_ATT_QCI9] + [ERAB_ADD_SETUP_ATT_QCI9])
100*sum([ERAB_INI_SETUP_SUCC_QCI5] + [ERAB_ADD_SETUP_SUCC_QCI5]) / sum([ERAB_INI_SETUP_ATT_QCI5] + [ERAB_ADD_SETUP_ATT_QCI5]) 100*sum([ERAB_INI_SETUP_SUCC_QCI6] + [ERAB_ADD_SETUP_SUCC_QCI6]) / sum([ERAB_INI_SETUP_ATT_QCI6] + [ERAB_ADD_SETUP_ATT_QCI6]) 100*sum([ERAB_INI_SETUP_SUCC_QCI7] + [ERAB_ADD_SETUP_SUCC_QCI7]) / sum([ERAB_INI_SETUP_ATT_QCI7] + [ERAB_ADD_SETUP_ATT_QCI7]) 100*sum([ERAB_INI_SETUP_SUCC_QCI8] + [ERAB_ADD_SETUP_SUCC_QCI8]) / sum([ERAB_INI_SETUP_ATT_QCI8] + [ERAB_ADD_SETUP_ATT_QCI8]) 100*sum([ERAB_INI_SETUP_SUCC_QCI9] + [ERAB_ADD_SETUP_SUCC_QCI9]) / sum([ERAB_INI_SETUP_ATT_QCI9] + [ERAB_ADD_SETUP_ATT_QCI9]) sum([HO_PREP_IN_ATT])
100* sum([HO_PREP_IN_SUCC])/sum([HO_PR EP_IN_ATT]) 100* sum([HO_PREP_IN_FAIL_RAC])/sum([HO_ PREP_IN_ATT]) 100* sum([HO_PREP_IN_FAIL_TAC])/sum([HO_ PREP_IN_ATT]) sum([ifInOctets15])/1000
sum([ifOutOctets15]) / 1000
sum([ifOutOctets15]) *8 / (sum(MEASUREMENT_DURATION)*60)
sum([ifInOctets15]) *8 / (sum(MEASUREMENT_DURATION)*60)
100* sum([RACH_MSG3_CONTENTION])/sum([ RACH_STP_ATT_SMALL_MSG]+ [RACH_STP_ATT_LARGE_MSG]) avg([CA_DL_CAP_UE_3CC_AVG]/100)
avg([CA_2SCELLS_CONF_UE_AVG]/100)
100*(avg([CA_DL_CAP_UE_3CC_AVG]/10 0))/ (sum([SUM_RRC_CONN_UE])/sum([DENO M_RRC_CONN_UE])) avg([CA_2SCELLS_ACTIVE_UE_AVG]/100 )
sum([E_ICIC_MUTING_PATTERN_1] * 0,15 + [E_ICIC_MUTING_PATTERN_2] * 0,25 + [E_ICIC_MUTING_PATTERN_3] * 0,375 + [E_ICIC_MUTING_PATTERN_4] * 0,5 + [E_ICIC_MUTING_PATTERN_5] * 0,625 + 100*(sum([E_ICIC_MUTING_PATTERN_1] [E_ICIC_MUTING_PATTERN_6] * 0,75) * * 0,15 + [E_ICIC_MUTING_PATTERN_2] 0,25 + [E_ICIC_MUTING_PATTERN_3] * 0,375 + [E_ICIC_MUTING_PATTERN_4] * 0,5 + [E_ICIC_MUTING_PATTERN_5] * sum([E_ICIC_DL_PRB_UTIL_LEVEL_1].5+ 0,625 + [E_ICIC_MUTING_PATTERN_6] [E_ICIC_DL_PRB_UTIL_LEVEL_2].15 + *0,75) )/ [E_ICIC_DL_PRB_UTIL_LEVEL_3].25 + sum([DENOM_ACTIVE_UE_DATA_DL]) [E_ICIC_DL_PRB_UTIL_LEVEL_4].35 + [E_ICIC_DL_PRB_UTIL_LEVEL_5].45 + sum([E_ICIC_UL_PRB_UTIL_LEVEL_1]*5+ [E_ICIC_DL_PRB_UTIL_LEVEL_6].55 [E_ICIC_UL_PRB_UTIL_LEVEL_2]*15 ++ [E_ICIC_DL_PRB_UTIL_LEVEL_7].65 [E_ICIC_UL_PRB_UTIL_LEVEL_3]*25 ++ [E_ICIC_DL_PRB_UTIL_LEVEL_8].75 [E_ICIC_UL_PRB_UTIL_LEVEL_4]*35 ++ [E_ICIC_DL_PRB_UTIL_LEVEL_9].85 ++ [E_ICIC_UL_PRB_UTIL_LEVEL_5]*45 100*sum([PRE_EMPT_UE_CONTEXT_NO [E_ICIC_DL_PRB_UTIL_LEVEL_10].95)/su [E_ICIC_UL_PRB_UTIL_LEVEL_6]*55 + N_GBR]) / m([E_ICIC_DL_PRB_UTIL_LEVEL_0] ++ [E_ICIC_UL_PRB_UTIL_LEVEL_7]*65 sum([ENB_INIT_TO_IDLE_NORM_REL] + [E_ICIC_DL_PRB_UTIL_LEVEL_1] + [E_ICIC_UL_PRB_UTIL_LEVEL_8]*75 [ENB_INIT_TO_IDLE_OTHER] + + + [E_ICIC_DL_PRB_UTIL_LEVEL_2] [E_ICIC_UL_PRB_UTIL_LEVEL_9]*85 + [ENB_INIT_TO_IDLE_RNL] + [E_ICIC_DL_PRB_UTIL_LEVEL_3] + / 100*(sum([LPPA_MEAS_INIT_RESP] [E_ICIC_UL_PRB_UTIL_LEVEL_10]*95)/su [EPC_INIT_TO_IDLE_DETACH] + + [E_ICIC_DL_PRB_UTIL_LEVEL_4] sum([LPPA_MEAS_INIT_REQ])) m([E_ICIC_UL_PRB_UTIL_LEVEL_0] [EPC_INIT_TO_IDLE_OTHER] + + + [E_ICIC_DL_PRB_UTIL_LEVEL_5] [E_ICIC_UL_PRB_UTIL_LEVEL_1] + [EPC_INIT_TO_IDLE_RNL] + [E_ICIC_DL_PRB_UTIL_LEVEL_6] + [E_ICIC_UL_PRB_UTIL_LEVEL_2] + + [EPC_INIT_TO_IDLE_UE_NORM_REL] [E_ICIC_DL_PRB_UTIL_LEVEL_7] + [E_ICIC_UL_PRB_UTIL_LEVEL_3] + [PRE_EMPT_UE_CONTEXT_NON_GBR]) [E_ICIC_DL_PRB_UTIL_LEVEL_8] [E_ICIC_UL_PRB_UTIL_LEVEL_4] + + [E_ICIC_DL_PRB_UTIL_LEVEL_9] [E_ICIC_UL_PRB_UTIL_LEVEL_5] + + [E_ICIC_DL_PRB_UTIL_LEVEL_10]) [E_ICIC_UL_PRB_UTIL_LEVEL_6] + [E_ICIC_UL_PRB_UTIL_LEVEL_7] + [E_ICIC_UL_PRB_UTIL_LEVEL_8] + [E_ICIC_UL_PRB_UTIL_LEVEL_9] + [E_ICIC_UL_PRB_UTIL_LEVEL_10])
100*(sum([LPPA_MEAS_INIT_FAIL_NOT_ SUPP] / sum([LPPA_MEAS_INIT_REQ]))
100*(sum([LPPA_MEAS_INIT_FAIL_TMP_ UNAV] / sum([LPPA_MEAS_INIT_REQ]))
100*sum([ERAB_MOD_SUCC_QCI1]) / sum([ERAB_MOD_ATT_QCI1])
100*sum([ERAB_MOD_SUCC_QCI2]) / sum([ERAB_MOD_ATT_QCI2])
100*sum([ERAB_MOD_SUCC_QCI3]) / sum([ERAB_MOD_ATT_QCI3])
100*sum([ERAB_MOD_SUCC_QCI4]) / sum([ERAB_MOD_ATT_QCI4])
100*sum([ERAB_MOD_FAIL_RNL_RR_NA] ) / sum([ERAB_MOD_ATT_QCI1] + [ERAB_MOD_ATT_QCI2] + [ERAB_MOD_ATT_QCI3] + [ERAB_MOD_ATT_QCI4] + 100*sum([ERAB_MOD_FAIL_TNL_TRU]) / [ERAB_MOD_ATT_QCI5] + sum([ERAB_MOD_ATT_QCI1] + [ERAB_MOD_ATT_QCI6] [ERAB_MOD_ATT_QCI2] + + [ERAB_MOD_ATT_QCI7] [ERAB_MOD_ATT_QCI3] + + [ERAB_MOD_ATT_QCI8] + [ERAB_MOD_ATT_QCI4] + 100*sum([TIME_AC_BAR_OVL]) / [ERAB_MOD_ATT_QCI9]) [ERAB_MOD_ATT_QCI5] + sum([DENOM_RRC_CONN_UE]) [ERAB_MOD_ATT_QCI6] + [ERAB_MOD_ATT_QCI7] + [ERAB_MOD_ATT_QCI8] + avg([PUCCH_BLOCK_RATE_FORMT_1B [ERAB_MOD_ATT_QCI9]) WCS])
avg([PUCCH_BLOCK_RATE_FORMT_3])
sum([SAMPLES_CELL_POWER_SAVING]) / sum([DENOM_CELL_AVAIL]) * 100
100*sum([ERAB_REL_ENB_RNL_EUGR]) / sum([ERAB_REL_ENB] + [ERAB_REL_HO_PART] + [EPC_EPS_BEARER_REL_REQ_NORM] + [EPC_EPS_BEARER_REL_REQ_DETACH] 100*sum([ERAB_REL_HO_FAIL_TIM]) / + [EPC_EPS_BEARER_REL_REQ_RNL] + sum([ERAB_REL_ENB] + [EPC_EPS_BEARER_REL_REQ_OTH]) [ERAB_REL_HO_PART] + [EPC_EPS_BEARER_REL_REQ_NORM] + [EPC_EPS_BEARER_REL_REQ_DETACH] 100*sum([ERAB_REL_HO_PART]) / + [EPC_EPS_BEARER_REL_REQ_RNL] + sum([ERAB_REL_ENB] + [EPC_EPS_BEARER_REL_REQ_OTH]) [ERAB_REL_HO_PART] + [EPC_EPS_BEARER_REL_REQ_NORM] + [EPC_EPS_BEARER_REL_REQ_DETACH] sum(1 * [UE_REP_CQI_CW1_LEVEL_1] + + 2 *[EPC_EPS_BEARER_REL_REQ_RNL] [UE_REP_CQI_CW1_LEVEL_2] + 3 * + [EPC_EPS_BEARER_REL_REQ_OTH]) [UE_REP_CQI_CW1_LEVEL_3] + 4 * [UE_REP_CQI_CW1_LEVEL_4] + 5 * [UE_REP_CQI_CW1_LEVEL_5] +6* 100*sum([SIGN_CONN_ESTAB_FAIL_OVL [UE_REP_CQI_CW1_LEVEL_6] + CP] + [SIGN_CONN_ESTAB_FAIL_OVLUP] 7 * [UE_REP_CQI_CW1_LEVEL_7] + 8 *+ + [SIGN_CONN_ESTAB_FAIL_PUCCH] [UE_REP_CQI_CW1_LEVEL_8] + 9 * + [SIGN_CONN_ESTAB_FAIL_MAXRRC] [UE_REP_CQI_CW1_LEVEL_9] + 10 * [SIGN_CONN_ESTAB_FAIL_OVLMME]) 100*sum([TIME_CPLANE_OVL_L1] + * / [UE_REP_CQI_CW1_LEVEL_10] + 11 sum([SIGN_CONN_ESTAB_ATT_MO_S] + [TIME_CPLANE_OVL_L2]) / [UE_REP_CQI_CW1_LEVEL_11] + 12 * [SIGN_CONN_ESTAB_ATT_MT] + sum([DENOM_RRC_CONN_UE]) [UE_REP_CQI_CW1_LEVEL_12] + 13 [SIGN_CONN_ESTAB_ATT_MO_D] + * [UE_REP_CQI_CW1_LEVEL_13] + 14 [SIGN_CONN_ESTAB_ATT_DEL_TOL]*+ [UE_REP_CQI_CW1_LEVEL_14] + 15 100*sum([TIME_UPLANE_OVL_L1] + +* [SIGN_CONN_ESTAB_ATT_HIPRIO]] [UE_REP_CQI_CW1_LEVEL_15]) / [TIME_UPLANE_OVL_L2])*1.024 / [SIGN_CONN_ESTAB_ATT_EMG]) sum([UE_REP_CQI_CW1_LEVEL_0] + sum([DENOM_RRC_CONN_UE]) [UE_REP_CQI_CW1_LEVEL_1] + [UE_REP_CQI_CW1_LEVEL_2] + sum([HO_INTFREQ_QCI1_RR_A3A5_ATT] [UE_REP_CQI_CW1_LEVEL_3] + )[UE_REP_CQI_CW1_LEVEL_4] + [UE_REP_CQI_CW1_LEVEL_5] + [UE_REP_CQI_CW1_LEVEL_6] + [UE_REP_CQI_CW1_LEVEL_7] + 100 * [UE_REP_CQI_CW1_LEVEL_8] + sum([HO_INTFREQ_QCI1_RR_A3A5_SUC [UE_REP_CQI_CW1_LEVEL_9] + C]) /[UE_REP_CQI_CW1_LEVEL_10] + [UE_REP_CQI_CW1_LEVEL_11] + sum sum([SRVCC_1xRTT_PREP]) [UE_REP_CQI_CW1_LEVEL_12] + ([HO_INTFREQ_QCI1_RR_A3A5_ATT]) [UE_REP_CQI_CW1_LEVEL_13] + [UE_REP_CQI_CW1_LEVEL_14] + [UE_REP_CQI_CW1_LEVEL_15]) 100 * sum([SRVCC_1xRTT_PREP_SUCC]) / sum ([SRVCC_1xRTT_PREP]) 100 * sum([SRVCC_1xRTT_PREP_FAIL1]) / sum ([SRVCC_1xRTT_PREP])
100 * sum([SRVCC_1xRTT_PREP_FAIL2]) / sum ([SRVCC_1xRTT_PREP]) 100 * sum([SRVCC_1xRTT_PREP_FAIL3]) / sum ([SRVCC_1xRTT_PREP]) 100 * sum([SRVCC_1xRTT_PREP] [SRVCC_1xRTT_PREP_SUCC] [SRVCC_1xRTT_PREP_FAIL1] [SRVCC_1xRTT_PREP_FAIL2] [SRVCC_1xRTT_PREP_FAIL3]) sum ([SRVCC_1xRTT_ATT]) / sum ([SRVCC_1xRTT_PREP]) 100 * sum([SRVCC_1xRTT_UE_CONTEXT_REL] ) / sum 100 *([SRVCC_1xRTT_ATT]) sum([CRAN_UE_2RX]) / sum ([ACTIVE_TTI_UL]) 100 * sum([CRAN_UE_4RX]) / sum ([ACTIVE_TTI_UL])
100 * sum([CRAN_UE_8RX]) / sum ([ACTIVE_TTI_UL])
sum ([ISYS_HO_UTRAN_LB_ATT])
100 * sum([ISYS_HO_UTRAN_LB_SUCC]) / sum ([ISYS_HO_UTRAN_LB_ATT]) 100 * sum([HIGH_CELL_LOAD_UTRAN_LB] / [DENOM_RRC_CONN_UE] 100 * sum([CA_SCELL_SWAP_A6]) / sum([CA_SCELL_CONFIG_SUCC])
avg([MBMS_SESSION_ACT_AVG])
sum([MBMS_USER_DATA_M1])
sum([MBMS_USER_DATA_EUU])
sum([MBMS_USER_DATA_M1_LOST])
sum([MBMS_USER_DATA_DROP_1])
sum([MBMS_USER_DATA_DROP_2])
sum([A4_MEAS_ACT_MBIMLB])
100 * sum([A4_MEAS_SUCC_MBIMLB]) / sum([A4_MEAS_ACT_MBIMLB]) sum(1 * ([UE_REP_CQI_LEVEL_01] [UE_REP_CQI_CW1_LEVEL_1]) + 2 * ([UE_REP_CQI_LEVEL_02] [UE_REP_CQI_CW1_LEVEL_2]) + 3 * ([UE_REP_CQI_LEVEL_03] sum([CSFB_1xRTT_PARAM_REQ]) [UE_REP_CQI_CW1_LEVEL_3]) + 4 * ([UE_REP_CQI_LEVEL_04] [UE_REP_CQI_CW1_LEVEL_4]) + 5 * ([UE_REP_CQI_LEVEL_05] 100 * sum([CSFB_1xRTT_PARAM_RESP]) [UE_REP_CQI_CW1_LEVEL_5]) +6* /([UE_REP_CQI_LEVEL_06] sum([CSFB_1xRTT_PARAM_REQ]) [UE_REP_CQI_CW1_LEVEL_6]) + 7 * ([UE_REP_CQI_LEVEL_07] [UE_REP_CQI_CW1_LEVEL_7]) +8* sum([CSFB_1xRTT_PREP]) ([UE_REP_CQI_LEVEL_08] [UE_REP_CQI_CW1_LEVEL_8]) + 9 * ([UE_REP_CQI_LEVEL_09] [UE_REP_CQI_CW1_LEVEL_9]) + 10 * ([UE_REP_CQI_LEVEL_10] [UE_REP_CQI_CW1_LEVEL_10]) + 11 * ([UE_REP_CQI_LEVEL_11] [UE_REP_CQI_CW1_LEVEL_11]) + 12 * ([UE_REP_CQI_LEVEL_12] [UE_REP_CQI_CW1_LEVEL_12]) + 13 * ([UE_REP_CQI_LEVEL_13] [UE_REP_CQI_CW1_LEVEL_13]) + 14 * ([UE_REP_CQI_LEVEL_14] [UE_REP_CQI_CW1_LEVEL_14]) + 15 *
100 * sum([CSFB_1xRTT_UL_HO_PREP_TRAN S]) / sum([CSFB_1xRTT_PREP]) 100 * sum([CSFB_1xRTT_PREP_FAIL_HO]) / sum([CSFB_1xRTT_PREP]) [PDCP_SDU_VOL_DL] * 8 / [PRB_USED_PDSCH] / 180
[PDCP_SDU_VOL_UL] *8 / [PRB_USED_PUSCH] / 180
100%* avg(([UL_INTRA_COMP_UE_AVG] / 100) *sum([ACTIVE_TTI_UL]) / sum([SUM_ACT_UE_SCHED_DATA_UL]) sum([SAMPLES_CELL_AVAIL]) / sum([DENOM_CELL_AVAIL])*100%
sum([SAMPLES_CELL_PLAN_UNAVAIL]) / sum([DENOM_CELL_AVAIL])*100
sum([SAMPLES_CELL_UNPLAN_UNAVAIL ]) / sum([DENOM_CELL_AVAIL])*100% 100*sum([ERAB_INI_SETUP_FAIL_RNL_R IP] + [ERAB_ADD_SETUP_FAIL_RNL_RIP]) / sum([EPS_BEARER_SETUP_ATTEMPTS]) 100*sum([ERAB_ADD_SETUP_FAIL_UP]) / sum([EPS_BEARER_SETUP_ATTEMPTS]) 100*sum([ERAB_ADD_SETUP_FAIL_RNL_ MOB]) / sum([EPS_BEARER_SETUP_ATTEMPTS]) 100*sum([ENB_EPS_BEARER_REL_REQ_ TNL]) / sum([ERAB_REL_ENB] + [ERAB_REL_HO_PART] + [EPC_EPS_BEARER_REL_REQ_NORM] + [EPC_EPS_BEARER_REL_REQ_DETACH] + [EPC_EPS_BEARER_REL_REQ_RNL] + [EPC_EPS_BEARER_REL_REQ_OTH])
avg([ACTIVE_UE_CAT_1_AVG])
avg([ACTIVE_UE_CAT_2_AVG])
avg([ACTIVE_UE_CAT_3_AVG])
avg([ACTIVE_UE_CAT_4_AVG])
sum([SUM_ACTIVE_UE_DATA_DL])/sum([ DENOM_ACTIVE_UE_DATA_DL])
sum([SUM_ACTIVE_UE_DATA_UL])/sum([ DENOM_ACTIVE_UE_DATA_UL])
max([DL_UE_DATA_BUFF_MAX])
max([UL_UE_DATA_BUFF_MAX])
sum([SUM_ACTIVE_UE_ENB])/sum([DEN OM_ACTIVE_UE_ENB])
avg([UE_DRB_DL_DATA_QCI_1]/100)
avg([UE_DRB_DL_DATA_NON_GBR]/100)
avg([UE_DRB_UL_DATA_QCI_1]/100)
avg([UE_DRB_UL_DATA_NON_GBR]/100)
sum([RLC_PDU_VOL_RECEIVED])/1000
1000000000 * sum ([ERAB_REL_HO_PART] + [ERAB_REL_ENB] [ERAB_REL_ENB_RNL_INA] [ERAB_REL_ENB_RNL_RED] sum([EthIfInOcts_15]) *8 / [ERAB_REL_ENB_RNL_RRNA] + (sum(MEASUREMENT_DURATION)*60) [EPC_EPS_BEARER_REL_REQ_RNL] + [EPC_EPS_BEARER_REL_REQ_OTH]) / (sum([PDCP_SDU_VOL_UL] + sum([rxEhernetOctets]) [PDCP_SDU_VOL_DL])*8 / (sum(MEASUREMENT_DURATION)*60)
sum([EthIfOutOcts_15]) *8 / (sum(MEASUREMENT_DURATION)*60)
sum([txEthernetOctets]) *8 / (sum(MEASUREMENT_DURATION)*60)
sum([EthIfInPktErr_15] + [EthIfInUnknownVLAN_15]) / sum([EthIfInPkt_15])*100
KPI Class
Accessibility
Retainability
Accessibility
Accessibility
Accessibility
Retainability
Retainability
Retainability
Accessibility
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Accessibility
Usage
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Retainability
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Retainability
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Retainability
Retainability
Retainability
Retainability
Retainability
Retainability
Retainability
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Accessibility
Accessibility
Mobility
Mobility
Accessibility
Retainability
Accessibility
Retainability
Accessibility
Accessibility
Accessibility
Mobility
Mobility
Mobility
Mobility
Mobility
Integrity
Integrity
Accessibility
Accessibility
Accessibility
Accessibility
Retainability
Accessibility
Accessibility
Retainability
Retainability
Mobility
Mobility
Mobility
Mobility
Mobility
Accessibility
Accessibility
Accessibility
Accessibility
Accessibility
Accessibility
Accessibility
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Integrity
Accessibility
Accessibility
Accessibility
Accessibility
Accessibility
Accessibility
Integrity
Integrity
Retainability
Usage
Usage
Usage
Usage
Integrity
Accessibility
Accessibility
Retainability
Accessibility
Accessibility
Accessibility
Accessibility
Accessibility
Accessibility
Accessibility
Retainability
Retainability
Usage
Mobility
Usage
Mobility
Mobility
Mobility
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Accessibility
Accessibility
Accessibility
Accessibility
Accessibility
Accessibility
Accessibility
Accessibility
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Mobility
Accessibility
Accessibility
Accessibility
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Mobility
Mobility
Usage
Usage
Usage
Usage
Accessibility
Usage
Usage
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Accessibility
Accessibility
Accessibility
Accessibility
Accessibility
Accessibility
Accessibility
Retainability
Retainability
Retainability
Retainability
Retainability
Accessibility
Accessibility
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Accessibility
Accessibility
Accessibility
Accessibility
Accessibility
Accessibility
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Integrity
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Retainability
Accessibility
Accessibility
Accessibility
Accessibility
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Integrity
Integrity
Accessibility
Accessibility
Accessibility
Accessibility
Accessibility
Accessibility
Usage
Usage
Usage
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Accessibility
Retainability
Retainability
Retainability
Accessibility
Retainability
Retainability
Retainability
Retainability
Retainability
Retainability
Retainability
Retainability
Retainability
Retainability
Retainability
Retainability
Retainability
Accessibility
Accessibility
Accessibility
Accessibility
Accessibility
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Retainability
Retainability
Retainability
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Accessibility
Accessibility
Accessibility
Accessibility
Accessibility
Accessibility
Accessibility
Accessibility
Accessibility
Accessibility
Accessibility
Mobility
Mobility
Mobility
Mobility
Usage
Usage
Usage
Usage
Accessibility
Usage
Usage
Usage
Usage
Integrity
Integrity
Usage
Usage
Retainability
Accessibility
Accessibility
Accessibility
Usage
Usage
Usage
Usage
Retainability
Retainability
Usage
Usage
Usage
Usage
Retainability
Retainability
Retainability
Integrity
Retainability
Usage
Usage
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Mobility
Usage
Usage
Usage
Mobility
Mobility
Mobility
Mobility
Usage
Usage
Usage
Usage
Usage
Usage
Mobility
Mobility
Integrity
Mobility
Mobility
Mobility
Mobility
Mobility
Usage
Usage
Usage
Usage
Usage
Usage
Retainability
Retainability
Retainability
Retainability
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Usage
Retainability
Usage
Usage
Usage
Usage
Retainability
Unit
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
kbps
kbps
kbps
kbps
MB
MB
MB
kbps
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
#
%
#
%
#
#
#
#
#
#
#
#
ms
ms
#
#
%
%
%
%
%
%
%
#
%
#
%
%
#
#
#
%
#
#
#
#
#
#
#
%
#
#
%
%
%
%
%
#
%
%
%
#
%
#
%
#
#
%
%
%
MB
MB
MB
#
%
%
%
%
%
#
%
%
#
#
#
%
%
%
#
#
%
%
%
%
%
%
%
%
%
%
#
%
#
#
#
#
#
%
%
kbps
Kbit/s
kbit/s
kbit/s
kbit/s
kbit/s
#
#
%
%
%
%
%
%
%
%
%
%
%
%
#
%
#
#
#
%
%
MB
#
kbps
kbps
kbps
kbps
kbps
kbps
kbps
kbps
kbps
kbps
kbps
kbps
kbps
kbps
kbps
kbps
kbps
kbps
dBm
dBm
dB
dB
#
#
%
%
%
%
%
%
%
%
%
%
%
%
#
#
#
#
#
#
#
#
#
#
#
%
%
#
%
#
%
%
%
%
%
%
%
%
#
#
dBm
dBm
%
%
%
%
%
%
%
%
%
%
#
%
%
%
%
%
%
%
%
ms
ms
ms
ms
ms
ms
ms
ms
ms
#
%
#
#
kbps
kbps
kbps
kbps
kbps
kbps
kbps
kbps
kbps
kbps
kbps
kbps
kbps
kbps
kbps
kbps
kbps
kbps
%
%
%
%
%
%
#
%
#
%
%
#
%
dB
dB
#
#
#
%
%
%
#
#
#
#
%
%
#
%
%
%
Percentage
%
%
%
%
min
min
min
min
min
min
#/h
#/h
#/h
#/h
#/h
#/h
%
%
ms
ms
ms
ms
#
#
#
#
#
#
#
#
#
%
%
%
%
%
%
%
%
%
#
#
#
#
#
#
#
#
#
#
#
#
#
%
%
%
%
%
#
%
%
%
MB
MB
kbit/s
kbit/s
%
#
#
%
#
#
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
#
%
%
%
#
%
#
%
%
%
%
%
#
%
%
%
%
#
%
%
%
#
#
#
#
#
#
#
%
#
#
%
#
%
%
Bit/s/Hz
Bit/s/Hz
%
%
%
%
%
%
#
%
#
#
#
#
#
#
#
#
#
#
#
#
#
MB
1/GByte
kbit/s
kbit/s
kbit/s
kbit/s
Percentage
Object Summary Levels
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB
Network, eNB
Network, eNB
Network, eNB
Network, eNB, IP Interface
Network, eNB, IP Interface
Network, eNB, IP Interface
Network, eNB, IP Interface
Network, eNB, IP Interface
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB
Network, eNB
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB
Network, eNB
Network, eNB
Network, eNB
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB
Network, eNB
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB
Network, eNB
Network, eNB
Network, eNB
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB
Network, eNB
Network, eNB
Network, eNB
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB
Network, eNB, Cell
Network, eNB, Cell
Network, eNB
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, VLAN Interface
Network, eNB, Cell
Network, eNB, VLAN Interface
Network, eNB, VLAN Interface
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB
Network, eNB
Network, eNB
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Cell
Network, eNB, Ethernet link
Network, eNB, Cell
Network, eNB, Cell
Object Summary Level Notes
Time Summary Levels
Week, Day, Hour
Total; week; weeklyBH; day; dailyBH; hour
Raw, Hourly, Daily, Weekly
Week, Day, Hour
Week, Day, Hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Total; week; weeklyBH; day; dailyBH; hour
Week, Day, Hour
Total; week; weeklyBH; day; dailyBH; hour
Raw, Hourly, Daily, Weekly
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Raw, Hourly, Daily, Weekly
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Raw, Hourly, Daily, Weekly
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Raw, Hourly, Daily, Weekly
Total; week; weeklyBH; day; dailyBH; hour
Week, Day, Hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Week, Day, Hour
Week, Day, Hour
Total; week; weeklyBH; day; dailyBH; hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Raw, Hourly, Daily, Weekly
Total; week; weeklyBH; day; dailyBH; hour
Raw, Hourly, Daily, Weekly
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Week, Day, Hour
Week, Day, Hour
Raw, Hourly, Daily, Weekly
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Total; week; weeklyBH; day; dailyBH; hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Total; week; weeklyBH; day; dailyBH; hour
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Total; week; weeklyBH; day; dailyBH; hour
Week, Day, Hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Raw, Hourly, Daily, Weekly
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Raw, Hourly, Daily, Weekly
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Total; week; weeklyBH; day; dailyBH; hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Week, Day, Hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Total; week; weeklyBH; day; dailyBH; hour
Raw, Hourly, Daily, Weekly
Week, Day, Hour
Week, Day, Hour
Time Summary Level Notes