UMTS Radio Parameter
Contents
1 Cell and common signal channel establishment establishment parameters.................................................................. 1 2 Cell selection and parameter parameter re-selection re-selection ................................................................................................ 9 3 Random access access parameter....................................................................................................................... parameter....................................................................................................................... 21 4 UE call call establishment parameter............................................................................................................ 31 5 Paging parameter..................................................................................................................................... 39 6 Power control parameter......................................................................................................................... parameter......................................................................................................................... 45
6.1 Basic principle of internal loop power control................................................................................ 45 6.2 Basic principle principle of external loop power control ............................................................................... 58 7 Control parameter switch........................................................................................................................ 67
7.1 Basic principle of intra-frequency intra-frequency switch ....................................................................................... 67 7.2 Basic principle of inter-frequency inter-frequency switch ....................................................................................... 80 7.3 Basic principle of intersystem switch.............................................................................................. switch.............................................................................................. 90
1 Ce Cell and common com mon signal sig nal channel channel establishm stablis hme ent parame parameters ters Normal cell operation is premise for a UMTS system to guarantee normal network operation while premise of normal cell operation is successful cell and common signal channel establishment as well as broadcasting communication parameters to network side of UE through system messages. Above signaling process is shown in following figure:
Key factors to indicate a cell include configuration of frequency point, primary scrambling code, total power and common physical signal channel. In which: Common physical signal channels which shall be configured are as follows:
Pilot channel (PCPICH): Used as reference basis of other signal channels and signal measurement.
Primary synchronous channel (PSCH): Used for time slot synchronization when searching for the cell.
Auxiliary synchronous channel (SSCH): To define frame synchronization and main scrambling code when searching for the cell.
UMTS Radio Parameter
Broadcasting channel (PCCPCH): Used to broadcast system messages.
Auxiliary common control physical channel (SCCPCH) :Used to bear FACH or PCH transmission channel messages. Random access channel (PRACH): Used for subscriber’s random access; Relevant
parameters are introduced in random access process Chapter. Chapter. Access indicator channel (AICH): Downlinkindicator channel which is used with
PRACH channel together; AICH channel parameters are introduced in random access process Chapter. Paging indicator channel (PICH): Used for paging indication; Paging channel
parameters are introduced introduced in paging Chapter. Chapter. Central Frequency of the Carrier Frequency of the Uplink Channel (UUARFCN) 3GPP Name
UARFCN (Nupper)
3GPP Reference
TS 25.331
Field Name
Uuarfcn This parameter indicates the upper limit of the Band of a UTRAN FDD controlled by the local PLMN. When a UE returns to the idle state from the RRC connection state,
Description
the UE selects and resides in a cell. UTRAN carries this parameter in the RRC CONNECTION RELEASE message. This parameter indicates the possible transmit Band of the surrounding cell. This helps the UE to speed up cell search.
Description of data item of radio parameter message GUI Element Name
Upper limit of FDD UMTS frequency point Band 1: 10562..10838 Band 2: 9662..9938, 412, 587,
Value Range
612,
637,
487,
512,
537,
562,
687
Band 5: 4357… 4458, 1007,
1012,
Band 6: 4387 …4413, 1037,
1062
Default Value
[10838,9938]
Scope
RNC
Function
-
Configuration
462,
Band 3: 1162.. 1513
Band 8: 2937..3088
Recommended
662,
437,
-
1032,
1037,
1062,
1087
Chapter 1
Cell and common signal channel establishment parameters
Central Frequency of the Carrier Frequency of the Downlink Channel (DUARFCN) 3GPP Name
UARFCN (Nlow)
3GPP Reference
TS 25.331
Field Name
Luarfcn [8] The parameter is to instruct lower limit of a certain UTRAN FDD frequency scope under PLMN control. UE will select a cell when returning from RRC connection
Description
status to idle state. Utran has this parameter in RRC CONNECTION RELEASE message to instruct possible transmitting frequency scope around the cell so that UE can search for the cell quickly.
Description of data item
of
radio
parameter message GUI Element Name
Lower limit of FDD UMTS frequency point Band 1: 10562..10838 Band 2: 9662..9938,412, 437, 462, 487, 512, 537, 562, 587, 612, 637, 662, 687
Value Range
Band 3: 1162.. 1513 Band 5: 4357… 4458,1007, 1012, 1032, 1037, 1062, 1087 Band 6: 4387 …4413,1037, 1062 Band 8: 2937..3088
Default Value
[10562, 9662]
Scope
RNC
Function
-
Recommended Configuration
-
Cell Maximum Transmission Power 3GPP Name
Maximum Transmission Power
3GPP Reference
TS 25.433
Field Name
MAXDlTxPwr
Description
This parameter indicates the maximum transmission power allowed by all downlink physical channels of a cell.
Description of data item of radio parameter message GUI Name
Element
Cell Maximum Transmission Power
UMTS Radio Parameter
3GPP Name Value Range
Maximum Transmission Power OMCR: (0.0..50.0)dBm (0.0..50.0)dBm,step 0.1dBm RNC: D=P*10,0..500
Default Value
43dBm
Scope
UTRAN Cell
Function
The parameter value depends on the scenario defined by the cell coverage attribute. The maximum transmission power is related
Recommended Configuration
to the cell coverage range and should be adjusted according to the coverage attribute of the cell. The principle of adjustment is: Typically, the pilot frequency covers 10%, and the Ec/Io at the edges of the pilot frequency should be maintained at about -12dB.
Cell Primary Scrambling Code 3GPP Name
Primary Scrambling Code TS 25.331
3GPP Reference
TS 25.423 TS25.433
Field Name
PrimScraCode Cell primary scrambling codes distinguish between cells. The
Description
UTRAN system has a total of 512 available primary scrambling codes.
Description of data item of radio parameter message GUI Element Name
Cell Primary Scrambling Code
Value Range
0..511-
Default Value
-
Scope
UTRAN Cell
Function
Since there are a total of 512 available primary scrambling codes, these codes follow spatial multiplexing. Basically, the
Recommended Configuration
principle is to ensure that the primary scrambling codes are different between neighboring cells, and the space between the cells with the same primary scrambling code should be as large as possible. Typically, you should plan the primary scrambling codes during network planning.
P-CPICH Power
Chapter 1
3GPP Name
Cell and common signal channel establishment parameters
Primary CPICH Tx Power; Primary CPICH power; Primary CPICH Power TS 25.331: “RRC Protocol Specification”
3GPP Reference
TS 25.433: “UTRAN Iub Interface NBAP Signaling” TS 25.423: "UTRAN Iur interface RNSAP signalling"
Field Name
PcpichPwr This parameter indicates the transmit power of the PCPICH. It
Description
is an absolute value. The cell uses this power to transmit the PCPICH.
Description of data item of radio parameter message GUI Element Name
P-CPICH Power
Value Range
(-10.0..50.0) (-10.0..50. 0) dBm step 0.1dBm
Default Value
33dBm
Scope
UTRAN Cell
Function
Power Control The parameter value is related to the scenario defined by the cell coverage attribute and should be adjusted according to the
Recommended Configuration
coverage attribute of the cell. Typically, the rational value of Ec/Io of the PCPICH at the edges of the cell is about -12dB. If the power is high, it is a waste of power. If the power is low, QoS cannot be guaranteed in case that a subscriber is at the edge of the cell.
Primary SCH Power 3GPP Name
Primary SCH Power
3GPP Reference
TS 25.433: “UTRAN Iub Interface NBAP Signalling” Signalling ”
Field Name
PschPwr This parameter indicates the transmit power of the PSCH. It is
Description
a relative value (dB) of the transmit power of the PCPICH of the local cell.
Description of data item of radio parameter message GUI Element Name
PSCH Power
Value Range
(-35..+15) dB step 0.1dB
Default Value
-3dB
Scope
UTRAN Cell
Function
Power Control
Recommended
The transmit power of the PSCH should ensure that the
Configuration
subscribers at the edges of the cell correctly detect the PSCH.
UMTS Radio Parameter
3GPP Name
Primary SCH Power In network optimization, you can adjust the power according to the actual cell search success status of the subscribers. Usually, because the transmit power of the PSCH is associated with the PCPICH, the default configuration can ensure successful synchronization only if the power of the PCPICH is appropriate.
Secondary SCH Power 3GPP Name
Secondary SCH Power
3GPP Reference
TS 25.433: “UTRAN Iub Interface NBAP Signalling” Signallin g”
Field Name
SschPwr This parameter indicates the transmit power of the SSCH. It is
Description
a relative value (dB) of the transmit power of PCPICH of the local cell.
Description of data item of radio parameter message GUI Element Name
SSCH power
Value Range
(-35..+15) dB step 0.1dB
Default Value
-4dB
Scope
UTRAN Cell
Function
Power Control
Recommended
The recommended configuration is the same as the transmit
Configuration
power of the the PSCH.
S-CCPCH Time Slot Format 3GPP Name
Secondary CCPCH Slot Format
3GPP Reference
TS 25.433: “UTRAN Iub Interface NBAP Signalling” Signallin g”
Field Name
SlotFmt This parameter indicates the format of timeslot used by the
Description
SCCPCH. The SCCPCH uses a total of 18 formats of timeslots.
Description of data item of radio parameter message GUI Element Name
SCCPCH Slot Format
Value Range
0..17 SCCPCH to bear PCH: 4
Default Value
SCCPCH to bear R99 FACH: 8 SCCPCH to bear MCCH: 6
Scope
UTRAN Cell
Chapter 1
Cell and common signal channel establishment parameters
3GPP Name
Secondary CCPCH Slot Format
Function
-
Recommended
The timeslot format of the SCCPCH determines the bearer rate
Configuration
over SCCPCH.
S-CCPCH TFCI Field Power Offset 3GPP Name
PO1
3GPP Reference
TS 25.433: “UTRAN Iub Interface NBAP Signalling” Signalling ”
Field Name
PO1 This parameter indicates the offset (relative value) of the
Description
transmit powers of the SCCPCH in the TFCI field and the data field. The offset varies according to the data bit rate.
Description of data item of radio parameter message GUI Element Name
S-CCPCH TFCI Field Power Offset
Value Range
(0..6) dB step 0.25 dB
Default Value
3dB
Scope
UTRAN Cell
Function
Power Control This parameter is associated with the SF of the SCCPCH that bears the FACH. FACH. Typically Typically,, when the SF changes, changes, the gain gain over
Recommended Configuration
the channel changes as well. Therefore, to maintain the bit detection performance of the TFCI field of the SCCPCH, the parameter should also be adjusted. The principle is: The smaller the SF of the SCCPCH, the smaller the parameter value.
S-CCPCH Pilot Field Power Offset 3GPP Name
PO3
3GPP Reference
TS 25.433: “UTRAN Iub Interface NBAP Signalling” Signalling ”
Field Name
PO3 This parameter indicates the offset (relative value) of the transmit
Description
powers of the the SCCPCH in the PILOT PILOT field and and the data field. field. The offset varies according to the data bit rate.
Description of data item of radio parameter message GUI
Element
Name
S-CCPCH Pilot Field Power Offset
Value Range
(0.6) dB step 0.25 dB
Default Value
3dB
UMTS Radio Parameter
3GPP Name
PO3
Scope
UTRAN Cell
Function
Power Control
Recommended
The recommended configuration is the same as SCCPCH TFCI
Configuration
Field Power Offset.
Maximum FACH Power 3GPP Name
Max FACH Power
3GPP Reference
TS 25.433: “UTRAN Iub Interface NBAP Signalling” Signallin g”
Field Name
MaxFachPwr This parameter indicates the maximum transmit power (relative
Description
value based on the transmit power of the PCPICH) of the FACH mapped to the SCCPCH.
Description of data item of radio parameter message GUI Element Name
Maximum FACH transmitting transmitt ing power
Value Range
(-35..15)dB step 0.1 dB
Default Value
-1dB
Scope
UTRAN Cell
Function
Power Control
Recommended Configuration
This parameter is associated with the data rate over the FACH. The larger the data rate over the FACH, the larger the required power. power.
2 Cell selectio select ion n and parameter parameter re-selecti re-selection on Execute PLMN selection and cell selection process in sequence after UE bootstrap. The cell shall be selected for staying and registration to network side after selecting a suitable cell. UE will select the cell again after staying to a certain serving cell with UE motion and variation of signal channel quality.
PLMN selection process: PLMN selection standard is that CPICH RSCP is more than or equal to -95dBm. UE will read PLMN of cell which has searched for the strongest signal. PLMN also can be regarded as selection access PLMN if failing to meet above standards but PLMN mark can be decoded. Cell selection process: Cell with the strongest signal shall be regarded as the initial access cell. S rule definitions of cell selection standards are as follows:
for FDD cells:
Srxlev > 0 AND Squal > 0
for TDD cells:
Srxlev > 0
In which:
Squal = Qqualmeas – Qqualmin Srxlev = Qrxlevmeas - Qrxlevmin - Pcompensation
Squal Srxlev
Cell selection quality value (dB) It is only suitable to FDD cell. RX level value (dB) for cell selection Measured cell quality value: CPICH E c/N0 refers to quality of
Qqualmeas
signals received by FDD cell and it is only suitable to FDD cell.
UMTS Radio Parameter
RX level value of measured cell: Received signal of FDD cell Qrxlevmeas
is CPICH RSCP (dB) and that of TDD cell is P-CCPCH RSCP (dBm) and that of GSM cell is RXLEV(dBm). It refers to the minimum quality value required for cell ant it is
Qqualmin
only suitable to FDD cell.
Qrxlevmin
The minimum RX level (dBm) required for cell;
P compensation
Max (UE_TXPWR_MAX_RAC (UE_TXPWR_MAX_RACH H – P_MAX, 0)
UE_TXPWR_MAX_
The maximum available TX power level of UE (which is read
RACH
from system messages) during RACH cell access;
P_MAX
The maximum RF output power of UE ,(dBm)
Cell re-selection process UE will select cell again after staying to the cell. Cell re-selection includes measurement execution and determination of UE.
Following introduction is not suitable to HCS cell.
Measurement rules:
UE will regard Squal (FDD cell ) as Sx in following rules: UE does not need to execute inter-frequency measurement if Sx exceeds Sintrasearch. UE will execute inter-frequency measurement if Sx is less than or equal to Sintrasearch. UE will carry on intra- frequency measurement if Sintrasearch has not been configured. UE does not need to execute inter-frequency measurement if Sx exceeds Sintrasearch. UE will execute inter-frequency measurement if Sx is less than or equal to Sintrasearch.
Chapter 2 Cell selection and parameter re-selection
UE will carry on inter- frequency measurement measurement if Sintrasearch has not been configured. UE does not need to measure cells with different radio measurement techniques if Sx exceeds SsearchRAT m. UE will measure other RAT m cells if Sx is less than or equal to SsearchRATm. UE will measure other RAT m cells if SsearchRAT m has not been configured.
Cell re-selection determination rules are as follows:
Following cell re-selection standards are used for intra-frequency, inter-frequency and inter-RAT cells: R rules for cell array standards are as follows:
R s = Qmeas,s + Qhysts R n = Qmeas,n - Qoffsets,n - TOn * (1 – Ln) In which:
In which: Tn is a timer and it shall be started up if signal quality of adjacent cell is better than sum of signal quality of serving cell and relative offset(Qoffset1 s,n or Qoffset2 s,n) of serving cell and adjacent cell. That is, adjacent cell shall be deducted deducted by offset if signals of adjacent cell fluctuate so that it is difficult to be regarded as target cell for re-selection. All cells which meet S standard shall be founded out firstly then arrayed according to above R rules and cell with the largest R shall be regarded as target cell for re-selection during cell re-selection determination. UE will execute cell re-selection process if re-selection interval meets cell re-selection standard and UE has stayed in current serving cell for more than 1 second. Minimum demand level of cell quality (Qqualmin)
UMTS Radio Parameter
3GPP Name 3GPP Reference Field Name
Qqualmin TS 25.304: “UE Procedures in Idle Mode” TS 25.331: “RRC Protocol Specification” QQualMin This parameter indicates the minimum cell quality level that satisfies cell selection and reselection conditions. When the
Description
measured value is CPICH Ec/No, the quality value of the measured cell must be greater than Qqualmin before it can meet the condition for cell selection.
Description of data item of radio parameter message GUI Element Name
Minimum demand level of cell quality
Value Range
(-24..0) dB step 1dB
Default Value
-18 dB
Scope
UTRAN Cell
Function
Cell Selection/Reselection Selection/Reselection This parameter is the foundation for determining the S rule of the cell. Typically, you should use the default value. However, in the scenario of a highway, because the distance between stations is large, the number of cells is small with a large
Recommended
distance, and the UE moves fast, the original cell will therefore
Configuration
features a power signal quality. In this case, the UE fails to reselect the new cell. Therefore, you can lower Qqualmin and Qrxlevmin to make the UE complete the cell reselection as early as possible. The principle also applies to the corners of crowded cells.
Minimum Cell Receiving Electrical Level Threshold (Qrxlevmin) 3GPP Name 3GPP Reference Field Name
Qrxlevmin TS 25.304: “UE Procedures in Idle Mode” TS 25.331: “RRC Protocol Specification” QRxLevMin This parameter indicates the minimum cell receiving level that satisfies the cell selection and reselection conditions. When the
Description
measured value is CPICH RSCP, the receiving level of the measured cell must be greater than Qrxlevmin before it can meet the condition for cell selection.
Description of data item of radio parameter message GUI Element Name
Minimum cell receiving electrical level threshold
Value Range
(-115..-25) dBm step 2dBm
Chapter 2 Cell selection and parameter re-selection
3GPP Name
Qrxlevmin
Default Value
-115 dBm
Scope
UTRAN Cell
Function
Cell Selection/Reselection Selection/Reselection
Recommended Configuration
The recommended configuration is the same as Qqualmin.
Measurement Quantity for Cell Selection and Reselection 3GPP Name 3GPP Reference Field Name Description
Cell selection and reselection reselectio n quality measure TS 25.331: “RRC Protocol Specification” TS 25.304: “UE Procedures in Idle Mode” QualMeas This parameter indicates the measure for cell selection and reselection.
Description of data item of radio parameter message GUI Element Name Value Range
Cell re-selection re-selecti on measurement quantity 1: CPICH Ec/No 2: CPICH RSCP
Default Value
CPICH Ec/No
Scope
UTRAN Cell
Function
Cell Selection/Reselection Selection/Reselection This parameter indicates the measure as determination standard for cell selection and reselection. This parameter is determined in view of the co-channel interference. When you configure a co-channel neighboring cell for the cell, the co-channel interference is larger. To better reflect the signal quality, you should use CPICH Ec/No as the
Recommended
determination standard of the measure. However, when you
Configuration
configure an inter-frequency or inter-system neighboring cell, there is no co-channel interference. In this case, it is more appropriate to use CPICH RSCP as the determination standard for the measure. In a typical networking, there are a lot of co-channel neighboring cells; therefore, you should select CPICH Ec/No as the default value.
Synchronization frequency Measurement Trigger Threshold for Cell Re-selection (Sintrasearch)
UMTS Radio Parameter
3GPP Name
Sintrasearch
3GPP Reference Field Name
TS 25.304: “UE Procedures in Idle Mode” TS 25.331: “RRC Protocol Specification” SIntraSearch This parameter indicates the intra-frequency measurement trigger for cell reselection. The UE uses this parameter to determine whether to execute intra-frequency measurement. In case HCS is not used, if the quality of the
Description
serving cell is greater than Sintrasearch, intra-frequency measurement is not executed. If the quality of the serving cell is smaller than or equal to Sintrasearch or Sintrasearch is not configured, the UE executes intra-frequency measurement. For details, see TS 25.304.
Description of data item of radio parameter message GUI Element Name
Synchronization frequency measurement trigger threshold for cell re-selection re-select ion
Value Range
(0..20 ) dB Step 2dB
Default Value
14dB
Scope
UTRAN Cell
Function
Cell Selection/Reselection Selection/Reselection The parameter is determined depending on the situation whether the specific scenario expects the reselection of the intra-frequency cell as soon as possible.
Recommended
A smaller parameter value is more likely to trigger the measurement of the
Configuration
intra-frequency cell. A larger parameter value is not easy to trigger the measurement. The recommended configuration is based on the universal scenarios. Therefore, you should follow the recommended configuration.
Inter-frequency
Measurement
Trigger
Threshold
for
Cell
(Sintersearch) 3GPP Name 3GPP Reference Field Name
Sintersearch TS 25.304: “UE Procedures in Idle Mode” TS 25.331: “RRC Protocol Specification” SInterSearch This parameter indicates the inter-frequency measurement trigger for cell reselection. The UE uses this parameter to determine whether to execute inter-frequency measurement. In case HCS is
Description
not used, if the quality of the serving cell is greater than SInterSearch, inter-frequency measurement is not executed. If the quality of the serving cell is smaller than or equal to Sintrasearch or
SInterSearch
is
not
configured,
the
UE
inter-frequency measurement. For details, see TS 25.304. Description of data item of radio parameter message
executes
Re-selection
Chapter 2 Cell selection and parameter re-selection
3GPP Name
Sintersearch
GUI
Inter-frequency
Element
measurement
Name
re-selection
Value Range
(0..20 ) dB Step 2dB
Default Value
10dB
Scope
UTRAN Cell
Function
Cell Selection/Reselection Selection/Reselection
trigger
threshold
for
cell
The parameter is determined depending on the situation whether the
specific
scenario
expects
the
reselection
of
the
Recommended
inter-frequency cell as soon as possible. A smaller parameter
Configuration
value is more likely to trigger the measurement of the intra-frequency cell. A larger parameter value is not easy to trigger the measurement.
Inter-system Measurement Trigger Threshold for Cell Re-selection (Ssearch, RAT) 3GPP Name 3GPP Reference Field Name
Ssearch,RAT TS 25.304: “UE Procedures in Idle Mode” TS 25.331: “RRC Protocol Specification” SSearchRat This parameter indicates the triggers Ssearch, RAT for inter-system measurement for cell reselection. The UE uses these triggers to determine whether to execute inter-system measurement. In case
Description
HCS is not used, if the quality of the serving cell is greater than Ssearch, RAT, inter-system measurement is not executed. If the quality of the serving cell is smaller than or equal to Ssearch, RAT or Ssearch, RAT is not configured, the UE executes inter-system measurement. For details, see TS 25.304.
Description of data item of radio parameter message GUI
Element
Name
Inter-system measurement trigger threshold for cell re-selection
Value Range
(0..20 ) dB Step 2dB
Default Value
6dB
Scope
UTRAN Cell
Function
Cell Selection/Reselection Selection/Reselection The parameter is determined depending on the situation whether
Recommended
the specific scenario expects the reselection of the inter-system cell
Configuration
as soon as possible. A smaller parameter value is more likely to trigger the measurement of the intra-frequency cell. A larger
UMTS Radio Parameter
3GPP Name
Ssearch,RAT parameter value value is not easy easy to trigger the the measurement. measurement.
Re-selection Lag 1 of Serving Cell (Qhyst1s) 3GPP Name
Qhyst1 s
3GPP
TS 25.331: “RRC Protocol Specification” Specification”
Reference
TS 25.304: “UE Procedures in Idle Mode”
Field Name
QHyst1S This parameter indicates the hysteresis parameter for determining FDD cell reselection in case that the measure is CPICH RSCP. In the
Description
R rule of cell reselection, the R value of the cell is equal to the measured value plus the hysteresis parameter. For details, see TS 25.304.
Description of data item of radio parameter message GUI
Element
Name
Re-selection lag 1 of serving cell
Value Range
(0..40) dB step2 dB
Default Value
10dB
Scope
UTRAN Cell
Function
Cell Selection/Reselection Selection/Reselection The parameter is determined depending on the situation whether the specific scenario expects the reselection of the inter-frequency cell as soon as possible. A larger parameter value indicates that the UE is
Recommended Configuration
more expected to reside in the current serving cell. A smaller parameter value is more likely to trigger the measurement measurement of the intra-frequency cell. However, a larger value may result in poor signal quality of the local cell whereas good quality of the neighboring cell. In this case, cell reselection still will not be triggered.
Re-selection Lag 2 of Serving Cell (Qhyst2s) 3GPP Name 3GPP Reference Field Name
Qhyst2 s TS 25.331: “RRC Protocol Specification” TS 25.304: “UE Procedures in Idle Mode” QHyst2S This parameter indicates the hysteresis parameter for determining
Description
FDD cell reselection in case that the measure is CPICH Ec/No. In the R rule of cell reselection, the R value of the serving cell is equal to the measured value plus the delay parameter. For details,
Chapter 2 Cell selection and parameter re-selection
3GPP Name
Qhyst2 s see TS 25.304.
Description of data item of radio parameter message GUI Element Name
Re-selection Re-selecti on lag 2 of serving cell
Value Range
(0..40) dB step 2 dB
Default Value
2 dB
Scope
UTRAN Cell
Function
Cell Selection/Reselection Selection/Reselection
Recommended Configuration Configurati on
The recommended configuration is the same as QHyst1S.
Timer Duration for Cell Re-selection (Treselections) 3GPP Name
Treselection s TS 25.331: “RRC Protocol Specification”
3GPP Reference
TS 25.304: “UE Procedures in Idle Mode”
Field Name
T reselection This parameter indicates the timer for cell reselection. For a serving cell, a new cell must prolong the Treselections
Description
duration according to the R sorting rule before it can be selected as the new serving cell.
Description of data item of radio parameter message GUI Element Name
Timer duration for cell re-selection
Value Range
(0..31) s step 1s
Default Value
1s
Scope
UTRAN Cell
Function
Cell Selection/Reselection Selection/Reselection The purpose of Treselection is to avoid mutual reselection
Recommended Configuration
between two cells. In a scenario where a cell features dense signal with fast changes, you need to increase the difficulty for reselection, for example, increase the timer, to avoid frequent reselection. This helps to cut down Treselections.
Quality Offset 1 (Qoffset1s,n in SIB11) of Corresponding Serving Cell and Adjacent Cell in SIB11 3GPP Name 3GPP Reference Field Name
Qoffset1 s,n TS 25.331: “RRC Protocol Specification” TS 25.304: “UE Procedures in Idle Mode” Qoffset1SNSib11
UMTS Radio Parameter
3GPP Name
Qoffset1 s,n This parameter indicates the offset between the serving cell and the
Description
neighboring cell in the event that the measure is CPICH RSCP. It is required to sort cells in cell reselection. This parameter is broadcasted to the UE in SIB11.
Description of data item of radio parameter message GUI
Element
Name
Quality offset 1 of corresponding serving cell and adjacent cell in SIB11
Value Range
OMCR: (-50..50) dB RNC: D=P+50, 0..100
Default Value
0dB
Scope
UTRAN Neighboring Cell, GSM Neighboring Cell
Function
Cell Selection/Reselection Selection/Reselection This parameter indicates the offset between the serving cell and the neighboring cell in the event that the measure is CPICH RSCP. Cell reselection follows the R rule, and the R value of the neighboring cell is equal to the measured value subtracting the neighboring quality offset. The parameter is determined depending on the situation whether the specific scenario expects the reselection of the inter-frequency cell as soon as possible. A larger parameter value indicates that the neighboring cell is more impossible to be reselected as the destination cell, and therefore cell reselection seldom happens. A smaller parameter value is more likely to trigger cell reselection. However, a larger value may result in poor quality of the local cell
Recommended Configuration
and good quality of the neighboring cell. In this case, cell reselection still will not happen. In co-networking of UMTS and GSM, continuous coverage is expected inside the UMTS network. Only when the UMTS network covers edges, cell reselection from UMTS to GSM is required. Therefore, in the suburbs with dense signals, you can increase Qrxlevmin in SIB11 and Qoffset1-s, n in SIB11 (neighboring cell) to improve the difficulty for cell reselection. As to the edges of the UMTS network, especially a highway, the UE moves fast. In this case, the signal of the UMTS cell quickly decreases. In case that the UE goes into the GSM network coverage area but cell reselection still does not happen. Therefore, you can increase Ssearch, RAT and reduce Qrxlevmin in SIB11 and Qoffset1-s, n in SIB11 (neighboring cell) to help the UE complete cell reselection as early as possible.
Quality Offset 2(Qoffset2s, n in SIB11) of Corresponding Serving Cell and Adjacent Cell in SIB11
Chapter 2 Cell selection and parameter re-selection
3GPP Name 3GPP Reference Field Name
Qoffset2 s,n TS 25.331: “RRC Protocol Specification” TS 25.304: “UE Procedures in Idle Mode” Qoffset2SN Sib11 This parameter indicates the offset between the serving cell and
Description
the neighboring cell in the event that the measure is CPICH Ec/No. It is required to sort cells in cell reselection. This parameter is broadcasted broadcasted to the UE in SIB11. SIB11.
Description of data item of radio parameter message GUI Element Name
Value Range
Quality offset 2 of corresponding serving cell and adjacent cell in SIB11 OMCR: (-50..50) dB RNC: D=P+50,0..100
Default Value
0dB
Scope
UTRAN Neighboring Cell
Function
Cell Selection/Reselection Selection/Reselection
Recommended
The
Configuration
Qoffset1SNSib11.
recommended
configuration
is
the
same
as
3 Rando Random m access parameter Registration process shall be initiated after UE selecting a cell for staying. A random access process shall be initiated firstly according to system broadcasting messages. In addition, random access process shall be executed for uplinkinteraction between UE and network side firstly once UE is under idle, CELL_PCH/URA_PCH or CELL_FACH status. Frame structure of random access channel:
Preamble
Preamble
Preamble
Message part
4096 chips
10 ms one radio radio frame
Preamble
Preamble
Preamble
Message part
4096 chips
20 ms two radio radio frames frames Prefix of frame structure consists of signature code and scrambling. Timing relationship between PRACH and AICH One access slot Acq. Acq. Ind.
AIC AICH H acces ccess s slots RX at UE
τp-a p-a PRACH access slots TX at UE
Preamble
Preamble
τp-p p-p
Message part
τp-m p-m
UMTS Radio Parameter
In which: -
When AICH_Transmission_Timing AICH_Transmission_Timing is 0:
τ p-p,min = 15360 chips (3 access slots) τ p-a = 7680 chips τ p-m = 15360 chips (3 access slots) -
When AICH_Transmission_Timing AICH_Transmission_Timing is 1:
τ p-p,min = 20480 chips (4 access slots) τ p-a = 12800 chips τ p-m = 20480 chips (4 access slots) Random access includes MAC layer and physical layer. Physical channels used for random access are represented by scrambling and signature. Access process of physical layer Effective uplinkaccess time slot gained from access time slot collection :An effective access time slot shall be selected randomly among corresponding access time slot collection for effective RACH sub-channel Number which is required for corresponding ASC. A signature shall be selected randomly among available signatures which correspond to selected ASC. Setting prefix retransmission counter is Preamble Retrans Max. Setting initial transmitting power of prefix Setting prefix transmitting power is equal to the maximum transmitting power if calculated
prefix
transmitting
power
exceeds
the
maximum
permissible
uplinktransmitting power. Setting prefix transmitting power is equal to the minimum transmitting power if calculated prefix transmitting power is less than the maximum permissible uplinktransmitting power. power. Then selected signature, uplinkaccess time t ime slot and prefix transmitting power shall be connected to prefix. If UE has not received yes/no reply of selected signature (AI ≠ +1 nor –1 )of AICH during Downlinkaccess time slot which is defined after uplinkaccess time slot:
An effective access time slot shall be selected randomly among effective RACH
Chapter 3
Random access parameter
sub-channel Number which corresponds to selected ASC.
An available signature shall be selected randomly among available signatures which correspond to selected ASC.
Prefix Prefix transmitt transmitting ing power power shall shall be be increase increased d by step step length length of of
P0 = Power Ramp
Step [dB]
Prefix retransmission counter shall be deducted by 1.
Turn to Step 5 for re-execution if prefix retransmission counter exceeds 0 or physical layer (L1) of UE will report status (of “No ack on AICH”) to MAC and exit physical random access process.
UE physical layer will report (of “No ack on AICH received”) to MAC and exit physical random access process if UE has received negative reply for selected signature of AICH during definition period after uplinkaccess time slot. rd
th
UE will send random access messages during the 3 or 4 uplinkaccess time slot after sending the prefix time slot finally after receiving positive reply for selected signature of AICH during definition period after uplinkaccess time slot. The 3
rd
or 4
th
uplinkaccess time slot depends on MAC parameter of AICH transmission timing. Physical layer L1 of UE will report status (of "RACH message transmitted") to MAC and exit physical random access process. Access process of MAC layer MAC layer will generate random quantity and send probability (Pi) for comparison if data shall be sent. Sending Sending is not allowed unless it exceeds Pi. Pi.
MAC layer will will wait
form next TTI for re-sending if sending is not allowed previously. Random access process request of physical layer will be initiated to L1 if sending is allowed. Physical layer will feedback to MAC layer for notice of successful access to RRC layer if prefix sent by physical layer has been confirmed by AICH signal channel. L1 layer will notify MAC layer of access failure if prefix sending times of physical layer is equal to the maximum prefix retransmission times but reply of AICH channel has not been received. MAC layer will send reply again for next TTI. MAC layer will start up revolution timer (TBO1) after physical layer receives negative
UMTS Radio Parameter
reply of AICH and notice to MAC layer. It can be sent again after timing. TBO1 can be set to NBO1 times of interval of 10ms ; 0 ≤ NBO1min ≤ NBO1 ≤ NBO1max; NBO1min can be equal equal to NBO1max when expecting expecting a fixed delay. delay. MAC layer will notify RRC RACH of sending failure if re-trial times exceed the maximum preamble cycle times of RACH.
Available Signature 3GPP Name
Available Signature ; Preamble Signatures
3GPP Reference Field Name
TS 25.331: “RRC Protocol Specification” TS 25.433: “UTRAN Iub Interface NBAP Signalling” Signature This parameter indicates all available signatures for PRACH access. The 16 bits represents 16 signatures. If the value of a bit
Description
is 1, it indicates that the corresponding signature is available. One signature number corresponds to one SF=16 channelized coded number.
Description of data item of radio parameter message GUI Element Name
Available signature Bitstring(16) Bit0: sig0
Value Range
.. Bit15: sig15 Bit of 1 refers to available signature.
Default Value
1
Scope
UTRAN Cell
Function
PRACH signatures distinguish between subscribers. To avoid the same sending preamble for multiple subscribers, multiple
Recommended Configuration
available signatures are defined in the protocol. A subscriber can select a random signature before sending. The more signatures you configure, the smaller probability a conflict occurs.
PRACH Available Subchannel Number 3GPP Name 3GPP Reference
Available Subchannel Number; RACH Subchannel Numbers TS 25.331: “RRC Protocol Specification” TS 25.433: “UTRAN Iub Interface NBAP Signaling”
Chapter 3
Random access parameter
3GPP Name
Available Subchannel Number; RACH Subchannel Numbers
Field Name
AvailSubChanNum This parameter indicates available subchannel numbers of the PRACH. The subchannel number defines the available access
Description
timeslot for the PRACH. Each bit indicates whether the subchannel number is available. Each subchannel number can correspond to multiple access timeslots.
Description of data item of radio parameter message GUI Element Name
PRACH available subchannel number Bitstring (12) bit0: subch0
Value Range
.. bit11: subch1 subch11 1 Bit of 1 refers to available subchannel
Default Value
4095
Scope
UTRAN Cell
Function An available subchannel number offers an chance for PRACH
Recommended Configuration
access. More subchannel numbers means more access chances.
PRACH Available SF 3GPP Name
Available SF
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
Field Name
AvailableSF This parameter indicates the minimum available spreading
Description
factor (SF) for the PRACH (namely, the parameter restricts the maximum transmission rate of the PRACH).
Description of data item of radio parameter message GUI Element Name
PRACH available spreading factor
Value Range
(32,64,128,256)
Default Value
64
Scope
UTRAN Cell
Function
-
Recommended Configuration
PRACH 3GPP Name
The PRACH available SF reflects the uploading rate of the PRACH. The larger the rate, the smaller the SF.
Preamble Scrambling Code Preamble scrambling code number; Scrambling Code Number
UMTS Radio Parameter
3GPP Name
Preamble scrambling code number; Scrambling Code Number TS 25.331: “RRC Protocol Specification” Specification”
3GPP Reference
TS 25.433: “UTRAN Iub Interface NBAP Signaling”
Field Name
PreamScraCode This parameter indicates the preamble scrambling code number for the PRACH. The scrambling code number used by the PRACH is
Description
associated with the downlink primary scrambling code, and a maximum of 16 scrambling codes are available. This parameter distinguishes between PRACH physical channels.
Description of data item of radio parameter message GUI Element Name
PRACH preamble scrambling code
Value Range
0..15
Default Value
0 (PRACH shall be increased by 1 if one value is added)
Scope
UTRAN Cell
Function
The PRACH preamble scrambling code number distinguishes between physical physical channels. If multiple PRACH channels are
Recommended Configuration
configured in the cell, you need only to ensure that the scrambling codes are different between PRACH physical channels.
Initial Dynamic Persistence Level 3GPP Name
Dynamic persistence level
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
Field Name
DynPstLevelInit DynPstLevelI nit This parameter indicates the initial value of the dynamic persistence level used for calculating the sending possibility of the MAC layer in the event
Description
of ASCi ≥ 1. each PRACH should be configured with a dynamic persistence level. The dynamic persistence levels of multiple PRACH channels can be broadcasted in SIB 7.
Description of data item of radio parameter message GUI Element Name
Initial dynamic persistence level of PRACH
Value Range
1..8
Default Value
1
Scope
UTRAN Cell
Function
Dynamic persistence level determines the access probability of the MAC
Recommended Configuration
layer. The larger the parameter value, the higher the access probability. If the cell traffic is low, you can set the parameter value to 1 to avoid access
Chapter 3
3GPP Name
Random access parameter
Dynamic persistence persistenc e level delay as best as possible. If the cell traffic is high, you can reduce the dynamic persistence level to prevent interference due to the conflict that occurs during the access process of multiple subscribers. This ensures that the subscribers can access the network at different points of time.
Maximum Allowed UL TX Power of RACH 3GPP Name
Maximum allowed UL TX power
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
Field Name
MaxRACHTxPwr This parameter indicates the maximum uplink transmit power used by
Description
the RACH.
Description of data item of radio parameter message GUI Element Name
Maximum transmitting transmitti ng power of RACH
Value Range
(-50..33) dBm
Default Value
24dBm
Scope
UTRAN Cell
Function
Power Control The configuration is associated with the cell coverage and UE capabilities. In network planning, you should determine the coverage
Recommended Configuration
according to the UE capabilities, and therefore determine the maximum transmit power of the PRACH. A larger value is not sure the best. The parameter value should match the coverage. coverage. Otherwise, large interference occurs.
PRACH Preamble Power Ramp Step 3GPP Name
Power Ramp Step
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
Field Name
PRStep This parameter indicates that the UE needs to ramp up the step on the
Description
basis of the original power after sending one preamble whereas failing to receive any response from the AICH. The UE then uses this power to send next preamble.
Description of data item of radio parameter message GUI Element Name
PRACH preamble power ramp step
Value Range
(1..8)dB step 1dB
Default Value
1dB
Scope
UTRAN Cell
UMTS Radio Parameter
3GPP Name
Power Ramp Step
Function
-
Recommended Configuration
In general, Power Ramp Step affects the speed of random access of the UE. Typically, Use the default settings.
Maximum Number of Preamble Being Transmitted 3GPP Name
Preamble Retrans Max
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
Field Name
MaxPreamRetrans This parameter defines the maximum number of access preambles of
Description
the L1 layer before the layer receives the ACK or NACK response.
Description of data item of radio parameter message GUI Element Name
Maximum number of preamble being transmitted transmitt ed of PRACH
Value Range
1..64
Default Value
40
Scope
UTRAN Cell
Function
-
Recommended Configuration
This parameter indicates the attempts of the physical layer preamble. Typically, you do not need to change the parameter value.
Sets Lower Bound for Random Back-off of MAC Layer 3GPP Name
NB01min
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
Field Name
NB01min This parameter indicates the minimum time limit for resending after NACK is received. When the UE receives the negative response from the AICH, the MAC layer needs to start the timer Tbo1 so that the MAC layer can attempt to resend after a specific time. This avoids
Description
frequent refusal. TBO1 can be set to NBO1 times the interval of 10 ms and randomly changes in a range. Use this expression to determine NBO1: 0 ≤ NBO1min ≤ NBO1 ≤ NBO1max. After TB01 expires, a new RACH attempt starts.
Description of data item of radio parameter message GUI Element Name
Sets lower bound for random back-off of MAC layer
Value Range
0..50
Default Value
3
Chapter 3
3GPP Name
NB01min
Scope
UTRAN Cell
Function
-
Random access parameter
The random backoff lower and upper limits of the MAC layer are the Recommended Configuration
time lengths for waiting for next access after failure to access the physical layer is determined. The greater the NB01min value, the longer the time to wait. Typically, use the default settings.
Sets Upper Bound for Random Back-off of MAC Layer 3GPP Name
NB01max
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
Field Name
NB01max This parameter indicates the maximum time limit for resending after NACK is received. received. When the UE receives the negative response from the AICH, the MAC layer needs to start the timer Tbo1 so that the MAC layer can attempt to
Description
resend after a specific time. This avoids frequent refusal. TBO1 can be set to NBO1 times the interval of 10 ms and randomly changes in a range. Use this expression to determine NBO1: 0 ≤ NBO1min ≤ NBO1 ≤ NBO1max. After TB01 expires, a new RACH attempt starts.
Description of data item of radio parameter message GUI Element Name
Sets upper bound for random back-off of MAC layer
Value Range
0..50
Default Value
40
Scope
UTRAN Cell
Function
The random backoff lower and upper limits of the MAC layer are the time lengths for waiting for next access after failure to access the
Recommended Configuration
physical layer is determined. A greater difference difference between NBO01max and NB01min reduces the probability of next conflict after a subscriber fails to access the network. Typically, use the default settings.
Maximum Number of Preamble Ramping Cycles of RACH 3GPP Name
Preamble Retrans Max
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
Field Name
Mmax
Description Descripti on
This parameter indicates the maximum number of possibilities possibili ties
UMTS Radio Parameter
3GPP Name
Preamble Retrans Max for the MAC layer to attempt to send again. When the physical layer returns NACK or NO ACK, the number of attempts of the MAC layer, namely, M increases by 1. When the value of M exceeds Mmax, the MAC layer exits from the access process.
Description of data item of radio parameter message GUI Element Name
Maximum number of preamble ramping cycles of RACH
Value Range
1..32
Default Value
6
Scope
UTRAN Cell
Function
This parameter indicates the maximum number of access
Recommended Configuration
attempts of the MAC layer. Typically, use the default settings.
AICH Transmitting Power 3GPP Name 3GPP Reference Field Name Description
AICH Power offset; AICH Power TS 25.331: “RRC Protocol Specification” Specification” TS 25.433: “UTRAN Iub Interface NBAP Signaling” AichPwr This parameter indicates the transmit power of the AICH. The value is an offset relative to the primary pilot power.
Description of data item of radio parameter message GUI Element Name
AICH transmitting transmitti ng power
Value Range
(-22..5) dB step 1dB
Default Value
-7dB
Scope
UTRAN Cell
Function
Power Control The AICH transmit power affects the feedback of the random access process. Therefore, it is important to set the power.
Recommended Configuration
However, since the AICH power is relative to the pilot channel, only if the coverage of the pilot channel is guaranteed, the AICH power offset offset can meet meet the requirement requirement with its default default value.
4 UE call call establ establis ishm hment ent parameter parameter Call establishment process shall be executed once UE selecting the cell with interaction. It also shall be executed after staying on the serving cell if subsequent Traffic requests shall be initiated. Call establishment process is shown as follows:
UMTS Radio Parameter
The Chapter is only to introduce parameters which are not relevant to UE call process and Radio Resource Management. Parameters related to radio resource management are introduced in other Chapters. Waiting Time after UE Sending RRC CONNECTION SETUP REQUEST Message (T300)
Chapter 4
3GPP Name
T300
3GPP Reference
TS 25.331
Field Name
T300
UE call establishment establishment parameter parameter
This parameter indicates the wait after the UE sends the "RRC
Description
CONNECTION SETUP REQUEST" message.
Description of data item of radio parameter message GUI Element Name
Waiting time after UE sending RRC CONNECTION SETUP REQUEST messages (T300) OMCR: (100,200,400,600,800,1000,1200,1400,1600,1800,2000,3000,4000,6
Value Range
000,8000) ms RNC:(0..14)
Default Value
2000ms
Scope
RNC
Function
-
Recommended Configuration Configurati on
You should consider at least one loopback delay for this parameter.
Maximum Number of Retransmissions of the RRC CONNECTION REQUEST Message (N300) 3GPP Name
N300
3GPP Reference
TS 25.331
Field Name
N300 This parameter indicates the maximum times for resending the
Description
"RRC CONNECTION SETUP REQUEST" message.
Description of data item of radio parameter message GUI Element Name
Maximum number of retransmission of the RRC CONNECTION SETUP REQUEST message (N300)
Value Range
(0..7)
Default Value
3
Scope
RNC
Function
-
Recommended Configuration
This parameter offers multiple sending chances for the RRC link request. Typically, use the default settings.
Waiting Time for Receiving "In Sync" from L1 in Idle Mode (T312 in Idle Mode) 3GPP Name
T312
3GPP Reference
TS 25.331
UMTS Radio Parameter
3GPP Name
T312
Field Name
T312Idle This parameter indicates T312 in idle mode, that is, the time that
Description
the UE waits for the L1 synchronization indication for starting to establish a dedicated channel.
Description of data item of radio parameter message GUI Element Name
Waiting time for receiving “In Sync” from L1 in idle mode (T312 in Idle Mode)
Value Range
(1..15)s
Default Value
2s
Scope
RNC
Function
The greater the parameter value, the longer time the physical layer
Recommended Configuration
takes for synchronization. Typically, the principle is to reduce the time for the physical layer to establish the link, and therefore to reduce the call success delay.
Maximum Number of "In Sync" Received from L1 in Idle Mode (N312 in Idle Mode) 3GPP Name
N312
3GPP Reference
TS 25.331
Field Name
N312Idle This parameter indicates N312 in idle mode, that is, the number of
Description
consecutive "in sync" indications that the UE receives from L1 before it successfully successfully establishes establishes a dedicated dedicated channel. channel.
Description of data item of radio parameter message GUI Element Name
Maximum number of “In Sync” received from L1 in idle mode Idle Mode) ( N312 in Idle OMCR: (1, 2, 4, 10, 20, 50, 100, 200, 400, 600, 800, 1000)
Value Range
RNC: ( 0..11)
Default Value
10
Scope
RNC
Function
The greater the parameter value, the longer time the physical layer
Recommended Configuration
takes for synchronization. Typically, the principle is to reduce the time for the physical layer to establish the link, and therefore to reduce the call success delay.
Waiting Time for Receiving "In Sync" from L1 in Connected Mode (T312 in
Chapter 4
UE call establishment establishment parameter parameter
Connected Mode) 3GPP Name
T312
3GPP Reference
TS 25.331
Field Name
T312Connected This parameter indicates T312 in connected mode, that is, the time
Description
that the UE waits for the L1 synchronization indication indication for starting to establish a dedicated channel.
Description of data item of radio parameter message GUI Element Name
Waiting time for receiving “In Sync” from L1 in connected mode (T312 in Connected Mode)
Value Range
(1..15)s
Default Value
1s
Scope
RNC
Function
The greater the parameter value, the longer time the physical layer
Recommended Configuration
takes for synchronization. Typically, the principle is to reduce the time for the physical layer to establish the link, and therefore to reduce the call success delay.
Maximum Number of "In Sync" Received from L1 in Connected Mode (N312 in Connected Mode) 3GPP Name
N312
3GPP Reference
TS 25.331
Field Name
N312Connected
Description
Number of “In Sync” received from L1 for N312 in idle mode before successful successful establishment establishment of special special signal channel channel
Description of data item of radio parameter message GUI Element Name
Value Range
Maximum number of “In Sync” received from L1 in connected mode( N312 In Connected Connected Mode Mode ) OMCR: (1, 2, 4, 10, 20, 50, 100, 200, 400, 600, 800, 1000) RNC: (0..11)
Default Value
1
Scope
RNC
Function
The greater the parameter value, the longer time the physical layer
Recommended Configuration
takes for synchronization. Typically, the principle is to reduce the time for the physical layer to establish the link, and therefore to
UMTS Radio Parameter
3GPP Name
N312 reduce the call success delay.
Waiting
Time
after
DPCCH
Established
in
CELL_DCH
State
Losing
Synchronization (T313) 3GPP Name
T313
3GPP Reference
TS 25.331
Field Name
T313 This parameter indicates the time to wait after the DPCCH in
Description
CELL_DCH state loses synchronization.
Description of data item of radio parameter message GUI Element Name
Waiting time after DPCCH established in CELL_DCH state losing synchronization (T313)
Value Range
(0..15) s
Default Value
3s
Scope
RNC
Function
After "out of sync", the message indicating the real failure should
Recommended Configuration
be reported to the upper layer after a specific time. Therefore, the parameter value cannot be too small; otherwise, unnecessary unnecessary link release will result. Typically, use the default settings.
Maximum Number of Successive "Out of Sync" Received from L1 (N313) 3GPP Name
N313
3GPP Reference
TS 25.331
Field Name
N313
Description
This parameter indicates the maximum number of consecutive "out of sync" indications received from L1.
Description of data item of radio parameter message GUI Element Name
Value Range
Maximum number of successive “out of sync” received from L1 (N313) OMCR: (1, 2, 4, 10, 20, 50, 100, 200) RNC: (0..7)
Default Value
50
Scope
RNC
Function
-
Recommended Configuration Configurati on
After the link is established, because the radio environment
Chapter 4
3GPP Name
UE call establishment establishment parameter parameter
N313 becomes bad, the link is out of sync. This parameter parameter sends the indication of this "out of sync" to the upper layer, which was determined by the physical layer in advance. The parameter value cannot be too small; otherwise, calls drop in case that a sudden and short bad change of the environment occurs.
Maximum Number of Successive "In Sync" Received from L1 When T313 is Activated (N315) 3GPP Name
N315
3GPP Reference
TS 25.331
Field Name
N315 This parameter indicates the maximum number of consecutive "in
Description
sync" indications that the UE receives from L1 in T313 active state.
Description of data item of radio parameter message GUI Element Name
Value Range
Maximum number of successive “In Sync” received from L1 when T313 is activated (N315) OMCR: (1, 2, 4, 10, 20, 50, 100, 200, 400, 600, 800, 1000) RNC: (0..11)
Default Value
1
Scope
RNC
Function
The greater the parameter value, the longer time the physical layer
Recommended Configuration
takes for synchronization. Typically, the principle is to reduce the time for the physical layer to establish the link, and therefore to reduce the call success delay.
5 Pagin Paging g parameter parameter PICH signal channels shall be detected when UE is under CELL_PCH/URA_PCH and idle states. PCH channel carried by SCCPCH shall be monitored to gain paging message which is paging type 1.
Calculation formula of paging occasion is shown as follows: Paging Occasion= Occasion= (IMSI div K) mod (DRX cycle cycle length) + n * DRX cycle cycle length In which: K: It refers to several PICHs. n = 0, 1, 2… as long as SFN is below its maximum value. Calculation formula of subscriber’s position in PICH: PI = DRX Index mod Np When: DRX Index = IMSI div 8192 Detailed position in PICH shall be calculated as follows:
⎛
⎢ ⎣
q = ⎜⎜ PI + ⎢((18 × (SFN + ⎣SFN / 8⎦ + ⎣SFN / 64⎦ + ⎣SFN / 512⎦)) mod 144)×
⎝
Mapping of paging indicators Pq to PICH bits: Number of paging indicators per frame (Np) (Np) Np=18
Pq = 1
Pq = 0
{b16q , …, b16q+15} = {1,
{b16q , …, b16q+15} = {0,
Np ⎥ ⎞
⎟ mod Np
144 ⎥⎦ ⎠⎟
UMTS Radio Parameter
Number of paging indicators per frame (Np) (Np)
Np=36
Np=72
Np=144
Pq = 1
Pq = 0
1,…, 1}
0,…, 0}
{b8q , …, b8q+7} = {1, 1,…,
{b8q , …, b8q+7} = {0,
1}
0,…, 0}
{b4q , …, b4q+3} = {1, 1,…,
{b4q , …, b4q+3} = {0,
1}
0,…, 0}
{b2q , b2q+1} = {1, 1}
{b2q , b2q+1} = {0, 0}
UE also can receive paging message which is paging type 2 under CELL_DCH status. DCCH logic channel is adopted so there is no need to calculate paging occasion. CS Domain Discontinuous Reception (DRX) Cycle Length Coefficient 3GPP Name
CN domain specific DRX cycle length coefficient
3GPP Reference
TS 25.331
Field Name
Kcs This parameter is used for DRX receiving of the UE in idle, CELL_PCH connected, and URA_PCH connected states. The parameter is a constant used to calculate paging occasions, or say, required intercepting the period of the PICH. The DRX receiving period is 2k frames. If the UE is in idle state and has performed attaching operations operations in the CS domain and PS domain,
Description
the UE selects the minimum value of CN domain specific DRX cycle length coefficient of both domains as k. otherwise, the UE selects CN domain specific DRX cycle length coefficient of the cross-attaching operation as k. If the UE is in connected state, it selects the minimum value of UTRAN DRX cycle length coefficient and CN domain specific DRX cycle length coefficient of the cross-attaching operation domain as k.
Description of data item of radio parameter message GUI Element Name
CS domain DRX cycle length coefficient
Value Range
6..9
Default Value
6
Scope
RNC
Function
The size of Kcs determines the paging period of the CS domain
Recommended Configuration
services. The greater the parameter value, the longer the paging period. Therefore, subscribers respond to the network slower. CS domain paging has a higher requirement for real time. Therefore,
Chapter 5
3GPP Name
Paging parameter
CN domain specific DRX cycle length coefficient typically, the parameter should use the minimum value specified by the protocol. protocol.
PS Domain DRX Cycle Length Coefficient 3GPP Name
CN domain specific DRX cycle length coefficient
3GPP Reference
TS 25.331
Field Name
Kps This parameter is used for DRX receiving of the UE in idle, CELL_PCH connected, and URA_PCH connected states. The parameter is a constant used to calculate paging occasions, or say, required intercepting the period of the PICH. The DRX receiving period is 2k frames. If the UE is in idle state and has performed attaching operations in the CS domain and PS domain, the UE selects the minimum value
Description
of CN domain specific DRX cycle length coefficient of both domains as k. otherwise, the UE selects CN domain specific DRX cycle length coefficient of the cross-attaching operation as k. If the UE is in connected state, it selects the minimum value of UTRAN DRX cycle length coefficient and CN domain specific DRX cycle length coefficient of the cross-attaching operation domain as k.
Description of data item of radio parameter message GUI Element Name
PS domain DRX cycle length coefficient
Value Range
6..9
Default Value
6
Scope
RNC
Function
The size of Kps determines the paging period of the PS domain services. The greater the parameter value, the longer the paging
Recommended Configuration
period. Therefore, subscribers respond to the network slower. PS domain paging has a lower requirement for real time. This means that you can configure a larger value of Kcs. However, considering subscriber experience, the parameter still uses its minimum value.
UTRAN DRX Cycle Length Coefficient
UMTS Radio Parameter
3GPP Name
UTRAN DRX cycle length coefficient
3GPP Reference
TS 25.331
Field Name
KUtran It is used for DRX under idle status and Cell_PCH or URA_PCH connected state. It can be used to calculate paging occasion which is a constant required for PICH cycle. DRX cycle is 2 k .
Description
UE will regard the minimum value of UTRAN DRX cycle length coefficient and CN domain specific DRX cycle length coefficient as k.
Description of data item of radio parameter message GUI Element Name
UTRAN DRX cycle length coefficient
Value Range
3..9
Default Value
6
Scope
RNC
Function
KUtran is paging cycle in UTRAN side configured for subscribers
Recommended Configuration
without distinguishing PS and CS. A suitable paging cycle shall be mainly defined from the angle of radio resources in radio side.
Number of Paging Indicators per PICH Frame 3GPP Name 3GPP Reference Field Name Description
Number of PI per frame; PICH Mode TS 25.331: “RRC Protocol Specification”; TS 25.433: “UTRAN Iub Interface NBAP Signaling” Np The parameter indicates the number of paging indicators per PICH frame.
Description of data item of radio parameter message GUI Element Name
Number of paging indicators per PICH frame
Value Range
(18, 36, 72, 144)
Default Value
18
Scope
UTRAN Cell
Function
Power Control Np indicates the number of subscribers subscribers of the PICH. The larger Np is, the larger the number of subscribers can be indicated.
Recommended Configuration
However, the actual number of subscribers that the PICH indicates is associated with the subscriber message carried over the PCH. Therefore, the parameter value cannot be too large. A smaller value ensures that the sent data bits can be repetitive and
Chapter 5
3GPP Name
Paging parameter
Number of PI per frame; PICH Mode the power resource can be smaller.
Sending Times of One Paging Message 3GPP Name
-
3GPP Reference
-
Field Name
PagingSendTimes This parameter indicates the maximum times for sending a paging
Description
message.
Description of data item of radio parameter message GUI Element Name
Sending times of one paging message
Value Range
1..6
Default Value
3
Scope
UTRAN Cell
Function
-
Recommended Configuration
This parameter improves the success rate of receiving a paging message by a subscriber. Typically, set the parameter value to 3.
PCH Transmitting Power 3GPP Name
PCH Power
3GPP Reference
TS 25.433: “UTRAN Iub Interface NBAP Signalling” Signallin g”
Field Name
PchPwr This parameter indicates the transmit power of the PCH mapped
Description
to the SCCPCH, which is relative to the power offset of the power of the PCPICH.
Description of data item of radio parameter message GUI Element Name
PCH transmitting transmitti ng power
Value Range
(-35..15) dB step 0.1dB
Default Value
-3dB
Scope
UTRAN Cell
Function
Power Control PCH is carried over the SCCPCH. Typically, this parameter is used when only the PCH is carried over the SCCPCH. Therefore,
Recommended Configuration
when configuring this power, you need to only ensure that PCH can be corrected decoded at the edges of the cell. Typically, use the default settings.
PICH Transmitting Power
UMTS Radio Parameter
3GPP Name 3GPP Reference Field Name Description
PICH Power offset; PICH Power TS 25.331: “RRC Protocol Specification” TS 25.433: “UTRAN Iub Interface NBAP Signaling” PichPwr This parameter indicates the transmit power of the PICH. It is an offset relative to the primary pilot power.
Description of data item of radio parameter message GUI Element Name
PICH transmitting transmitti ng power
Value Range
(-10.. 5) dB step1 dB
Default Value
-7dB
Scope
UTRAN Cell
Function
Power Control PICH power is also relative to the PCPICH power and associated
Recommended Configuration
with Np. Currently, the default value is the power offset in case of Np=18. The The power should should decrease decrease with the increase increase of Np. Np.
6 Pow Powe er cont c ontro roll paramete parameterr UMTS power control includes power control of open loop, internal loop and external loop. Open loop power control is actually used to configure original transmitting power and set the maximum and minimum transmitting power for internal loop power control. Therefore, power control of open and int ernal loops shall be placed together. together.
6.1 6.1 Basic Basic p rincipl e of internal internal loop power contro l Basic process of internal loop power control Receiving end will measure signal to interference ratio (SIR = Eb/No) for every received radio chain circuit then compared with target signal to interference ratio required for Traffic. Return control message to send a transmitted power control-TPC command of which bit value is 0 to sender if SIR>=SIR target target . A TPC command of which bit value is 1 will be returned to sender by Downlinkcontrol channel if SIR
Uplinkinternal loop power control
Uplinkinternal loop power control is used for NodeB to adjust UE transmitting power according to received SIR of DPCCH and target SIR. There are 2 algorithms for uplinkinternal loop power control. The 1st algorithm is internal loop power control for every time slot and the 2nd algorithm is internal loop power control for every 5 ti me slots. Downlinkinternal loop power control Downlinkinternal loop power control is used for UE to adjust NodeB transmitting power according according to received DPCH DPCH SIR and target target SIR. There are 2 modes for Downlinkinternal loop power control.
UMTS Radio Parameter
The 1st mode is internal loop power control for every time slot and the 2nd mode is internal loop power control for every 3 time slots. DPCH PC Preamble Length 3GPP Name 3GPP Reference Field Name
PC preamble; PC Preamble TS 25.331: “RRC Protocol Specification” TS 25.423: "UTRAN Iur interface RNSAP signalling" DpcchPcpLen This parameter indicates the length of the DPCH power control (PC) preamble. For the uplink DPCH channel, the PC preamble
Description
should be sent prior to the data channel, and closed-loop power control has been started the time the PC preamble is sent. This best ensures that the power of the data channel channel meets the requirement.
Description of data item of radio parameter message GUI Element Name
DPCH PC preamble length
Value Range
(0..7) Frames step 1
Default Value
0 Frames
Scope
UTRAN Cell
Function
Power Control
Recommended
DPCH PC Preamble Length has the same purpose of SrbDelay.
Configuration
You need to configure only one of them.
SRB Delay 3GPP Name 3GPP Reference Field Name
SRB delay; SRB Delay TS 25.331: “RRC Protocol Specification” TS 25.423: "UTRAN Iur interface RNSAP signaling" SrbDelay This parameter indicates the number of SRB delay frames.
Description
Upon the time to send the uplink DPDCH data, the signaling data RB0–RB4 in the SRB delay frame is not sent.
Description of data item of radio parameter message GUI Element Name
SRB delay
Value Range
(0..7) Frames step 1
Default Value
7Frames
Scope
UTRAN Cell
Function
Power Control
Chapter 6
Power control parameter
3GPP Name
SRB delay; SRB Delay
Recommended
The recommended configuration is the same as that of
Configuration
DpcchPcpLen.
Uplink Internal Loop Power Control Algorithm 3GPP Name
Power Control Algorithm
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
Field Name
UlIlPcAlg This parameter indicates which inner loop power control
Description
algorithm should be used. For algorithm 1, inner loop power control is carried out per hour. For algorithm 2, inner loop power control control is carried out every five five timeslots.
Description of data item of radio parameter message GUI Element Name Value Range
Uplink Internal Loop Power Control Algorithm 1: The 1st algorithm 2: The 2nd algorithm
Default Value
The 1st algorithm
Scope
UTRAN Cell and Service Related
Function
Power Control
Recommended Configuration
Typically, if the channel is stable, algorithm 1 should be used. If channel fading is serious, and radio quality features large fluctuation, algorithm 2 should be used.
TPC Step Size of UplinkInternal Loop 3GPP Name
TPC step size
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
Field Name
TpcStepSize This parameter indicates the adjustable step size of the uplink inner loop power control. This parameter should be configured
Description
only when algorithm 1 is selected as the uplink inner loop power control algorithm. For algorithm 2, the default step size is 1, and you should use the default value.
Description of data item of radio parameter message GUI Element Name
TPC step size of uplinkinternal loop
Value Range
(1,2) dB
Default Value
1dB
Scope
UTRAN Cell and Service Related
UMTS Radio Parameter
3GPP Name
TPC step size
Function
Power Control When algorithm 1 is selected as the uplink inner loop power control algorithm, TPC step size is adjustable. Typically, the parameter value should allow the UE to trace the change of the
Recommended
channel conditions under worst circumstances and maintain the
Configuration
QoS in time according to the conditions of the UE in the cell, such as speed and fading. In addition, when the channel is stable, the step size should be able to keep the power fluctuation stable. Typically, the default settings can meet the requirement.
DPC Mode of DownlinkInternal Loop 3GPP Name 3GPP Reference Field Name
DPC Mode TS 25.433: “UTRAN Iub Interface NBAP Signalling” TS 25.423: “UTRAN Iur interface RNSAP signalling” DPCMode This parameter indicates which algorithm for downlink inner loop power control should be used. There are two algorithms for
Description
downlink inner loop power control, that is, Single TPC and TPC triplet in soft. No matter which algorithm is used, the UE must be notified.
Description of data item of radio parameter message GUI Element Name Value Range
DPC mode of Downlinkinternal Downlinkinter nal loop 0 : Single time slot mode 1: 3-time-slot mode
Default Value
Single time slot mode
Scope
UTRAN Cell and Service Related
Function
Power Control
Recommended
The recommended configuration is the same as that of
Configuration
UlIlPcAlg.
TPC DL Step Size 3GPP Name 3GPP Reference Field Name
FDD TPC Downlink Step Size; TS 25.433: “UTRAN Iub Interface NBAP Signalling” TS 25.423: “UTRAN Iur interface RNSAP signalling” TpcDlStep This parameter indicates the adjustable step size of the
Description
downlink inner loop power control. Typically, in the event of a good radio environment set the parameter to a large value.
Chapter 6
3GPP Name
Power control parameter
FDD TPC Downlink Step Size;
Description of data item of radio parameter message GUI Element Name
TPC DL Step Size
Value Range
(0.5, 1, 1.5, 2) dB
Default Value
1dB
Scope
UTRAN Cell and Service Related
Function
Power Control
Recommended
The recommended configuration is the same as that of
Configuration
TpcStepSize.
DPCH Maximum DL Power 3GPP Name 3GPP Reference Field Name
Maximum DL Power; Maximum DL TX Power TS 25.433: “UTRAN Iub Interface NBAP Signalling” TS 25.423: "UTRAN Iur interface RNSAP signalling" MaxDlDpchPwr This parameter indicates the maximum downlink transmit power of the DPCH. When the downlink inner loop power control is executed, the new transmit power must be smaller
Description
than or equal to the DPCH maximum downlink transmit power. If the calculated new transmit power is greater than the configured DPCH maximum downlink transmit power, it must be changed as equal to the DPCH maximum downlink transmit power. power.
Description of data item of radio parameter message GUI Element Name
DPCH maximum DL power
Value Range
(-35..15) dB step 0.1 dB
Default Value
Conversational
DL 3.4kbps Signaling(AM): 0 dB
Conversational
DL 13.6kbps Signaling:0dB
Conversational
DL WAMR 6.60~23.85kbps: 0dB
Conversational
DL 64kbps (PS Conversational Video): 3dB
Conversational
DL NAMR 4.75~12.2kbps: 0dB
Conversational
DL CS 28.8kbps: -6dB
Conversational
DL CS 32kbps: -4dB
Conversational
DL CS 64kbps: 3dB
Streaming
DL CS 14.4kbps: -7dB
Streaming
DL CS 28.8kbps: -6dB
Streaming
DL CS 57.6kbps: -4dB
Streaming
DL CS 64kbps: 3dB
Streaming
DL PS 16kbps:-4dB
UMTS Radio Parameter
3GPP Name
Maximum DL Power; Maximum DL TX Power Streaming
DL PS64kbps: 1dB
Streaming
DL PS384kbps: 4dB
Streaming
DL PS128kbps: 2dB
Interactive
DL PS 8kbps:-8dB
Interactive
DL PS 16kbps:-4dB
Interactive
DL PS64kbps: 1dB
Interactive
DL PS384kbps: 4dB
Interactive
DL PS128kbps: 2dB
Background
DL PS 8kbps:-8dB
Background
DL PS 16kbps:-4dB
Background
DL PS64kbps: 1dB
Background
DL PS384kbps: 4dB
Background
DL PS128kbps: 2dB
Streaming
DL CS64kbps: 3dB
Interactive
DL PS 1.2Mbps: 4dB
Interactive
DL PS 3.65Mbps: 4dB
Interactive
DL PS 7.2Mbps: 4dB
Interactive
DL PS 10.1Mbps: 4dB
Interactive
DL PS 14.0Mbps: 4dB
Background
DL PS 1.2Mbps: 4dB
Background
DL PS 3.65Mbps: 4dB
Background
DL PS 7.2Mbps: 4dB
Background
DL PS 10.1Mbps: 4dB
Background
DL PS 14.0Mbps: 4dB
Streaming
DL PS 1.2Mbps: 4dB
Streaming
DL PS 3.65Mbps: 4dB
Streaming
DL PS 7.2Mbps: 4dB
Streaming
DL PS 10.1Mbps: 4dB
Streaming
DL PS 14.0Mbps: 4dB
Interactive
DL PS 17.6Mbps: 4dB
Interactive
DL PS 21.096Mbps: 4dB
Background
DL PS 17.6Mbps: 4dB
Background
DL PS 21.096Mbps: 4dB
Streaming
DL PS 17.6Mbps: 4dB
Streaming
DL PS 21.096Mbps: 4dB
Scope
UTRAN Cell, Service and Diversity Mode Related
Function
Power Control
Recommended Configuration
The parameter configuration restricts a single subscriber on use of the cell power resource. Whether the configuration is correct affects the cell throughput. The configuration principle is that
Chapter 6
3GPP Name
Power control parameter
Maximum DL Power; Maximum DL TX Power the parameter must be configured according to the Ec/No required by the service and processing gain. The configuration should be able to maintain the basic QoS of the service and ensure the performance of the total cell throughput. Typically, the larger the rate, the larger the maximum transmit power.
DPCH Minimum DL Power 3GPP Name 3GPP Reference Field Name
Minimum DL Power TS 25.433: “UTRAN Iub Interface NBAP Signalling” TS 25.423: "UTRAN Iur interface RNSAP signalling" MinDlDpchPwr This parameter indicates the minimum downlink transmit power of the DPCH. When the downlink inner loop power control is executed, the new transmit power must be greater than or equal
Description
to the DPCH maximum downlink transmit power. If the calculated new transmit power is smaller than the configured DPCH maximum downlink transmit power, it must be changed as equal to the DPCH minimum downlink transmit power.
Description of data item of radio parameter message GUI Element Name
DPCH Minimum DL Power
Value Range
(-35..15) dB step 0.1 dB
Default Value
Conversational
DL 3.4kbps Signaling(AM): -13dB
Conversational
DL 13.6kbps Signaling:-13dB Signaling:- 13dB
Conversational
DL WAMR 6.60~23.85kbps: -15dB
Conversational
DL 64kbps (PS Conversational Video) : -10dB
Conversational
DL NAMR 4.75~12.2kbps: -15dB
Conversational
DL CS 28.8kbps: -15dB
Conversational
DL CS 32kbps: -15dB
Conversational
DL CS 64kbps: -10dB
Streaming
DL CS 14.4kbps: -15dB
Streaming
DL CS 28.8kbps: -15dB
Streaming
DL CS 57.6kbps: -15dB
Streaming
DL CS64kbps: -10dB
Streaming
DL PS 16kbps:-15dB
Streaming
DL PS 64kbps: -15dB
Streaming
DL PS 384kbps: -10dB
Streaming
DL PS 128kbps: -15dB
Interactive
DL PS 8kbps:-15dB
Interactive
DL PS 16kbps:-15dB
UMTS Radio Parameter
3GPP Name
Minimum DL Power Interactive
DL PS 64kbps: -15dB
Interactive
DL PS 384kbps: -10dB
Interactive
DL PS 128kbps: -15dB
Background
DL PS 8kbps:-15dB
Background
DL PS 16kbps:-15dB
Background
DL PS 64kbps: -15dB
Background
DL PS 384kbps: -10dB
Background
DL PS 128kbps: -15dB
Interactive
DL PS 1.2Mbps: -10dB
Interactive
DL PS 3.65Mbps: -10dB
Interactive
DL PS 7.2Mbps: -10dB
Interactive
DL PS 10.1Mbps: -10dB
Interactive
DL PS 14.0Mbps: -10dB
Background
DL PS 1.2Mbps: -10dB
Background
DL PS 3.65Mbps: -10dB
Background
DL PS 7.2Mbps: -10dB
Background
DL PS 10.1Mbps: -10dB
Background
DL PS 14.0Mbps: -10dB
Streaming
DL PS 1.2Mbps: -10dB
Streaming
DL PS 3.65Mbps: -10dB
Streaming
DL PS 7.2Mbps: -10dB
Streaming
DL PS 10.1Mbps: -10dB
Streaming
DL PS 14.0Mbps: -10dB
Interactive
DL PS 17.6Mbps: -10dB
Interactive
DL PS 21.096Mbps: -10dB
Background
DL PS 17.6Mbps: -10dB
Background
DL PS 21.096Mbps: -10dB
Streaming
DL PS 17.6Mbps: -10dB
Streaming
DL PS 21.096Mbps: -10dB
Scope
UTRAN Cell, Service and Diversity Mode Related
Function
Power Control The parameter configuration ensures the minimum QoS of a service. Therefore, whether the configuration is correct greatly
Recommended
affects QoS sense of subscribers. The configuration principle is:
Configuration
The minimum power should be able to maintain the basic service QoS according to the Ec/No and processing gain required by the service.
DPCH PO1 in TFCI Domain 3GPP Name
PO1
Chapter 6
3GPP Name 3GPP Reference Field Name Description
Power control parameter
PO1 TS 25.433: “UTRAN Iub Interface NBAP Signalling” TS 25.423: “UTRAN Iur interface RNSAP signalling” DpchPO1 This parameter indicates the power offset between the TFCI field and the data field of the downlink DPCH.
Description of data item of radio parameter message GUI Element Name
DPCH PO1 in TFCI domain
Value Range
(0..6) dB step 0.25 dB
Default Value
Conversational
DL 3.4kbps Signaling(AM) : 0dB
Conversational
DL 13.6kbps Signaling:0dB
Conversational
DL WAMR 6.60k~23.85kbps : 0dB
Conversational
DL 64kbps (PS Conversational Video) : 0dB
Conversational
DL NAMR 4.75k~12.2k: 0dB
Conversational
DL CS 28.8kbps: 0dB
Conversational
DL CS 32kbps: 0dB
Conversational
DL CS 64kbps: 0dB
Streaming
DL CS 14.4kbps: 0dB
Streaming
DL CS 28.8kbps: 0dB
Streaming
DL CS 57.6kbps: 0dB
Streaming
DL CS64kbps: 0dB
Streaming
DL PS 16kbps: 0dB
Streaming
DL PS 64kbps: 0dB
Streaming
DL PS 384kbps: 0dB
Streaming
DL PS128kbps: 0dB
Interactive
DL PS 8kbps: 0dB
Interactive
DL PS 16kbps: 0dB
Interactive
DL PS 64kbps: 0dB
Interactive
DL PS 384kbps: 0dB
Interactive
DL PS128kbps: 0dB
Background
DL PS 8kbps: 0dB
Background
DL PS 16kbps: 0dB
Background
DL PS64kbps: 0dB
Background
DL PS 384kbps: 0dB
Background
DL PS 128kbps: 0dB
Interactive
DL PS 1.2Mbps: 0dB
Interactive
DL PS 3.65Mbps: 0dB
Interactive
DL PS 7.2Mbps: 0dB
Interactive
DL PS 10.1Mbps: 0dB
Interactive
DL PS 14.0Mbps: 0dB
UMTS Radio Parameter
3GPP Name
PO1 Background
DL PS 1.2Mbps: 0dB
Background
DL PS 3.65Mbps: 0dB
Background
DL PS 7.2Mbps: 0dB
Background
DL PS 10.1Mbps: 0dB
Background
DL PS 14.0Mbps: 0dB
Streaming
DL PS 1.2Mbps: 0dB
Streaming
DL PS 3.65Mbps: 0dB
Streaming
DL PS 7.2Mbps: 0dB
Streaming
DL PS 10.1Mbps: 0dB
Streaming
DL PS 14.0Mbps: 0dB
Interactive
DL PS 17.6Mbps: 0dB
Interactive
DL PS 21.096Mbps: 0dB
Background
DL PS 17.6Mbps: 0dB
Background
DL PS 21.096Mbps: 0dB
Streaming
DL PS 17.6Mbps: 0dB
Streaming
DL PS 21.096Mbps: 0dB
Scope
UTRAN Cell, Service and Diversity Mode Related
Function
Power Control The offset of the TFCI field is relative to the data typically, to
Recommended
guarantee the correctness of the control field, the larger the data
Configuration
field rate, the larger its power, and the small of the difference of the DPCH control field.
DPCH PO2 in TPC Domain 3GPP Name 3GPP Reference Field Name Description
PO2 TS 25.433: “UTRAN Iub Interface NBAP Signalling” TS 25.423: “UTRAN Iur interface RNSAP signalling” DpchPO2 This parameter indicates the power offset between the TPC field and the data field of the DPCH.
Description of data item of radio parameter message GUI Element Name
DPCH PO2 in TPC domain
Value Range
(0..6) dB step 0.25 dB
Default Value
Conversational
DL 3.4kbps Signaling(AM): 3dB
Conversational
DL 13.6kbps Signaling:3dB
Conversational
DL WAMR 6.60~23.85kbps : 3dB
Conversational
DL 64kbps (PS Conversational Conversationa l Video) 3dB:
Conversational
DL NAMR 4.75~12.2kbps: 3dB
Conversational
DL CS 28.8kbps: 3dB
Chapter 6
3GPP Name
PO2 Conversational
DL CS 32kbps: 3dB
Conversational
DL CS 64kbps: 3dB
Streaming
DL CS 14.4kbps: 3dB
Streaming
DL CS 28.8kbps: 3dB
Streaming
DL CS 57.6kbps: 3dB
Streaming
DL CS64kbps: 3dB
Streaming
DL PS 16kbps:3dB
Streaming
DL PS 64kbps: 3dB
Streaming
DL PS 384kbps: 0dB
Streaming
DL PS 128kbps: 2dB
Interactive
DL PS 8kbps:3dB
Interactive
DL PS 16kbps:3dB
Interactive
DL PS 64kbps: 3dB
Interactive
DL PS 384kbps: 0dB
Interactive
DL PS 128kbps: 2dB
Background
DL PS 8kbps:3dB
Background
DL PS 16kbps:3dB
Background
DL PS 64kbps: 3dB
Background
DL PS 384kbps: 0dB
Background
DL PS 128kbps: 2dB
Interactive
DL PS 1.2Mbps: 0dB
Interactive
DL PS 3.65Mbps: 0dB
Interactive
DL PS 7.2Mbps: 0dB
Interactive
DL PS 10.1Mbps: 0dB
Interactive
DL PS 14.0Mbps: 0dB
Background
DL PS 1.2Mbps: 0dB
Background
DL PS 3.65Mbps: 0dB
Background
DL PS 7.2Mbps: 0dB
Background
DL PS 10.1Mbps: 0dB
Background
DL PS 14.0Mbps: 0dB
Streaming
DL PS 1.2Mbps: 0dB
Streaming
DL PS 3.65Mbps: 0dB
Streaming
DL PS 7.2Mbps: 0dB
Streaming
DL PS 10.1Mbps: 0dB
Streaming
DL PS 14.0Mbps: 0dB
Interactive
DL PS 17.6Mbps: 0dB
Interactive
DL PS 21.096Mbps: 0dB
Background
DL PS 17.6Mbps: 0dB
Background
DL PS 21.096Mbps: 0dB
Streaming
DL PS 17.6Mbps: 0dB
Power control parameter
UMTS Radio Parameter
3GPP Name
PO2 Streaming
DL PS 21.096Mbps: 0dB
Scope
UTRAN Cell, Service and Diversity Mode Related
Function
Power Control
Recommended
The
Configuration
ofDpchPO1.
recommended
configuration
is
the
same
as
that
DPCH PO3 in PILOT Domain 3GPP Name 3GPP Reference Field Name Description
PO3 TS 25.433: “UTRAN Iub Interface NBAP Signalling” TS 25.423: “UTRAN Iur interface RNSAP signalling” DpchPO3 This parameter indicates the power offset between the PILOT field and the data field of the downlink DPCH.
Description of data item of radio parameter message GUI Element Name Value Range
Default Value
DPCH PO3 in PILOT domain (0..6) dB step 0.25 dB Conversational
DL 3.4kbps Signaling(AM): 0dB
Conversational
DL 13.6kbps Signaling: 0dB
Conversational
DL WAMR 6.60~23.85kbps: 0dB
Conversational
DL 64kbps (PS Conversational Video): 0dB
Conversational
DL NAMR 4.75~12.2kbps: 0dB
Conversational
DL CS 28.8kbps: 0dB
Conversational
DL CS 32kbps: 0dB
Conversational
DL CS 64kbps: 0dB
Streaming
DL CS 14.4kbps: 0dB
Streaming
DL CS 28.8kbps: 0dB
Streaming
DL CS 57.6kbps: 0dB
Streaming
DL CS64kbps: 0dB
Streaming
DL PS 16kbps: 0dB
Streaming
DL PS 64kbps: 0dB
Streaming
DL PS 384kbps: 0dB
Streaming
DL PS 128kbps: 0dB
Interactive
DL PS 8kbps: 0dB
Interactive
DL PS 16kbps: 0dB
Interactive
DL PS 64kbps: 0dB
Interactive
DL PS 384kbps: 0dB
Interactive
DL PS 128kbps: 0dB
Background
DL PS 8kbps: 0dB
Chapter 6
3GPP Name
Power control parameter
PO3 Background
DL PS 16kbps: 0dB
Background
DL PS 64kbps: 0dB
Background
DL PS 384kbps: 0dB
Background
DL PS 128kbps: 0dB
Interactive
DL PS 1.2Mbps: 0dB
Interactive
DL PS 3.65Mbps: 0dB
Interactive
DL PS 7.2Mbps: 0dB
Interactive
DL PS 10.1Mbps: 0dB
Interactive
DL PS 14.0Mbps: 0dB
Background
DL PS 1.2Mbps: 0dB
Background
DL PS 3.65Mbps: 0dB
Background
DL PS 7.2Mbps: 0dB
Background
DL PS 10.1Mbps: 0dB
Background
DL PS 14.0Mbps: 0dB
Streaming
DL PS 1.2Mbps: 0dB
Streaming
DL PS 3.65Mbps: 0dB
Streaming
DL PS 7.2Mbps: 0dB
Streaming
DL PS 10.1Mbps: 0dB
Streaming
DL PS 14.0Mbps: 0dB
Interactive
DL PS 17.6Mbps: 0dB
Interactive
DL PS 21.096Mbps: 0dB
Background
DL PS 17.6Mbps: 0dB
Background
DL PS 21.096Mbps: 0dB
Streaming
DL PS 17.6Mbps: 0dB
Streaming
DL PS 21.096Mbps: 0dB
Scope
UTRAN Cell, Service and Diversity Mode Related
Function
Power Control
Recommended
The recommended configuration is the same as that of
Configuration
DpchPO1.
Maximum Allowed Uplink DPCH Transmission Power 3GPP Name
3GPP Reference Field Name
Maximum allowed UL TX power; Maximum Allowed UL Tx Power TS 25.331: “RRC Protocol Specification” TS 25.423: "UTRAN Iur interface RNSAP signaling" MaxUlDpchPwr This parameter indicates the maximum transmit power of the
Description
uplink DPCH of the UE. When the uplink inner loop power control is executed, the new transmit power calculated by the
UMTS Radio Parameter
3GPP Name
Maximum allowed UL TX power; Maximum Allowed UL Tx Power UE may exceed the parameter value. In this case, the UE must follow the configured uplink DPCH maximum transmit power.
Description of data item of radio parameter message GUI Element Name
Maximum Allowed Uplink DPCH Transmission Power
Value Range
(-50..33) dBm step 1
Default Value
33dBm
Scope
UTRAN Cell, Service and Diversity Mode Related
Function
Power Control
Recommended Configuration
-
6.2 6.2 Basic Basic principl e of external external loop power contr ol Internal loop power control is to control SIR of single chain circuit to be close to SIR Target. As an auxiliary method, basic principle of external loop power control is that receiver will adjust SIR Target slowly according to actual data receiving quality to guarantee no influence to Traffic quality due to variation of radio environment and maintain relatively constant communication quality. External loop power control process is shown as follows:
Overall process of closed loop power control:
Chapter 6
RN C
SIRtarget SIRtarget Externall Externalloop oop powercontrol:Adjust SIRtargetaccordingto transmissionchannel quality.
Receive transmission channel messages
NodeB
MeasureSIR accordingto received DPCCH
Power control parameter
Determineand feedbackTPC commandaccording toSIRofreceived DPCCH
Compare withSIR andSIR target
UE
Determineandadjust transmittingpower
Receive TPC
Uplink Initial SIR Target 3GPP Name 3GPP Reference Field Name
UL SIR Target TS 25.433: “UTRAN Iub Interface NBAP Signalling” TS 25.423: “UTRAN Iur interface RNSAP signalling” ULInitSIR This parameter indicates the initial value of the target signal-to-interference ratio (SIR) of the uplink physical channel.
Description
The target SIR is the standard for uplink inner loop power control. This parameter affects the convergence speed of power control.
Description of data item of radio parameter message GUI
Element
Name Value Range
Default Value
Uplink initial SIR target (-8.2..17.3) (-8.2.. 17.3) dB step 0.1 dB Conversational
UL 3.4kbps Signaling(AM): Signaling(AM) : 5.0dB
Conversational Conversationa l
UL 13.6kbps Signaling:5dB
Conversational
UL AMR 6.60~23.85kbps: 4dB
Conversational
UL 64kbps (PS Conversational Video): 6dB
Conversational
UL NAMR4.75~12.2kbps: 4dB
Conversational
UL CS 28.8kbps: 6.0dB
Conversational
UL CS 32kbps: 6.0dB
Conversational
UL CS 64kbps: 6.0dB
Streaming
UL CS 14.4kbps: 4dB
Streaming
UL CS 28.8kbps: 6.0dB
UMTS Radio Parameter
3GPP Name
UL SIR Target Streaming
UL CS 57.6kbps: 6.0dB
Streaming
UL CS 64kbps: 6.0dB
Streaming
UL PS 16kbps:4dB
Streaming
UL PS 64kbps: 6dB
Streaming
UL PS 384kbps: 6dB
Streaming
UL PS128kbps: 6dB
Interactive
UL PS 8kbps:4dB
Interactive
UL PS 16kbps:4dB
Interactive
UL PS 64kbps: 6dB
Interactive
UL PS 384kbps: 6dB
Interactive
UL PS128kbps: 6dB
Background
UL PS 8kbps:4dB
Background
UL PS 16kbps:4dB
Background
UL PS 64kbps: 6dB
Background
UL PS 384kbps: 6dB
Background
UL PS128kbps: 6dB
Streaming
UL CS64kbps: 6dB
Interactive
UL PS 1024kbps: 6dB
Interactive
UL PS 2.048Mbps: 6dB
Interactive
UL PS 3. 072Mbps: 6dB
Interactive
UL PS 4.096Mbps: 6dB
Interactive
UL PS 5.76Mbps: 6dB
Background
UL PS 1024kbps: 6dB
Background
UL PS 2.048Mbps: 6dB
Background
UL PS 3. 072Mbps: 6dB
Background
UL PS 4.096Mbps: 6dB
Background
UL PS 5.76Mbps: 6dB
Streaming
UL PS 1024kbps: 6dB
Streaming
UL PS 2.048Mbps: 6dB
Streaming
UL PS 3. 072Mbps: 6dB
Streaming
UL PS 4.096Mbps: 6dB
Streaming
UL PS 5.76Mbps: 6dB
Scope
UTRAN Cell, Service and Diversity Mode Related
Function
Power Control
Recommended Configuration
This parameter is associated with the service rate. Typically, the smaller the rate, the smaller the parameter value; the greater the rate, the greater the parameter value.
Maximum Uplink SIR Target 3GPP Name
Maximum Uplink SIR
Chapter 6
3GPP Name
Maximum Uplink SIR
3GPP Reference
TS 25.423: "UTRAN Iur interface RNSAP signalling"
Field Name
ULMaxSIR
Power control parameter
This parameter indicates the maximum target SIR of the uplink Description
link. This value restricts the adjustable range of the target SIR of outer loop power control.
Description of data item of radio parameter message GUI
Element
Name Value Range
Default Value
Maximum uplink SIR target (-8.2..17.3) (-8.2.. 17.3) dB step 0.1 dB Conversational
UL 3.4kbps Signaling(AM): 15dB
Conversational Conversationa l
UL 13.6kbps Signaling:15dB
Conversational
UL AMR 6.60~23.85kbps: 15dB
Conversational
UL 64kbps (PS Conversational Video): 15dB
Conversational
UL NAMR 4.75~12.2kbps: 15dB
Conversational
UL CS 28.8kbps: 15dB
Conversational
UL CS 32kbps: 15dB
Conversational
UL CS 64kbps: 15dB
Streaming
UL CS 14.4kbps: 15dB
Streaming
UL CS 28.8kbps: 15dB
Streaming
UL CS 57.6kbps: 15dB
Streaming
UL CS 64kbps: 15dB
Streaming
UL PS 16kbps:15dB
Streaming
UL PS 64kbps: 15dB
Streaming
UL PS 384kbps: 15dB
Streaming
UL PS 128kbps: 15dB
Interactive Interacti ve
UL PS 8kbps:15dB
Interactive Interacti ve
UL PS 16kbps:15dB
Interactive Interacti ve
UL PS 64kbps: 15dB
Interactive Interacti ve
UL PS 384kbps: 15dB
Interactive Interacti ve
UL PS 128kbps: 15dB
Background
UL PS 8kbps:15dB
Background
UL PS 16kbps:15dB
Background
UL PS 64kbps: 15dB
Background
UL PS 384kbps: 15dB
Background
UL PS 128kbps: 15dB
Interactive Interacti ve
UL PS 1024kbps: 15dB
Interactive Interacti ve
UL PS 2.048Mbps: 15dB
Interactive Interacti ve
UL PS 3. 072Mbps: 15dB
Interactive Interacti ve
UL PS 4.096Mbps: 15dB
UMTS Radio Parameter
3GPP Name
Maximum Uplink SIR Interactive
UL PS 5.76Mbps: 17.3dB
Background
UL PS 1024kbps: 15dB
Background
UL PS 2.048Mbps: 15dB
Background
UL PS 3. 072Mbps: 15dB
Background
UL PS 4.096Mbps: 15dB
Background
UL PS 5.76Mbps: 17.3dB
Streaming
UL PS 1024kbps: 15dB
Streaming
UL PS 2.048Mbps: 15dB
Streaming
UL PS 3. 072Mbps: 15dB
Streaming
UL PS 4.096Mbps: 15dB
Streaming
UL PS 5.76Mbps: 17.3dB
Scope
UTRAN Cell, Service and Diversity Mode Related
Function
Power Control
Recommended
This parameter is associated with the service rate. Typically, the
Configuration
greater the rate, the greater the parameter value.
Minimum Uplink SIR Target 3GPP Name
Minimum Uplink SIR
3GPP Reference
TS 25.423: "UTRAN Iur interface RNSAP signalling"
Field Name
ULMinSIR This parameter indicates the minimum value of the target SIR of
Description
the uplink link. This parameter restricts the adjustable range of the target SIR of outer loop power control.
Description of data item of radio parameter message GUI
Element
Name Value Range
Default Value
Minimum Uplink SIR Target (-8.2..17.3) (-8.2.. 17.3) dB step 0.1 dB Conversational
UL 3.4kbps Signaling(AM): Signaling(AM) : 2.0dB
Conversational
UL 13.6kbps Signaling:2.0dB Signaling:2. 0dB
Conversational
UL AMR 6.60~23.85kbps: 0.5dB
Conversational
UL 64kbps(PS Conversational Video):
Conversational
UL NAMR 4.75~12.2kbps: 0.5dB
Conversational
UL CS 28.8kbps: 2.0dB
Conversational
UL CS 32kbps: 2.0dB
Conversational
UL CS 64kbps: 2.0dB
Streaming
UL CS 14.4kbps: 0.5dB
Streaming
UL CS 28.8kbps: 2.0dB
Streaming
UL CS 57.6kbps: 2.0dB
Streaming
UL CS 64kbps: 2.0dB
2.0dB
Chapter 6
3GPP Name
Power control parameter
Minimum Uplink SIR Streaming
UL PS 16kbps:0dB
Streaming
UL PS 64kbps: 2.0dB
Streaming
UL PS 384kbps: 2dB
Streaming
UL PS 128kbps: 2dB
Interactive Interacti ve
UL PS 8kbps:0dB
Interactive Interacti ve
UL PS 16kbps:0dB
Interactive Interacti ve
UL PS 64kbps: 2.0dB
Interactive Interacti ve
UL PS 384kbps: 2dB
Interactive Interacti ve
UL PS 128kbps: 2dB
Background
UL PS 8kbps:0dB
Background
UL PS 16kbps:0dB
Background
UL PS 64kbps: 2.0dB
Background
UL PS 384kbps: 2dB
Background
UL PS 128kbps: 2dB
Interactive Interacti ve
UL PS 1024kbps: 4.0dB
Interactive Interacti ve
UL PS 2.048Mbps: 4.0dB
Interactive Interacti ve
UL PS 3. 072Mbps: 4.0dB
Interactive Interacti ve
UL PS 4.096Mbps: 4.0dB
Interactive Interacti ve
UL PS 5.76Mbps: 4.0dB
Background
UL PS 1024kbps: 4.0dB
Background
UL PS 2.048Mbps: 4.0dB
Background
UL PS 3. 072Mbps: 4.0dB
Background
UL PS 4.096Mbps: 4.0dB
Background
UL PS 5.76Mbps: 4.0dB
Streaming
UL PS 1024kbps: 4.0dB
Streaming
UL PS 2.048Mbps: 4.0dB
Streaming
UL PS 3. 072Mbps: 4.0dB
Streaming
UL PS 4.096Mbps: 4.0dB
Streaming
UL PS 5.76Mbps: 4.0dB
Scope
UTRAN Cell, Service and Diversity Mode Related
Function
Power Control
Recommended
This parameter is associated with the service rate. Typically, the
Configuration
greater the rate, the greater the parameter value.
Uplink SIR Target Up Step Size S ize 3GPP Name
-
3GPP Reference
-
Field Name
UlSirTargUpStep
Description Descripti on
This parameter indicates the upward adjustable step size of the
UMTS Radio Parameter
3GPP Name
target SIR of uplink outer loop power control. Asymmetric mode is taken to set the upward and downward adjustable steps so as to recover the communication quality as soon as possible in the event that the environment becomes worse and slowly reduce the communication quality (more reliable) in the event that the environment becomes better.
Description of data item of radio parameter message GUI Element Name
Uplink SIR Target Up Step Size
Value Range
(0.1..0.5) (0.1..0. 5) dB step 0.1dB
Default Value
UL 384K (PS): 0.5dB Other: 0.3dB
Scope
UTRAN Cell and Service Related
Function
Power Control The parameter should be set in view of the environment of the cell where the UE resides in, such as speed and fading. This makes the UE trace the change of the channel condition even in the worst circumstances. In addition, when the channel is stable, the system can maintain stable fluctuation of the power. Often,
Recommended
the worse the channel condition, the greater the parameter
Configuration
value. Typically, you should use the default value. The outer loop power control should follow the principle of quick increase and slow decrease. Quick increase is to ensure that the system can quickly keep up with the change of the environment. Slow decrease avoids call drop or bad subscriber experience due to the quick decrease of the target SIR.
Uplink SIR Target Down Step Size Si ze 3GPP Name
-
3GPP Reference
-
Field Name
UlSirTargDnStep This parameter indicates the downward adjustable step size of the target SIR of uplink outer loop power control. Asymmetric mode is taken to set the upward and downward adjustable steps
Description
so as to recover the communication quality as soon as possible in the event that the environment becomes worse and slowly reduce the communication quality (more reliable) in the event that the environment becomes better.
Description of data item of radio parameter message
Chapter 6
Power control parameter
3GPP Name
-
GUI Element Name
Uplink SIR Target Down Step Size
Value Range
(0.1..0.5) (0.1..0. 5) dB step 0.1dB
Default Value
0.1dB
Scope
UTRAN Cell and Service Related
Function
Power Control
Recommended
The recommended configuration is the same as that of
Configuration
UlSirTargUpStep.
7 Contr on trol ol paramete parameterr swi tch tc h The switch control includes the switch of synchronization frequency, frequencies and systems, which is introduced as below.
7.1 Basic principle of intra-frequency switch Intra-frequency switch refers to the switch of UE in the cell of UTRAN synchronization frequency point with the continuity of Traffic ensured. The inter-frequency switch is based on the switch of measurement. The inter-frequency measurement includes active set measurement, monitoring set measurement and detective set measurement. The active set refers to the cell collection keeping radio link connection with UE. The monitoring set refers to the cell collection, which keeps no radio link connection with UE, sending message to UE for measurement through the measurement control of synchronization frequency. The detective set refers to the cell collection with synchronization frequency excluding the cell in the active set and detective set. The principle of inter-frequency is beased on the related actions of event execution through measurement. The detail definition and handling process of event is as follows: 1.
Event 1A
Event 1A means that the quality of certain cell outside the active set gets better. The related target cell can be added into the active set when receiving 1A event to improve the gain of more macro diversities. UE will report 1A to RNC when the cell enters into the reporting range of the following formula.
⎛ N
10 ⋅ LogM New + CIO New ≥ W ⋅ 10 ⋅ Log ⎜⎜
A
∑M
⎝ i=1
i
⎞ ⎟⎟ + (1 − W) ⋅ 10 ⋅ LogM Best − (R 1a − H 1a /2) ⎠
In which: the definition for each parameter is as follows: The reporting range of R1a 1A event is used for controlling the difficulty level of cell’s RptRange). being added into active active set ( RptRange
UMTS Radio Parameter
The report lag of H of H 1a cell’s being 1a 1A event is used for controlling the difficulty level of cell’s added into active set ( Hysteresis (Intra)). M New is the measurement of cell outside the active set to be evaluated. CIO New is the offset of cell outside the active set compared to other cell (CellIndivOffset (utranRelation). (utranRelation). M i is the mean value of other cell excluding the best cell in the active set. N A is the number of other cell excluding the best cell in the active set. M Best is the measurement of the best cell for the active set. W is used for the weighting proportion (W ) of the best cell and other cell in the active set for the evaluation criterion.
From the formula it can be seen that enlarging R1a (1A event meets the reporting range of event quality standard) or decreasing H1a (lag range for judgement) can increase the probability of 1A event. On the contrary, contrary, the probability of 1A event can be decreased. decreased. 1A event supports the periodical report. In other words, the 1A event will be reported periodically (PrdRptInterval) until the event doesn’t meet the report condition or the reporting time reaches the allowable maximum value ( PrdRptAmount ) when UE detects the reporting range meeting quality standard of 1A event.
Chapter 7
Control parameter switch
1A event won’t be reported when the number of cell in the active set reaches certain RptDeactThr ) due to the limitation of number of active set. threshold ( RptDeactThr
2.
Event 1B
Event 1B means that the quality of certain cell in the active set is bad with the related cell deleted from active set when receiving 1B event. UE will report 1B to RNC when the cell enters into the reporting range of the following formula.
⎛ N
10 ⋅ LogM Old + CIO Old ≤ W ⋅ 10 ⋅ Log ⎜⎜
A
∑M
⎝ i =1
i
⎞ ⎟⎟ + (1 − W) ⋅10 ⋅ LogM Best − (R 1b + H 1b /2) ⎠
In which: The reporting range of R1b 1B event is used for controlling the difficulty level of cell’s RptRange). being deleted from active set ( RptRange
The report lag of H of H 1b 1b 1B event is used for controlling the difficulty level of cell’s being deleted from active set ( Hysteresis (Intra)). M Old Old is the measurement of cell outside the active set to be evaluated. CIOOld is the offset of cell outside the active set compared to other cell ( CellIndivOffset (utranCell). M i is the mean value of other cell excluding the best cell in the active set. N A is the number of other cell excluding the best cell in the active set. M Best is the measurement of the best cell for the active set. W is used for the weighting proportion (W ) of the best cell and other cell in the active set for the evaluation criterion.
UMTS Radio Parameter
3.
Event 1C
Event 1C means that the quality of certain cell outside the active set is better than the quality of certain cell inside the active set. The related cell outside the active set can be used to replace the cell inside the active set when receiving 1C event to get better macro diversity. diversity. UE will report 1C to RNC when the cell meets the formula below.
10 ⋅ LogM New + CIO New ≥ 10 ⋅ LogM InAS + CIO InAS + H1c /2 In which: The report lag of H of H 1c cell’s being 1c 1C event is used for controlling the difficulty level of cell’s replaced from active set ( Hysteresis (Intra)). M New is the measurement of cell outside the active set to be evaluated. M InAS is the cell with the worst quality in the active set. CIO New is the offset of worst cell inside the active set compared to other cell (CellIndivOffset (utranCell). (utranCell). CIO InAS is the offset of the cell outside the active set to be evaluated compared to other cell (CellIndivOffset (utranRelation)). (utranRelation)).
Chapter 7
4.
Control parameter switch
Event 1D
Event 1D means that the quality of certain cell inside the active set or outside the active set is better than the quality of the best cell in the current active set. In other words, the best cell of inter-frequency inter-frequency has changed. The soft adding (the reported 1D event of the cell outside active set and the number of link inside the active don’t reach maximum value) and soft replacement (the reported 1D event of the cell outside active set and the number of link inside the active reach maximum value) or the change of serving cell (focusing on HS-DSCH/E-DCH channel) can be triggered when receiving 1D event. UE will report 1D to RNC when the cell meets the formula below. below.
10 ⋅ LogM NotBest + CIO NotBest ≥ 10 ⋅ LogMBest + CIO Best + H1d /2 In which: M NotBest is the measurement of cell inside or outside the active set to be evaluated. CIO NotBest is the offset of cell inside the active set to be evaluated compared to other cell (CellIndivOffset (utranCell) or the offset of cell outside the active set to be evaluated compared to other cell ( CellIndivOffset (utranRelation)). (utranRelation)). CIO Bes is the offset of cell inside the active set to be evaluated compared to other cell (CellIndivOffset (utranCell). (utranCell). M Best is the measurement of cell inside the active set to be evaluated.
UMTS Radio Parameter
H1d is the report lag l ag of 1d event (Hysteresis (Intra)).
From the formula it can be seen that enlarging R1d (lag range for judgement) can decrease the probability of 1D event. On the contrary, the probability of 1D event can be increased. Reporting Range Constant for Event 1A/1B 3GPP Name
Reporting Range Constant
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
Field Name
RptRange [MAX_INTRA_MEAS_EVENT [MAX_INTRA_MEAS_EVENT]] This parameter controls the triggering of 1a/1b event. The larger the parameter is, the easily 1a event triggers with the 1b event difficult to be triggered. On the contrary, 1a event is difficult to
Description
be triggered with 1b event easily triggering when the value decreases. MAX_INTRA_MEAS_EVENT
represents
the
maximum
number of the intra-frequency measure events. The value is 7. Description of data item of radio parameter message GUI Element Name Value Range
Reporting range of meeting event quality standard for 1a or 1b event (0..14.5)dB (0..14.5) dB step 0.5dB Periodic report parameter for the Ec/No measure: UE event report parameter for the Ec/No measure: [3, 5, 0, 0, 0, 0, 0]
Default Value
Periodic report parameter for the RSCP measure: UE event report parameter for the RSCP
measure: [6, 8, 8, 0, 0,
0, 0, 0] Detection set parameter for the CPICH Ec/No measure: [4] Detection set parameter for the CPICH RSCP measure: [7] Scope
UTRAN Cell and Service Related
Function
Handover Control (Inter-frequency (Inter-frequency Handover) This parameter is determined mainly according to the principle of the macro diversity "increase easily, decrease difficultly". In case that the new is not very poor, it is added to the macro
Recommended Configuration
diversity. However, if it is poor, it is removed out of the macro diversity. According to this principle, it is easy to reach the state of maximum macro diversity. This is the same as reaching the maximum macro diversity gain. In this case, bad links can be removed out of the macro diversity through the processing of event 1c. For event 1a, the greater the parameter value is, the
Chapter 7
3GPP Name
Control parameter switch
Reporting Range Constant lower the determination threshold of the event 1a is, and the easier event 1a is triggered. For event 1b, the greater the parameter value is, the higher the determination determination threshold of event 1b is, the harder event 1b is triggered. The smaller the parameter value is, the harder event 1a is triggered, and the easier event 1b is triggered.
Weight for Event 1A/1B 3GPP Name
W
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
Field Name
W [MAX_INTRA_MEAS_EV [MAX_INTRA_MEAS_EVENT] ENT] This parameter determines the quality of event 1a/1b and indicates the weight in quality determination of a a cell with
Description
best signal quality. quality. The parameter is associated with the measure and event type. MAX_INTRA_MEAS_EVENT
represents
the
maximum
number of the intra-frequency measure events. The value is 7. Description of data item of radio parameter message GUI Element Name
Weight for Event 1A/1B
Value Range
(0.0..2.0) (0.0..2. 0) step 0.1 Periodic report parameter for the Ec/No measure: UE event report parameter for the Ec/No measure: [0.0 0.0 0.0 0.0 0.0 0.0 0.0]
Default Value
Periodic report parameter for the RSCP measure: UE event report parameter for the RSCP
measure: [0.0 0.0 0.0
0.0 0.0 0.0 0.0] Detection set parameter for the CPICH Ec/No measure: [0.0] Detection set parameter for the CPICH RSCP measure: [0.0] Scope
UTRAN Cell and Service Related
Function
Handover Control (Inter-frequency Handover)
Recommended Configuration
This parameter indicates the weight of the cell with best signal quality. Typically, the configuration is based on the cell with best signal quality quality..
Hysteresis 3GPP Name
Hysteresis
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
Field Name
Hysteresis[MAX_INTRA_MEAS_EVENT] Hysteresis[MAX_I NTRA_MEAS_EVENT]
UMTS Radio Parameter
3GPP Name
Hysteresis This parameter indicates whether the determination event satisfies the hysteresis of event triggering condition. It makes a difference between the triggered state and the trigger released state of an event. This parameter helps avoid the trigger state change in case of a small change.
Description
The greater the parameter value, the greater the threshold difference between the triggered state and the trigger released state of an event. This parameter is associated with the measure and event type. MAX_INTRA_MEAS_EVENT
represents
the
maximum
number of the intra-frequency measure events. The value is 7. Description of data item of radio parameter message GUI Element Name
Hysteresis
Value Range
(0..7.5) dB step 0.5dB Periodic report parameter for the Ec/No measure: UE event report parameter for the Ec/No measure: [0, 0, 4, 4, 2, 2, 4]
Default Value
Periodic report parameter for the RSCP measure: UE event report parameter for the RSCP
measure: [4, 4, 4, 6, 6,
4, 4, 6] Detection set parameter for the CPICH Ec/No measure: [2] Detection set parameter for the CPICH RSCP measure: [6] Scope
UTRAN Cell and Service Related
Function
Handover Control (Inter-frequency (Inter-frequency Handover) This parameter indicates the switching Determination hysteresis for event 1a/1b/1c, and act on the determination of triggering of event 1a/1b/1c. When you determine this parameter, you should ensure that a small change of the signal will not trigger event reporting of event 1a/1b and ensure timely triggering of event
Recommended Configuration
1c/1d. The greater the parameter value is, the harder event 1a/1b/1c/1d is triggered; the smaller the parameter value is, the easier event 1a/1b/1c/1d is triggered. For event 1a and event 1b, typically, a smaller value is configured to reflect signal change as soon as possible. For event 1c and event 1d, a greater value is preferred. preferred. Otherwise, toggle switching occurs. Also, the parameter value value cannot be to large; otherwise, otherwise, switching will be delayed, and therefore serious call drop situation occurs.
Reporting Deactivation Threshold for Event 1A
Chapter 7
3GPP Name
Reporting deactivation deactivatio n threshold
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
Field Name
RptDeactThr[MAX_INTRA_MEAS_EVE RptDeactThr[ MAX_INTRA_MEAS_EVENT] NT]
Control parameter switch
This parameter indicates the maximum number of cells allowed in the active set. When the UE detects that the measurement result of a active set satisfied the threshold for determining Description
event 1a, it first needs to determine whether the number of cells in the current set is smaller than or equal to the parameter value. If yes, event 1a is triggered; otherwise, event 1a is not triggered. MAX_INTRA_MEAS_EVENT
represents
the
maximum
number of the intra-frequency measure events. The value is 7. Description of data item of radio parameter message GUI Element Name
Maximum number of allowable cell in the active cell.
Value Range
(0, 1, 2, 3, 4, 5, 6, 7) This parameter should be configured only for event 1a. Periodic report parameter for the Ec/No measure: UE event report parameter for the Ec/No measure: [2, -, -, -, -, -, -]
Default Value
Periodic report parameter for the RSCP measure: UE event report parameter for the RSCP measure: [2, -, -, -, -, -, -] Detection set parameter for the CPICH Ec/No measure: [6] Detection set parameter for the CPICH RSCP measure: [6]
Scope
UTRAN Cell and Service Related
Function
Handover Control (Inter-frequency (Inter-frequency Handover) The size of the active set is restricted. When the number of cells in the active set reaches a threshold ( RptDeactThr ), ), event 1a is
Recommended
no longer reported. However, the macro diversity gain obtained
Configuration
from the number of links in the active set does not follow linear increase. Typically, when the number of macro diversity links is set to 3, an ideal gain is obtained.
Replacement Activation Threshold for Event 1C and 1J 3GPP Name
Replacement activation threshold
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
Field Name
RplcActThr[MAX_INTRA_MEAS_EVENT] RplcActThr[MAX_I NTRA_MEAS_EVENT] This parameter indicates the minimum number of cells allowed
Description
in the active set in the event that event 1c is triggered, or indicates the minimum number of cells allowed in the active
UMTS Radio Parameter
3GPP Name
Replacement activation threshold E-DCH set in the event that event 1j is triggered. When the UE detects that the measurement result of a active set satisfied the threshold for determining event 1c/1j, it first needs to determine whether the number of cells in the current set is smaller than the parameter value. If yes, event 1c/1j is not triggered. If the parameter value value is 0, it is invalid. invalid. MAX_INTRA_MEAS_EVENT
represents
the
maximum
number of the intra-frequency measure events. The value is 7. Description of data item of radio parameter message GUI Element Name
Minimum number of allowable cell in the active cell.
Value Range
(0, 1, 2, 3, 4, 5, 6, 7) This parameter should be configured only for event 1c and event 1j. Periodic report parameter for the Ec/No measure: UE event report parameter for the Ec/No measure: [-, -, 3, -, -, -,
Default Value
3] Periodic report parameter for the RSCP measure: UE event report parameter for the RSCP
measure: [-, -, 3, -, -,
-, 3] Detection set parameter for the CPICH Ec/No measure: [-] Detection set parameter for the CPICH RSCP measure: [-] Scope
UTRAN Cell and Service Related
Function
Handover Control (Inter-frequency (Inter-frequency Handover) To ensure the switching of macro diversity gain, event 1c is
Recommended Configuration
allowed to report only when the number of cells in the active set reaches a threshold ( RplcActThr ). ). In other words, typically, event 1c is triggered as an replacement in the event that the active set is full.
Time to Trigger 3GPP Name
Time to trigger
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
Field Name
TrigTime[MAX_INTRA_MEAS_EVENT] This parameter indicates the time difference between monitored event occurrence and event reporting. An event is triggered and
Description
reported only when the event is detected and the condition for triggering the event is always satisfied during the trigger period indicated by the parameter.
Chapter 7
3GPP Name
Control parameter switch
Time to trigger The larger the value is, the stricter the trigger of the event is determined. However, the time length should be set according to the actual requirement. This is because a larger time affects the communication quality. MAX_INTRA_MEAS_EVENT
represents
the
maximum
number of the intra-frequency measure events. The value is 7. Description of data item of radio parameter message GUI Element Name Value Range
Time to trigger (0, 10, 20, 40, 60, 80, 100, 120, 160, 200, 240, 320, 640, 1280, 2560, 5000) ms Periodic report parameter for the Ec/No measure: UE event report parameter for the Ec/No measure: [200, 640, 320, 320, 200, 200,
320] ms
Periodic report parameter for the RSCP measure: Default Value
UE event report parameter for the RSCP 200,
measure: [200, 200,
200, 200, 200, 200] ms
Detection set parameter for the CPICH Ec/No measure: [200] ms Detection set parameter for the CPICH RSCP measure: [200] ms Scope
UTRAN Cell and Service Related
Function
Handover Control (Inter-frequency (Inter-frequency Handover) This parameter is determined in view of sudden signal change. If the signal quality of a cell becomes unstable, and therefore the related event is triggered, switching processing might be invalid in the meantime, and call drop might occur in case that the situation is serious. To avoid this situation, in the preset time
Recommended Configuration
period, an event is reported to UTRAN only when the signal quality always meets the requirement. This ensures the effectiveness of switching. The greater the parameter value is, the harder event 1a/1b/1c/1d is triggered; the smaller the parameter value is, the easier event 1a/1b/1c/1d 1a/1b/1c/1d is triggered. However, the parameter value must be greater than the intra-frequency periodic measurement time 200 ms. Otherwise, the parameter configuration is meaningless.
Amount of Reporting for Event 1A/1B/1C/1J 3GPP Name
Amount of reporting
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
UMTS Radio Parameter
3GPP Name
Amount of reporting
Field Name
EvtRptAmount[MAX_INTRA_MEAS_EVENT EvtRptAmount[MAX_I NTRA_MEAS_EVENT]] This parameter indicates the maximum number of measurement reports after event 1a/1b/1c/1j is triggered (because event 1a/1b/1c/1j is periodically reported after triggered). When the event is triggered, the UE reports the measurement result according to the reporting interval. If the amount of reporting
Description
exceeds the parameter value, the UE stops reporting the measurement result. If the determination result indicates that event 1a/1b/1c/1j stops, even if the amount of reporting still satisfies the parameter value, the UE will also stop reporting the measurement result. MAX_INTRA_MEAS_EVENT
represents
the
maximum
number of the intra-frequency measure events. The value is 7. Description of data item of radio parameter message GUI Element Name
Amount of Reporting for Event 1A/1B/1C/1J
Value Range
(1, 2, 4, 8, 16, 32, 64, Infinity) This parameter should be configured only for event 1a, 1c, and 1j. Periodic report parameter for the Ec/No measure: UE event report parameter for the Ec/No measure: [4, -, 4, -, -,
Default Value
-, 4] Periodic report parameter for the RSCP measure: UE event report parameter for the RSCP
measure: [4, -, 4, -, -,
-, 4] Detection set parameter for the CPICH Ec/No measure: [1] Detection set parameter for the CPICH RSCP measure: [1] Scope
UTRAN Cell and Service Related
Function
Handover Control (Inter-frequency (Inter-frequency Handover) To ensure event reporting reliability, periodic reporting is used
Recommended Configuration
after the event is triggered. However, considering the flow of the air interface, frequent and excessive reporting should be avoided. Therefore, the reporting period and amount should be restricted. Typically, use the default settings.
Reporting Interval for Event 1A/1B /1C/1J 3GPP Name
Reporting interval
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
Field Name
EvtRptInterval[MAX_INTRA_MEAS_E EvtRptInter val[MAX_INTRA_MEAS_EVENT] VENT]
Chapter 7
3GPP Name
Control parameter switch
Reporting interval This parameter indicates the periodic reporting interval of the measurement result after event 1a/1b/1c/1j is triggered (because event 1a/1b/1c/1j is periodically reported after triggered). When the event is triggered, the UE reports the measurement result according to the reporting interval. If the amount of reporting
Description
exceeds the parameter value, the UE stops reporting the measurement result. If the determination result indicates that event 1a/1b/1c/1j stops, even if the amount of reporting still satisfies the parameter value, the UE will also stop reporting the measurement result. MAX_INTRA_MEAS_EVENT
represents
the
maximum
number of the intra-frequency measure events. The value is 7. Description of data item of radio parameter message GUI Element Name
Reporting Interval for Event 1A/1B /1C/1J
Value Range
(0, 250, 500, 1000, 2000, 4000, 8000, 16000) ms This parameter should be configured only for event 1a, 1c, and 1j. Periodic report parameter for the Ec/No measure: UE event report parameter for the Ec/No measure: [2000, -, 2000, -, -, -, 2000]ms
Default Value
Periodic report parameter for the RSCP measure: UE event report parameter for the RSCP measure: [2000, -, 2000, -, -, -, 2000]ms Detection set parameter for the CPICH Ec/No measure: [2000]ms Detection set parameter for the CPICH RSCP measure: [2000]ms
Scope
UTRAN Cell and Service Related
Function
Handover Control (Inter-frequency (Inter-frequency Handover) To ensure event reporting reliability, periodic reporting is used
Recommended Configuration
after the event is triggered. However, considering the flow of the air interface, frequent and excessive reporting should be avoided. Therefore, the reporting period and amount should be restricted. Typically, use the default settings.
Cell Individual Offset 3GPP Name
Cell Individual Offset
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
UMTS Radio Parameter
3GPP Name
Cell Individual Offset
Field Name
CellIndivOffset This parameter indicates the cell individual offset. An offset is allocated for each monitored cell. The offset can be positive or negative. The offset should be added to the measure before the UE evaluates whether an event has occurred. Using a positive offset, the number of measurement reports sent by the UE like
Description
PCPICH is x dB better than the actual value. Similarly, a negative offset can be used for CPICH. In this case, the reporting of PCPICH is restricted. Using the cell individual offset, the related cell will possibly (or at least temporarily) work as the switched target cell or be removed from the active set.
Description of data item of radio parameter message GUI Element Name Value Range Default Value Scope Function
Cell Individual Offset OMCR: (-10..10) dB step 0.5 RNC:D= (P+10)*2,0..40 0dB UTRAN Cell, GSM Neighboring Cell, UTRAN Neighboring Cell Mobility Management This parameter indicates the individual characteristics of the measured cell. You can use the same set of switching configuration parameters on the entire network, and then use CellIndivOffset to show the difference between cells. For
Recommended Configuration
example, you can set a greater value of CellIndivOffset for the environment (such as corner) requiring quick switching for easier switching, and you can set a smaller value for the environment that does not require quick switching for harder switching. This parameter should be customized for some special cells according to the specific situation of the radio environment.
7.2 Basic principle of inter-frequency switch The inter-frequency refers to that UE switches to another frequency point from one frequency point of UTRAN network. The purpose of inter-frequency is to ensure the service continuity and load sharing. Ensuring the service continuity is based on the switch of inter-frequency measurement. The load sharing of inter-frequency inter-frequency is based on
Chapter 7
Control parameter switch
the blind switch of coverage or inclusion relation. The background of inter-frequency switch triggered by load sharing includes load balancing and load control. The evaluation criterion for carrier wave of intra-frequency: intra-frequency: Q frequencyj = 10 ⋅ LogM frequency j
⎛ N ⎞ = W j ⋅ 10 ⋅ Log ⎜⎜ ∑ Mi j ⎟⎟ + (1 − W j ) ⋅ 10 ⋅ LogM Best j ⎝ i =1 ⎠ A j
In which: Q frequency j is the (virtual) active set quality of J carrier wave, namely the measuring result of J carrier wave (dB for Ec/No, dBm for RSCP). M frequency j is the measuring physical value of (virtual) active set for J carrier wave (ratio (ratio for Ec/No, mW for RSCP). M i j is the measuring physical value of I cell for J carrier. N A j is the cell number in the (virtual) active set for J carrier (excluding the best cell). M Best j is the measuring result of the bset cell in the (virtual) active set for J carrier. W j is the weighting of the best cell in the (virtual) active set during the process of carrier wave measuring ( WnoUsed or or Wused) The definition and handling process of event for inter-frequency are as follows: 1.
Event 2A
2A: the best carrier frequency is changed. This event is used for the determination of inter-frequency switch for RNC. The compression mode needs to be started when UE measures and reports the event.
Q NotBest ≥ Q Best + H 2a /2 In which: Q NotBest is the measuring result of current non-best carrier wave. Q Best is the measuring result of current best carrier wave. H2a is the delay parameter of switch determination for 2A event ( Hysteresis (Inter))
2.
Event 2B
2B: the quality of working carrier frequency is lower than a threshold and the quality of non-working carrier frequency is higher than a threshold. This event is used for the
UMTS Radio Parameter
determination of inter-frequency switch for RNC. The compression mode needs to be started when UE measures and reports this event.
QNon used ≥ TNon used 2b + H2b /2 And Q Used ≤ TUsed 2b − H 2b /2 In which: Q Non used is the measuring result of current non-using carrier wave. TNon used 2b is the absolute threshold of good qality of non-using carrier wave for 2b
event determination (ThreshNoUsedFreq). H2b is the delay parameter of 2b event determination ( Hysteresis (Inter)).
QUsed is the measuring result of current used carrier frequency. T Used Used 2b is the absolute threshold of bad qality of non-using carrier wave of using carrier wave for 2b event determination ( ThreshUsedFreq). 3.
Event 2C
2C: the quality of non-working carrier frequency is higher than a threshold. This event is used for the determination of inter-frequency switch for RNC. The compression mode needs to be started when UE measures and reports this event.
Q Non used ≥ T Non used 2c + H 2c /2 In which: Q Non used is the measuring result of current non-using carrier wave. TNon used 2c b is the absolute threshold of good qality of non-using carrier wave for 2c
event determination (ThreshNoUsedFreq). H2c is the delay parameter of 2c event determination ( Hysteresis (Inter)).
4.
Event 2D
2D: the quality of working carrier frequency is lower than a threshold. This event measures the signal quality of current using carrier frequency, which doesn’t need to start compression mode. However, this event is used for triggering event of 2A/2B/2C measurement by starting compression mode.
Q Used ≤ TUsed 2d − H 2d /2 In which:
Chapter 7
Control parameter switch
QUsed is the measuring result of current using carrier wave. T Used Used
2b
is the absolute threshold of bad qality of using carrier wave for 2d event
determination (ThreshUsedFreq). H2b is the delay parameter of 2d event determination ( Hysteresis (Inter)).
5.
Event 2E
2E: the quality of non-working carrier frequency is lower than a threshold. This event is used for judging signal quality of non-working carrier frequency, which can be used as the triggering event of triggering intersystem switch.
QNon used ≤ TNon used 2e − H2e /2 In which: Q Non used is the measuring result of current non-using carrier wave. TNon used 2e is the absolute threshold of good qality of non-using carrier wave for 2e
event determination (ThreshNoUsedFreq) H 2e is the delay parameter of 2e event determination ( Hysteresis). 6.
Event 2F
2F: the quality of working carrier frequency is higher than a threshold. This event measures the signal quality of current using carrier frequency, which doesn’t need to start compression mode. However, this event is used for triggering event of closing compression mode when the current started compression mode measures 2A/2B/2C.
QUsed ≥ TUsed 2f + H2f /2 In which: QUsed is the measuring result of current using carrier wave. TUsed
2f is
the absolute threshold of bad qality of using carrier wave for 2f event
determination (ThreshUsedFreq). Hfe is the delay parameter of 2f event determination ( Hysteresis (Inter)).
Introduction to compression mode: There are two methods for the generation of compression mode frame: 1.
Halving of SF
UMTS Radio Parameter
The halving of SF is fulfilled through enlarging the empty bandwidth of traffic. In this way, part of the slot time in the same radio frame can be specially used for measuring inter-frequency and intersystem and part of the slot time can be specially used for data bit transmission. The transmission strategy of SF halving is generally used for the traffic with high requirement for time delay and minimal guarantee demand for data rate, such as the PS data traffic of CS and S. 2.
High-level scheduling
The substance of high-level scheduling is that the high-level regulates the rate of data transmission. Part of the slot time in the same radio frame can be specially used for measuring inter-frequency and intersystem and part of the slot time can be specially used for data bit transmission on condition that the empty bandwidth doesn’t change. It is generally used for non-real-time traffic with low requirement for time delay, such as the PS data traffic of I/B. The GAP used for sending/receiving (measurement) can be placed in one radio frame or between two radio frames when the compression mode is started. It is shown in the figure below: Transmission gap
#0
#Nfirst-1
Radio frame
#Nlast+1
#14
(1) Single-frame method
Transmission gap
First radio frame
#0
#Nfirst-1
#Nlast+1
(2) Double-frame method
Position of transmission gap (TG) Sequence of compression mode:
Second radio frame
#14
Chapter 7
Control parameter switch
#1
#2
#3
#4
#5
#TGPRC
TG pattern 1
TG patt patter ern n 1
TG patt patter ern n 1
TG patt patter ern n 1
TG pattern 1
TG pattern 1
TG pattern 1
Transmission
Transmission
gap 1
gap 2
TGL1
TGL2
TGSN
TGD
TGPL1
Absolute Threshold of the Quality of the Currently Used Frequency for 2B/2D/2F 3GPP Name
Threshold used frequency
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
Field Name
ThreshUsedFreq[MAX_INTER_MEAS_E ThreshUsedFre q[MAX_INTER_MEAS_EVENT] VENT] This parameter indicates the absolute threshold (for quality determination of the current carrier frequency) configured for
Description
event 2b/2d/2f. MAX_INTER_MEAS_EVENT
represents
the
maximum
number of the inter-frequency measure events. The value is 6. Description of data item of radio parameter message GUI Element Name
Value Range
Absolute Threshold for Quality Determination of the Used Carrier Frequency in Event 2b/2d/2f CPICH RSCP: (-115..-25 ) dBm step 1dBm CPICH Ec/No: (-24..0) dB step 1dB Periodic report parameter for the CPICH Ec/No measure: UE intra-frequency event report parameter for the CPICH Ec/No measure: [-24, -13,
Default Value
-24, -13, -24, -5] B
UE periodic event report parameter for the CPICH RSCP measure: UE intra-frequency event report parameter for the CPICH RSCP measure: [-115, [-115, -95,
-115, -95, -115, -80] dBm
Scope
UTRAN Cell and Service Related
Function
Handover Control (Inter-frequency Handover)
Recommended Configuration
This parameter is determined in view of movement continuity and guarantee of subscriber experience. In case that the carrier frequency is bad, compression mode and intra-frequency
UMTS Radio Parameter
3GPP Name
Threshold used frequency measurement should be started for switching to avoid call drop or poor QoS. For event 2B (smaller than the threshold), the greater the parameter value is, the easier intra-frequency intra-frequency switching is triggered; the smaller the parameter value is, the harder intra-frequency intra-frequency switching is triggered. For event 2D (smaller than the threshold), the greater the parameter value is, the easier compression compression mode is started for intra-frequency and inter-system measurement; the smaller the parameter value value is, the harder harder compression compression mode mode is started. For event 2F (greater than the threshold), the greater the parameter value is, the harder compression compression mode is closed to stop intra-frequency and inter-system measurement; the smaller the parameter value is, the easier compression mode is closed to stop intra-frequency and inter-system measurement.
Weight Weight of the Currently Used Frequency for 2A/2B/2D/2F 3GPP Name
W used frequency
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
Field Name
Wused[MAX_INTER_MEAS_EVENT] Wused[MAX_INTER_MEAS_EVE NT] This parameter is used for quality determination of the current used carrier frequency, and indicates the weight (for event 2a,
Description
2b, 2d, or 2f) of the RNC with best signal quality. It is associated with the measure and event type. MAX_INTER_MEAS_EVENT
represents
the
maximum
number of the inter-frequency measure events. The value is 6. Description of data item of radio parameter message GUI Element Name
Weight of the Currently Used Frequency for 2A/2B/2D/2F
Value Range
(0.0..2.0 (0.0..2. 0 ) step 0.1 Periodic report parameter for the CPICH Ec/No measure: UE intra-frequency event report parameter for the CPICH Ec/No measure: [0.0,
Default Value
0.0,
0.0, 0.0, 0.0, 0.0]
UE periodic event report parameter for the CPICH RSCP measure: UE intra-frequency event report parameter for the CPICH RSCP measure: [0.0,
0.0,
0.0, 0.0, 0.0, 0.0]
Scope
UTRAN Cell and Service Related
Function
Handover Control (Inter-frequency Handover)
Chapter 7
3GPP Name Recommended Configuration
Control parameter switch
W used frequency -
Hysteresis 3GPP Name
Hysteresis
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
Field Name
Hysteresis[MAX_INTER_MEAS_EVEN Hysteresis[MAX_ INTER_MEAS_EVENT] T] This parameter indicates whether the determination event satisfies the hysteresis of event triggering condition. It makes a difference between the triggered state and the trigger released
Description
state of an event. This parameter helps avoid the trigger state change in case of a small change. This parameter varies with the event and can be set to different values. MAX_INTER_MEAS_EVENT
represents
the
maximum
number of the inter-frequency measure events. The value is 6. Description of data item of radio parameter message GUI Element Name
Hysteresis
Value Range
(0, 0.5..14.5) dB step 0.5dB Periodic report parameter for the CPICH Ec/No measure: UE intra-frequency event report parameter for the CPICH Ec/No measure: [4, 4, 4, 4, 4, 4] dB
Default Value
UE periodic event report parameter for the CPICH RSCP measure: UE intra-frequency event report parameter for the CPICH RSCP measure: [4, 4, 4, 4, 4, 4]dB
Scope
UTRAN Cell and Service Related
Function
Handover Control (Inter-frequency Handover)
Recommended Configuration
The greater the parameter value is, the harder event 2A/2B/2C/2D/2E/2F is triggered; the smaller the parameter value is, the easier event 2A/2B/2C/2D/2E/2F is triggered
Time to Trigger 3GPP Name
Time to trigger
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
Field Name
TrigTime[MAX_INTER_MEAS_EVENT] TrigTime[MAX_INTER_MEAS _EVENT] This parameter indicates the time difference between monitored
Description
event occurrence and event reporting. An event is triggered and reported only when the event is detected and the condition for
UMTS Radio Parameter
3GPP Name
Time to trigger triggering the event is always satisfied during the trigger period indicated by the parameter. The larger the value is, the stricter the trigger of the event is determined. However, the time length should be set according to the actual requirement. This is because a larger time affects the communication communication quality. quality. MAX_INTER_MEAS_EVENT
represents
the
maximum
number of the inter-frequency measure events. The value is 6. Description of data item of radio parameter message GUI Element Name Value Range
Time to Trigger (0, 10, 20, 40, 60, 80, 100, 120, 160, 200, 240, 320, 640, 1280, 2560, 5000) ms Periodic report parameter for the CPICH Ec/No measure: UE intra-frequency event report parameter for the CPICH Ec/No measure: [100, 100, 100, 640, 100, 640]
Default Value
UE periodic event report parameter for the CPICH RSCP measure: UE intra-frequency event report parameter for the CPICH RSCP measure: [100, 100, 100, 640, 100, 640]
Scope
UTRAN Cell and Service Related
Function
Handover Control (Inter-frequency Handover) This parameter indicates the time difference between monitored event occurrence and event reporting. In other words, during the preset period, an event that satisfies the triggering of event 2A/2B/2C/2D/2E/2F is reported to UTRAN. This parameter is determined in view of sudden signal change. If the signal quality of a cell becomes unstable with great changes, and
Recommended Configuration
therefore the related event is triggered, switching processing might be invalid in the meantime, and call drop might occur in case that the situation is serious. To avoid this situation, in the preset time period, an event is reported to UTRAN only when the signal quality always meets the requirement. This ensures the effectiveness of switching. The greater the parameter value is, the harder event 2A/2B/2C/2D/2E/2F is triggered; the smaller
the
parameter
value
is,
the
easier
event
2A/2B/2C/2D/2E/2F 2A/2B/2C/2D/2E/2F is triggered. triggered.
Absolute Threshold of the Quality of the Non-used Frequency for 2A/2B/2C/2E 3GPP Name
Threshold non used frequency
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
Chapter 7
3GPP Name
Threshold non used frequency
Field Name
ThreshNoUsedFreq[MAX_INTER_MEAS_E ThreshNoUsedFr eq[MAX_INTER_MEAS_EVENT] VENT]
Control parameter switch
This parameter indicates the absolute threshold (for quality determination Description
of
the
current
unused
carrier
frequency)
configured for event 2a/2b/2c/2e. MAX_INTER_MEAS_EVENT
represents
the
maximum
number of the inter-frequency measure events. The value is 6. Description of data item of radio parameter message GUI Element Name
Value Range
Absolute Threshold of the Quality of the Non-used Frequency for 2A/2B/2C/2E CPICH RSCP: (-115..-25 )dBm step 1dBm CPICH Ec/No: (-24..0) dB step 1dB Periodic report parameter for the CPICH Ec/No measure: UE intra-frequency event report parameter for the CPICH Ec/No measure: [-24, -5, -5, -24, -13, -24] dB
Default Value
UE periodic event report parameter for the CPICH RSCP measure: UE intra-frequency event report parameter for the CPICH RSCP measure: [-115, -50, -50, -115, -95, -115] dBm
Scope
UTRAN Cell and Service Related
Function
Handover Control (Inter-frequency Handover) This parameter is determined in view of movement continuity and guarantee of subscriber experience. In case that the local carrier frequency is bad, and the quality of the intra-frequency neighboring cell satisfies the condition, switching is determined to avoid call drop or poor QoS. For event 2B (greater than the threshold), the greater the parameter parameter value is, the harder intra-frequency intra-frequency switching is triggered; the smaller the parameter value is, the easier
Recommended Configuration
intra-frequency intra-frequency switching is triggered. For event 2C (greater than the threshold), the greater the parameter parameter value is, the harder intra-frequency intra-frequency switching is triggered; the smaller the parameter value is, the easier intra-frequency intra-frequency switching is triggered. For event 2E (smaller than the threshold), the greater the parameter value is, the easier the intra-frequency measurement is stopped and inter-system measurement is started; the smaller the
parameter
value
is,
the
harder
the
intra-frequency
measurement is stopped and inter-system measurement is started.
UMTS Radio Parameter
Weight Weight of the Non-used Frequency for 2A/2B/2C/2E 3GPP Name
W non-used frequency
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
Field Name
WNoUsed[MAX_INTER_MEAS_EVENT] WNoUsed[MAX_INTER _MEAS_EVENT] This parameter is used for quality determination of the current unused carrier frequency, and indicates the weight (for event 2a, 2b, 2c, or 2e) of the RNC with best signal
Description
quality. It is associated with the measure and event type. MAX_INTER_MEAS_EVENT represents the maximum number of the inter-frequency measure events. The value is 6.
Description of data item of radio parameter message GUI Element Name
Weight of the Non-used Frequency for 2a/2b/2c/2e
Value Range
(0.0..2.0 (0.0..2. 0 ) step 0.1 Periodic report parameter for the CPICH Ec/No measure: UE intra-frequency event report parameter for the CPICH Ec/No measure: [0.0,
Default Value
0.0,
0.0, 0.0, 0.0, 0.0]
UE periodic event report parameter for the CPICH RSCP measure: UE intra-frequency event report parameter for the CPICH RSCP measure: [0.0,
0.0,
0.0, 0.0, 0.0, 0.0]
Scope
UTRAN Cell and Service Related
Function
Handover Control (Inter-frequency Handover)
Recommended Configuration
-
7.3 7.3 Basic Basic princip le of int ersystem ersystem sw itch The intersystem refers to that UE switches to another radio access system from one radio access system. It focuses on that UE switches to GERAN system from UTRAN access system (switching GERAN system to UTRAN system is the policy of GERAN system). The purpose of intersystem is to ensure the service continuity and load sharing. Ensuring the service continuity is based on the switch of intersystem measurement. The load sharing of intersystem is based on the blind switch of coverage or inclusion relation. The background of intersystem switch triggered by load sharing includes load balancing and load control. control. The definition and handling process of event for intersystem switch are as follows:
Chapter 7
1.
Control parameter switch
Event 3A
3A: the quality of current used UTRAN carrier frequency is lower than a threshold and the quality of other radio system is higher than a threshold. It is used for the determination of intersystem switch.
Q Used ≤ TUsed − H 3a /2 And MOther
RAT
+ CIOOther RAT ≥ TOther
RAT
+ H3a /2
In which: QUsed is the quality evaluation of operating frequency for UTRAN. T Used Used is the absolute threshold of current operating frequency ( Thresh ). H3a is the delay parameter of 3A event determination (Hysteresis (Rat)).
M Other Other RAT is the quality measuring result of other systems. CIOOther RAT is the quality offset of other system cells (CellIndivOffset (gsmRelation)). (gsmRelation)). TOther RAT the absolute threshold of good qality for other systems ( ThreshSys).
2.
Event 3C
3C: the quality of other radio systems is higher than a threshold, which can be used for the determination of intersystem.
MOther RAT + CIOOther RAT ≥ TOther RAT + H3c /2 In which: M Other Other RAT is the quality measuring result of other systems. CIOOther RAT is the quality offset of other system cells (CellIndivOffset (gsmRelation)). TOther RAT the absolute threshold of good qality for other systems ( ThreshSys). H3c is the delay parameter of 3C event determination (Hysteresis (Rat)).
In the event determination of intersystem, when the carrier wave meets the reporting range or threshold of certain event, the event can be reported by the meeting of lasting a period of time (TrigTime (Rat)) in order to avoid the intra-frequency event misdeclaration caused by fluctuation of carrier wave quality. quality. Absolute Threshold of the Quality of UTRAN Cell for 3A 3GPP Name
Threshold own system
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
UMTS Radio Parameter
3GPP Name
Threshold own system
Field Name
Thresh[MAX_RAT_MEAS_EVENT] This parameter indicates the absolute threshold that needs to be configured for the quality of the UTRAN cell in the event
Description
that the UE determines event 3a. The value range and unit are associated with the measure of the UTRAN cell. MAX_RAT_MEAS_EVENT represents the maximum number of the inter-system measure events. The value is 4.
Description of data item of radio parameter message GUI Element Name Value Range
Absolute Threshold of the Quality of UTRAN Cell for 3a CPICH RSCP: (-115..-25 )dBm step 1dBm CPICH Ec/No: (-24..0) dB step 1dB Periodic report parameter for the CPICH Ec/No local system measure: UE event report parameter for the CPICH Ec/No local system
Default Value
measure: [-6,
-24, -24, -24]
Periodic report parameter for the CPICH RSCP local system measure: UE event report parameter for the CPICH RSCP local system measure: [-95,
-115, -115, -115]
Scope
UTRAN Cell and Service Related
Function
Handover Control (Inter-RAT Handover) This parameter is determined in view of movement continuity and guarantee of subscriber experience. In case that the local carrier frequency is bad, and the measured quality of the
Recommended
inter-system neighboring cell is better, inter-system switching
Configuration
should be carried out to avoid call drop or poor QoS. The greater the parameter value is, the easier inter-system switching is triggered; the smaller the parameter value is, the harder inter-system switching is triggered.
Weight of the UTRAN System for 3A 3GPP Name
W
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
Field Name
W[MAX_RAT_MEAS_EVENT] This parameter is used for quality determination of the quality
Description
of the UTRAN system in inter-system measurement, and indicates the weight of the best cell in the determination of event 3a.
Chapter 7
3GPP Name
Control parameter switch
W MAX_RAT_MEAS_EVENT represents the maximum number of the inter-system measure events. The value is 4.
Description of data item of radio parameter message GUI Element Name
Weight of the UTRAN System for 3a
Value Range
(0.0..2.0) (0.0..2. 0) step 0.1 Periodic report parameter for the CPICH Ec/No local system measure: UE event report parameter for the CPICH Ec/No local system
Default Value
measure: [0,
-,
-,
-]
Periodic report parameter for the CPICH RSCP local system measure: UE event report parameter for the CPICH RSCP local system measure: [0,
-,
-,
-]
Scope
UTRAN Cell and Service Related
Function
Handover Control (Inter-RAT Handover)
Recommended Configuration
-
Absolute Threshold of the Quality of Other RAT for 3A/3B/3C 3GPP Name
Threshold other system
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
Field Name
ThreshSys[MAX_RAT_MEAS_EVENT] This parameter indicates the absolute threshold configured for event 3a/3b/3c for determination of the quality of other systems. The value range and unit are related to the measurement amount of other system cell. Currently, the
Description
measure can only be GSM Carrier RSSI of the GSM system, corresponding to CPICH RSCP of the system. Therefore, the value range and unit of the parameter correspond to CPICH RSCP. MAX_RAT_MEAS_EVENT represents the maximum number of the inter-system measure events. The value is 4.
Description of data item of radio parameter message GUI Element Name Value Range
Default Value
Absolute Threshold of the Quality of Other RAT RAT for 3a/3b/3c CPICH RSCP: (-115..-25 ) dBm step 1dBm CPICH Ec/No: (-24..0) dB step 1dB Periodic report parameter for the CPICH Ec/No local system measure: -
UMTS Radio Parameter
3GPP Name
Threshold other system UE event report parameter for the CPICH Ec/No local system measure: [-90,
-95,
-95,
-115] dBm
Periodic report parameter for the CPICH RSCP local system measure: UE event report parameter for the CPICH RSCP local system measure: [-90,
-95,
-95,
-115] dBm
Scope
UTRAN Cell and Service Related
Function
Handover Control (Inter-RAT Handover) This parameter is determined in view of movement continuity and guarantee of subscriber experience. In case that the local carrier frequency is bad, and the measured quality of the
Recommended
inter-system neighboring cell is better, inter-system switching
Configuration
should be carried out to avoid call drop or poor QoS. For event 3A/3C, the greater the parameter value is, the harder inter-system switching is triggered; the smaller the parameter value is, the easier inter-system switching is triggered.
Determination Hysteresis 3GPP Name
Determination Determinati on Hysteresis
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
Field Name
Hysteresis[MAX_RA Hysteresis[MAX_R AT_MEAS_EVENT] This parameter indicates whether the determination event satisfies the hysteresis of event triggering condition. It makes a difference between the triggered state and the trigger released state of an event. This parameter helps avoid the trigger state change in case of a small change.
Description
The greater the Hysteresis value is, the greater the threshold difference between the triggered state and the trigger released state of an event is. This parameter is associated with the measure and event type. MAX_RAT_MEAS_EVENT represents the maximum number of the inter-system measure events. The value is 4.
Description of data item of radio parameter message GUI Element Name
Determination Determinat ion Hysteresis
Value Range
(0, 0.5..7.5) dB step 0.5dB Periodic report parameter for the CPICH Ec/No local system
Default Value
measure: UE event report parameter for the CPICH Ec/No local system
Chapter 7
3GPP Name
Control parameter switch
Determination Determinati on Hysteresis measure: [4, 4, 2, 4] dB Periodic report parameter for the CPICH RSCP local system measure: UE event report parameter for the CPICH RSCP local system measure: [4, 4, 4, 4] dB
Scope
UTRAN Cell and Service Related
Function
Handover Control (Inter-RAT Handover)
Recommended Configuration
The greater the parameter value is, the harder event 3A/3C is triggered; the smaller the parameter value is, the easier event 3A/3C is triggered.
Time Difference Between Event Occurrence and Event Reporting (Time to Trigger) 3GPP Name
Time to trigger
3GPP Reference
TS 25.331: “RRC Protocol Specification” Specificat ion”
Field Name
TrigTime [MAX_RAT_MEAS_EVENT] [MAX_RAT_MEAS_EVENT] This parameter indicates the time difference between monitored event occurrence and event reporting. An event is triggered and reported only when the event is detected and the condition for
Description
triggering the event is satisfied during the trigger period indicated by the parameter. MAX_RAT_MEAS_EVENT is the maximum number of inter-system events. The value is 4.
Description of data item of radio parameter message GUI Element Name
Value Range
Time Difference Between Event Occurrence and Event Reporting (0, 10, 20, 40, 60, 80, 100, 120, 160, 200, 240, 320, 640, 1280, 2560, 5000) ms Periodic report parameter for the CPICH Ec/No local system measure: UE event report parameter for the CPICH Ec/No local system
Default Value
measure: [100, 100, 100, 100] ms Periodic report parameter for the CPICH RSCP local system measure: UE event report parameter for the CPICH RSCP local system measure: [100, 100, 100, 100] ms
Scope
UTRAN Cell and Service Related
Function
Handover Control (Inter-RAT Handover)
UMTS Radio Parameter
3GPP Name
Time to trigger This parameter is determined in view of sudden signal change. If the signal quality of a cell becomes unstable with great changes, and therefore the related event is triggered, switching
Recommended
processing might be invalid in the meantime, meantime, and call drop
Configuration
might occur in case that the situation is serious. To avoid this situation, in the preset time period, an event is reported to UTRAN only when the signal quality always meets the requirement. This ensures the effectiveness of switching.