Setup Guide Guipan Yang RSO Team 01-11-2017
Content
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SRAN17A Overview SRAN17A Harmonized object model SBTS17A Commissioning and Integration SBTS17A SW upgrade path SBTS17A Web Element Manager Offline SCF conversion from dedicated RAT BTS to SBTS17A
SRAN17A Overview
SRAN Highlights New SBTS Software
Single OAM
One base station for GSM, WCDMA and LTE radio technologies
Common handling in Netact, Simplified site creation, commissioning commissioning and config.
Based on Flexi Multiradio 10 And AirScale System Module
Supporting single radio all radio- and Transport SW upgrades upgrades
Common backhaul IP transport
System module sharing
One IP host and interface
Extremely compact sites
One IP address and IP security
Lower energy consumption
No external IP transport boxes
Scalable capacity
SRAN17A Network Architecture NetAct
NE3S/ HTTP
OSS OMS
BTS Mediator NWI3/ CORBA
MSC/VLR
HLR
GSM NSS
A SOAM
MSS
BSC
3G Voice Core IMS
Ab is IuCS
GSM UE Um IuB
MGW
RNC IuPS
WCDMA UE
PSTN
SGSN
PCS
GPRS
Uu
SBTS (eNodeB, NodeB, LTE-Uu BTS)
S1-U
GGSN
LTE UE (FDD-LTE/NB-IoT/LTE-M)
Internet S1-MME
SGW+PGW MME
EPC
SRAN 17A Release highlights • •
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Higher Capacity Single RAN sites 3-RAT capability (GSM, WCDMA, FDD-LTE) in one system module 4-RAT site solution to enable TD-LTE Outdoor sub-rack AMOB
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Single BTS O&M unified architecture New BTS Mediator with resiliency New Web Element Manager Dedicated RAT to SBTS Migration Remote ALDs SW Mngt Enhanced security access control
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6T/6R Radio in 900 band (FXDD) 2T/2R Radio in 900J band (FHDI) Low power Radios (LTE/WCDMA) (FHGA)
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NB-IoT In-band/Stan In-band/Stand-alone d-alone support LTE-M support
Transport and Security • • • •
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New configurations with flexible SRAN cell set approach RF Sharing and Chaining Support for selected fALU fALU LTE Radios Inter-eNB CA SBTS(FDD) – LBTS(TD) MORAN/MOCN/MOBSS MORAN/MOCN/MO BSS support 36 GSM TRXs GSM extended cell range
LTE-FDD 17A, WCDMA 17, GSM 17
This release and its listed features are still und er study, no commitment can be made at this point on the availability and s chedules.
Dynamic X2 and S1 Firewall configs Fronthaul Passive/Active WDM Extended synchronization capabilities Efficient transport of Small IP packets
SRAN16.x vs. SRAN17A OAM architecture What is changing?
Before •
After
NE3S interface in SRAN16.2/SRAN1 SRAN16.2/SRAN16.10 6.10 for m-plane
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Single Sin gleRAN RAN BTS
NetAct
BTS Mediator converts SCF file (RAML format) to IM (binary format) In SRAN17A NE3S interface connects NetAct and BTS Mediator In SRAN17A SOAM interface connects BTS Mediator AND SOAM BTS SOAM BTS
SOAM interface
NE3S
SRAN16.x
BTS Mediator
SRAN17A
NE3S
NetAct
BTS Mediator Introduction •
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New network element introduced outside physical BTS Implements mediation function for BTS m-plane BTS Mediator (IMP) elementary functionality is to provide Info Model conversion from the SCF file (RAML format) into corresponding IMI format (binary representative) Converts format between NE3S and SOAM interface. NE3S (xml format) interface towards NetAct and SOAM (binary format) interface towards BTS Binary protocol on SOAM interface (BTS Mediator <-> SBTS) allows lower bandwidth thus higher capacity and synchronization speed BTS Mediator as SW entity is managed from NetAct as network element BTS Mediator is deployed as virtual machine in NetAct Data Center
NetAct NE3S agent NE3S interface Logical m-plane
BTS Mediato Mediato r Physical m-plane
SOAM interface
SBTS
SBTS
SRAN17A Fro From m Pro Profil files es to Cel Celll Set Setss (SR (SR001 001581 581 New SRA SRAN N SBTS SBTS cel celll sets sets on FSM FSMF) F) SRAN 16.x
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Fixed configurations described by profiles
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Profile defines configuration on BTS level
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Profiles have (too) detailed information about the maximum system module HW, radio HW setup, OBSAI cabling, baseband allocations, RAT multiplexing rules in the fiber.
SRAN17 onwards
Adopt „Cell Set” approach from LTE: •
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Therefore even small configuration changes require new profile •
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Means additional test effort, often even coding effort.
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Limited number of configurations released, while hundreds are needed.
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Higher effort on site migration from legacy RAT to SRAN
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Cell sets defined on sub-baseband module module level are combined as independent building blocks to build an SBTS configuration System module – Radio Module connection topology is auto detected. Commissioning rules, Baseband allocation and data routing are calculated based on detected topology New SRAN cell sets for shared operation (LTEWCDMA, LTE-GSM, GSM-WCDMA) and dedicated RAT operation for GSM and WCDMA are defined LTE and SRAN cell sets can be flexibly combined to build target configuration Much easier migration from single RAT to SRAN
SRAN BB cell sets and RF sets LTE
LTE cell set X
Full BTS level
LBTS
SRAN
SRAN cell set X
LTE cell set Y
LTE cell set X
LTE cell set Z
SRAN cell set Y
SBTS
Cell set level LTE cell sets
SRAN cell sets : Compatibility level of SRAN and LTE cell sets
BB cell sets
+ RF sets 1 1L2, 1L3, 1L4, 1L6, 2L3
+…+
RF sets n LTE RF cell cell set e.g : #2965_1z2 #2965_1z2
SRAN17A Harmonized object model
Harmon Har monize ized d Obj Object ect Mod Model el for SRA SRAN N and LTE – 1/3 Why? Motivation for Single OAM for fo r LTE & SRAN •
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Lack of one and common architecture applicable for all technologies (no unification between them) SRAN own architecture is not seen as flexible enough (each new RMOD configuration causes new efforts) LTE modeling not future-proof enough to support both LTE technologies (TDD and FDD) and SRAN
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Lack of information about installed vs configured HW
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Maintenance of all architecutres separately is problematic
Goal •
The purpose of the change in the object model is to prepare it for the Single RAN and Single OAM compatibility. It means that model has to be consistent between all technologies supported by Single OAM software including 2G, 3G, 4G Macro, 4G Cloud and 5G technologies and products. In order to be able to reach it all part of the model have to be commonly defined for all of those technologies.
Harmon Har monize ized d Obj Object ect Mod Model el for SRA SRAN N and LTE – 2/3 Overall concept of transition towards harmonization MRBTS
MRBTS
LNBTS
…
LNCEL
EQM
LNMME
EQM_R
SMOD
MNL
RMOD
TNLSVC*
BTSSCL
LTE Object Model GSM Object Model WCDMA Object Model SRAN Object Model
LCELL
Equipment Object (Operators input) Runtime equipment Object (Detected by BTS) Management Network Layer object Transport Network Layer object*
LNBTS
LTE BTS object
WNBTS
WCDMA BTS object
GNBTS
GSM BTS object
Harmon Har monize ized d Obje Object ct Mod Model el for SRA SRAN N and LTE – 3/3 SBTS (SRAN16.10) SRAN17A Object model is common for SRAN17A and LTE17* Root object is MRBTS (in SRAN16.2/SRAN16.10 it was SBTS) EQM – configuration HW information Object model is extended in HW configuration area where additional information is included to fully reflect running SBTS configuration e.g.: EQM_R – runtime HW information CABLINK / LOGLINK – physical / logical information •
• •
LNBTS object consists LTE eNB parameters similarly as for SRAN16.2 and SRAN16.10. WNBTS and GNBTS consists local cell WCDMA/GSM configuration parameters (previously in BTSSCW/LCELW and BTSSCC/LCELCC) TNLSVC object consists transport parameters (for standalone LTE will be used in future releases)
Root changed
MRBTS (SRAN17A)
ALD
EQM
ANTL
EQM_R
BTSSCC BTSSCL
Object model changes
MNL
BTSSCW
TNLSVC
MGMNT
LNBTS
MHA
WNBTS
PSSUNT
GNBTS
RET SYNC TNL HW
*TNLSVC *TNLS VC for LTE LTE is scop scope e of LTE3 LTE3442 442 in future future release release
MO tree EQM and EQM_R EQuipment Management: •
EQM – configuration view Lists hardware configured by operator This part is not touched by SBTS
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SBTS (SRAN16.10)
MRBTS (SRAN17A) EQM
EQM_R – runtime view Lists hardware detected by SBTS and can be updated dynamically during SBTS operations
Configuration View (CV)
HW
This part is filled by SBTS •
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Configured hardware can appear in both (i.e. configured and runtime) objects e.g. RMOD and RMOD_R
Note: Corresponding CV and RV objects may have different ids, e.g. RMOD-1 may correspond to RMOD_R-15
EQM_R Runtime view (RV)
MRBTS (SRAN17A)
MO tree MNL MGMNT (SRAN16.10) AMGR
MNL MNLENT
Management Layer Entity
BBADM
Baseband Administration
CAPCFG
CAPADM Capacity Administration
CAPLIM
CELLMAPPING Cell Mapping
CERTH
CERTH
Certificate Handling Feature Common Administration
CLIC
FEATCADM
DNS
FMCADM
Fault Management Common Administration
EACA
PMCADM
Performance and Monitoring Common Admin
EACC
PMMNL
Performance Monitoring for MNL
MPLANE
SECADM
Security Common Administration
PM
SYNC
PMCADM
TEST
SECADM TRBLCADM
Synchronization
Tests Troubleshooting Common TRBLCADM Administration
MO tree MNL>MNLENT> MNL>MNLENT>SYNCH SYNCH MRBTS (SRAN17A) SBTS (SRAN16.10)
MNL
SYNC CLOCKOUTPUTS EXT2M
MNLENT SYNC CLOCK
GNSSE
GNSSE
PDH
GNSSI
SYNCE
PDH
SYNCHUBBTS
SYNCE
TOP
TOP
TIME
TIME
MO tr tree ee TN TNLL
MRBTS (SRAN17A)
SBTS (SRAN16.10)
TNLSVC TNL
Common transport configuration based on concept from SRAN16.2/SRAN16.10. One transport MOC for all Radio Access Technologies TNLSVC is also used for LTE if running on SRAN17A TNLSVC concept coming to „standalone“ LTE (non SBTS) with LTE3442 in future release
TNL ETHSVC
ETHSVC
FRLI
FRLI
IPAPP
IPAPP
IPNO
IPNO
P3LP
P3LP
P3ML
P3ML
P3SL
P3SL
PPTT
PMTNL
TRIGGER
PPTT TRIGGER TNL_R
MO tree MNL – local cell remodeling – 1/2 •
Object Model changes ( x17) – relevant LCELx subtree
MNL/MNLENT CELLMAPPING contains mapping between logical cells (LNCEL/WNCEL/GNCEL) and hardware (RMOD/ANTL) in the form of LCELx
CELLMAPPING LCELx
CHANNELGROUP CHANNEL
In case case of a normal normal cell: cell: 1 CHANNELGROUP instance per normal cell In case case of a superce supercellll (LTE relat related ed only): only): 1 CHANNELGROUP instance per subcell
A CHANNEL CHANNEL instance instance repre represents sents a data path. There The re is one CHA CHANNE NNEL L ins instan tance ce per antenn ant enna a lin line e and per direc directio tion n
MO tree MNL – local cell remodeling – 2/2 •
Object Model changes ( x17) – relevant LCELx subtree
…
… CHANNELGROUP
CHANNEL
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used d ins instea tead d antlId antlDN use
LCELL/C/W
channelGroupId
Subcelll rel Subcel relate ated d par parame ameter terss at one one pla place: ce: As CHANNELGROUP CHANNELGROUP represents represents a subcel sub celll in cas case e the cel celll is a supe superce rcell, ll, used d in inste stead ad of channelGroupId is use subCellId
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channelId antlDN direction
struct resour struct resourceLis ceListt { subCellId, antlId, txRxUsage } repeaterDelay
shif ifte ted d to repeaterDelay is sh RMOD/ANTL
txRxUsage removed used d ins instea tead d direction use can n be se sett to ei eith ther er TX or RX bu butt no nott to to direction ca TXRX, there therefore fore for each resour resourceLis ceListt with txRXUs txR XUsage age == TXRX, TXRX, two CHA CHANNE NNEL L instances instances hav have e to be cre create ated, d, one wit with h dir direc ectio tion n = TX, and one wit with h
LTE and SRAN17A For LTE eNB can be: •
As standalone LTE17 (no (non n SBTS) SBTS) BTS -
HW info (SMOD,RMOD…) located in • •
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MRBTS/MNL/MNLENT/CELLMAPPING/LCELL
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MRBTS/MNL/MNLENT/CELLMAPPING/LCELL
Transport generic parameters located in SingleOAM BTS object model •
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MRBTS/EQM/APEQM/RMOD MRBTS/EQM/APEQM/CABINET/SMOD MRBTS/EQM/APEQM/CABINET/BBMOD
Local cell info (LCELL…) located in •
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eNB
WBTS17
BTS
HW info (SMOD,RMOD…) located in •
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BSC
MRBTS/LNBTS/FTM
As part of SRAN17A BTS -
RN C
Transport info (TNL…) located in •
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BTS MED MED
Local cell info (LCELL…) located in •
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MRBTS/EQM/APEQM/RMOD MRBTS/EQM/APEQM/CABINET/SMOD MRBTS/EQM/APEQM/CABINET/BBMOD
MRBTS/TNLSVC
Transport LTE specific parameters located in SingleOAM BTS object model •
MRBTS/LNBTS/TRSNW
SRAN17A
MO tree LNBTS and child MOCs changes – remodeling 1/3 •
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In the LNBTS and LNCEL MOCs new param parameters eters are added in xL17 to define technology technology used for the particular particular cell These new parameters are a first step of introduction multiLTE229 2294 4 FDD technology support coming in release 17A with LTE TDD Coexistence within one (logical) eNB functionality
MRBTS EQM EQM_R MNL
MRBTS LNBTS LNCEL
LNBTS supportedCellTechnology
LNCEL CellTechnology
MO tree LNBTS and child MOCs changes – remodeling 2/3 •
As a consequence of technology distinguish in LNBTS and LNCEL MOCs some parameters are moved to new dedicated MOCs (_FDD and _ TDD postfix respectively) -
Parameter that are exclusive in FDD or TDD are moved to LNBTS_FDD or LNCEL_FDD resp. LNBTS_TDD or LNCEL_TDD
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Parameter which are from range and / or inter-parameter relation extreme divergent or belonging to a set of parameter for one functional configuration (e.g. MIMO) are moved to LNCEL_FDD resp. LNCEL_TDD
LNBTS supportedCellTechnology
‚FDD’ or ‚TDD’ only in xL17, starting from 17A ‚FDD’ or ‚TDD’ or ‚mixed_FDD_TDD mixed_FDD_TDD*’ *’
LNBTS_FDD LNBTS _FDD LNBTS_TDD LNBTS_ TDD LNCEL CellTechnology
LNCEL_FDD LNCEL _FDD LNCEL_TDD LNCEL _TDD
‚FDD’ or ‚TDD’
MO tree LNBTS and child MOCs changes – remodeling 3/3 •
Similar rules as for LNCEL LNCEL apply per MO LNCEL childs -
Techno Tec hnolog logyy spe specif cific ic class classes es are are relate related d to the cor corres respon pondin ding g techno technolog logyy cell cell
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For commo common n classes classes in wider wider parts parts differe different, nt, the the classes classes will will become become technolog technologyy specific specific (->APU (->APUCCH, CCH, MPUCCH MPUCCH))
… LNCEL
LNCEL_FDD LNCEL _FDD MPUCCH_FDD MPUCCH _FDD APUCCH_FDD APUCCH _FDD LNCEL_TDD LNCEL _TDD MPUCCH_TDD MPUCCH _TDD APUCCH_TDD APUCCH _TDD
WCDMA and SRAN17A For WCDMA WBTSs can be: •
As standalone WBTS17 -
WCDMA Radio parameters and HW info, local cell info, transport parameters located in WBTS under RNC HW info (SMOD,RMOD…) located in •
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Local cell info (LCELW, LCELGW…) located in •
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WBTS/MRBTS/SMOD WBTS/MRBTS/RMOD
WBTS/MRBTS/BTSSCW/LCELW WBTS/MRBTS/BTSSCW/LCELGW
BTS MED
RN C
As part of SRAN17A BTS -
Similar as for SRAN16.x WBTS17 WCDMA Radio parameters are still located in WBTS under RNC WCDMA HW info, local cell, transport parameters info is now defined in SingleOAM BTS object model HW info (SMOD,RMOD…) located in SingleOAM BTS object model •
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Local cell info (LCELW, LCELGW…) located in SingleOAM BTS object model •
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MRBTS/EQM/APEQM/RMOD MRBTS/EQM/APEQM/CABINET/SMOD MRBTS/EQM/APEQM/CABINET/BBMOD
MRBTS/WNBTS/WNCEL MRBTS/WNBTS/WNCELG
Transport located in SingleOAM BTS object model •
MRBTS/TNLSVC
BSC eNB
BTS
SRAN17A
MO tre tree e WNB WNBTS TS •
Object Model changes (compared to WCDMA16) – moved parameters
MRBTS(SRAN17A)
MRBTS(WBTS16)
WNBTS BTSSCW
numberOfCCCHSet numberOfHSDPASet1 numberOfHSDPASet2 numberOfHSDPASet3 numberOfHSUPASet1 ….
LCELW
LCELGW
maxCarrierPower resourceList hspaSetting …
WNCEL WNCELG WNPMRNL MNLENT CELLMAPPING LCELW CHANNELGROUP CHANNEL
GSM and SRAN17A For GSM BCF can be: •
As standalone BCF -
GSM Radio parameters and HW info, local cell info, transport parameters located in BCF under BSC HW info (SMOD,RMOD…) located in •
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BTS MED
Local cell info (LCELC…) located in •
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BCF/MRBTS/SMOD BCF/MRBTS/RMOD
BCF/MRBTS/BTSSCC/LCELC
RN C
As part of SRAN17A Singl SingleOAM eOAM BTS -
Similar as for SRAN16.x GSM Radio parameters are still located in BCF under BSC WBTS17 BTS object model GSM HW info, local cell, transport parameters info is now defined in SingleOAM BTS HW info (SMOD,RMOD…) located in SingleOAM BTS • •
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Local cell info (LCELC…) located in SingleOAM BTS •
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MRBTS/EQM/APEQM/RMOD MRBTS/EQM/APEQM/CABINET/SMOD MRBTS/EQM/APEQM/CABINET/BBMOD
MRBTS/GNBTS/GNBCF MRBTS/GNBTS/GNBCF/GNCEL
Transport located in SingleOAM BTS •
MRBTS/TNLSVC
BSC eNB
BTS SRAN17A
MO tre tree e GN GNBTS BTS •
Object Model changes (compared to GSM16) – moved parameters
MRBTS(SRAN17A)
MRBTS(GSM16)
GNBTS
BTSSCC
GNBCF LCELC BTSSCG
txPowerPooling perTrxPower ….
BTSNE bcfId bscId …
GNCEL CARRIERGROUPC_R
SBTS17A Commissioning and Integration
SBTS17A Commissioning and Integration •
The commissioning of SBTS17A is done by modifying and upload SCF xml file according to the need. Modify XML SCF to contain correct SBTS parameters (MRBTS ID, SMOD, BBMOD, RMOD, ANT, IP addresses, Cell ids, earfcn(s), etc …) and upload it to the SBTS.
SBTS17A Commissioning and Integration Important Parameters for SCF Creation ---Common parameters •
MRBTS-id
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btsName
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enbName
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btsName is show up on Browser(WEB Element Element Manager). Manager).
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enbName enbNa me is used for SCFC file file naming when when you want to save it.
SBTS17A Commissioning and Integration Important Parameters for SCF Creation ---Common parameters •
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FSMF config configuratio uration n --- BBMOD-i BBMOD-id, d, prodCod prodCodePla ePlanned, nned, SMOD-id SMOD-id,, prodCo prodCodePla dePlanned, nned, TRMOD, prodCodePlanned
AirScale configu AirScale configuration ration --- BBMOD-i BBMOD-id, d, prodCod prodCodePla ePlanned, nned, SMOD-id SMOD-id,, prodCo prodCodePla dePlanned, nned, positionInSubrack
SBTS17A Commissioning and Integration Important Parameters for SCF Creation ---Common parameters •
RMOD-id, prodCodePlanned
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ANTL-id, antPortId, vswrMajorThreshold, vswrMinorThreshold
SBTS17A Commissioning and Integration Important Parameters for SCF Creation ---Common parameters •
RSL-id (every RMOD need to configuration one RSL)
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CABLINK-id (physical link definition for RRU connection)
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firstEndpointLabel, secondEndpointLabel
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firstEndpointPortId, secondEndpointPortId
SBTS17A Commissioning and Integration Important Parameters for SCF Creation ---Common parameters •
CABLINK-id (physical link definition for BB extension connection)
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firstEndpointLabel, firstEndpointPortId, secondEndpointLabel
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definition Note: Although AirScale BB communication used back panel, but it still need to definition the connection.
SBTS17A Commissioning and Integration Important Parameters for SCF Creation ---GSM Special parameters •
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bcfId, bscId, mPlaneLocalIpAddressDN, mPlaneRemoteIpAddressOmuSig, sctpPortOmuSig GNCEL-id, lcelcId, perTrxPower
SBTS17A Commissioning and Integration Important Parameters for SCF Creation ---LTE&NB Special parameters •
LNBTS-id
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mcc, mnc, mncLength
SBTS17A Commissioning and Integration Important Parameters for SCF Creation •
NB Special parameters
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LNCEL-id,
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cellTechnology,
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grpAssigPUSCH,
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lcrId,
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nbIoTMode,
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pMax,
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phyCellId,
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tac
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ulRsCs
SBTS17A Commissioning and Integration Important Parameters for SCF Creation •
NB Special parameters
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DRX-0
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SDRX-0
SBTS17A Commissioning and Integration Important Parameters for SCF Creation •
NB Special parameters
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NBIOT_FDD-0
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dlChBw, dlMimoMode, maxCoverageMCL, nbIoTProfId, numCoverageLevels, standaloneEarfcnDL, standaloneEa rfcnDL, standaloneEar standaloneEarfcnUL, fcnUL, ulChBw
SBTS17A Commissioning and Integration Important Parameters for SCF Creation •
NB Special parameters
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SIB-0
SBTS17A Commissioning and Integration Important Parameters for SCF Creation •
NB Special parameters
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NBIOTPR-id, cpInactivity cpInactivityTimerNB, TimerNB, nprachCpLen,
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cssProfNBNorCov, cssProfNBRobCov, cssProfNBExtCov
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macProfNBNorCov, macProfNBRobCov, macProfNBExtCov
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nprachProfNBNorCov, nprachProfNBRobCov, nprachProfNBExtCov
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rachProfNBNorCov, rachProfNBRobCov, rachProfNBExtCov
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rlcProfNBNorCov, rlcProfNBRobCov, rlcProfNBExtCov
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schedProfNBNorCov, schedProfNBRobCov, schedProfNBExtCov
SBTS17A Commissioning and Integration Important Parameters for SCF Creation •
LTE Special parameters
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LNCEL-id,
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cellTechnology,
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grpAssigPUSCH,
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lcrId,
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nbIoTMode,
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pMax,
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phyCellId,
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tac
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ulRsCs
SBTS17A Commissioning and Integration Important Parameters for SCF Creation •
LTE Special parameters
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DRX-0
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SDRX-0
SBTS17A Commissioning and Integration Important Parameters for SCF Creation •
LTE Special parameters
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SIB-0
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IFGDPR-0, LNCEL_FDD-0
•
dlChBw, earfcnDL, earfcnUL, prachCS, prachConfIndex, rootSeqIndex, ulChBw
SBTS17A Commissioning and Integration Important Parameters for SCF Creation •
LTE Special parameters
•
MPUCCH_FDD-0, APUCCH_FDD-0
SBTS17A Commissioning and Integration Important Parameters for SCF Creation ---LTE&NB Special parameters •
LNMME-id, administrativeState, ipAddrPrim, mmeRatSupport
SBTS17A Commissioning and Integration Important Parameters for SCF Creation ---LTE&NB Special parameters •
PMRNL-1 (just check it, no need to change anything)
SBTS17A Commissioning and Integration Important Parameters for SCF Creation •
TRSNW-1
•
ipV4AddressDN1
SBTS17A Commissioning and Integration Important Parameters for SCF Creation •
LCELC-id, LCELL-id, LCELW-id, CHANNELGROUP-id
•
For example, the GSM has 3 local cells, every cell has 4 TRX.
SBTS17A Commissioning and Integration Important Parameters for SCF Creation •
GSM CELLMAPPING
•
CHANNEL-id, antlDN, direction
SBTS17A Commissioning and Integration Important Parameters for SCF Creation •
FDD-LTE or NB-IoT CELLMAPPING
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CHANNEL-id, antlDN, direction
SBTS17A Commissioning and Integration Important Parameters for SCF Creation •
WCDMA CELLMAPPING
•
CHANNEL-id, antlDN, direction
SBTS17A Commissioning and Integration Important Parameters for SCF Creation ---Common parameters •
cmpCrlSrcIpAddressDN, mPlaneIpAddressDN, oamPeerIpAddress, reportingIntervalPm,
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actServiceAccountSsh, actServicePortState, ethernetPortSecurityEnabled
SBTS17A Commissioning and Integration Important Parameters for SCF Creation ---SYNC Special parameters •
btsSyncMode, sModDN, syncInputPrio, syncInputType
•
btsSyncMode: FreqSync, PhaseSync
•
syncInputTy syncInp utType: pe: - 1pp 1pps/To s/ToD D fro from m Sync Hub Hub Master Master - 1pp 1pps/To s/ToD D fro from m external external GNSS GNSS receiver recei ver - intern internal al GNSS GNSS receive receiverr - 2.048MH 2.048MHzz input input – TRS - 1pp 1pps/To s/ToD D from bac backpl kplane ane PDHPD H-1 1 - PD PDHH-2 2 - SY SYNCE NCE-1 -1 - SY SYNC NCE-2 E-2 – TOP TOPF F - TOP TOPP P
SBTS17A Commissioning and Integration Important Parameters for SCF Creation ---SYNC Special parameters •
•
syncMaster, gnssCableLength, gnssControlMode, ntpServerIpAddrList
gnssControlMode: GPS only, GLONASS only, Beidou only, GLONASS-Beidou, GPSGLONASS, GPS-Beidou
SBTS17A Commissioning and Integration Important Parameters for SCF Creation ---SYNC Special parameters •
sPlaneIpAddressDN, masterIpAddr, syncMessageRate, timeZone
SBTS17A Commissioning and Integration Important Parameters for SCF Creation ---TRS Special parameters •
VLANIF-id, ETHLK-id, connectorLabel, modDN
SBTS17A Commissioning and Integration Important Parameters for SCF Creation ---TRS Special parameters •
IPIF-id, interfaceDN, IPADDRESSV4-id, localIpAddr, localIpPrefixLength
SBTS17A Commissioning and Integration Important Parameters for SCF Creation ---TRS Special parameters •
IPRT-1, destIpAddr, destinationIpPrefixLength, gateway
SBTS17A Commissioning and Integration Important Parameters for SCF Creation ---WCDMA Special parameters •
identifier(“identifier” should match with IPBR ID in the RNC) , ipV4AddressDN, sctpPortMin, identifier(“identifier” sctpFarEndSubnetIpAddress, sctpFarEndSubnetPrefixLength
SBTS17A Commissioning and Integration Important Parameters for SCF Creation ---WCDMA Special parameters •
WNCEL-id, defaultCarrier, lCelwDN, maxCarrierPower, mimoType
•
WNCELG-id, cellGroupName, wncelIdList
SBTS17A Commissioning and Integration Important Parameters for SCF Creation ---WCDMA Special parameters •
WNPMRNL-1
•
If we have WCDMA technology, we need to add it.
SBTS17A Commissioning and Integration Open Web Element manager manager (ADMIN) by typing url: htt https://1 ps://192.1 92.168.2 68.255.1 55.129 29 in the brow browser ser Per default Username: Nemuadmin and password: nemuuser Click on Configuration Configuration Tab and select Parameter Editor Editor Choose load SCF and browse where prepared SCF is stored Wait NIDD validation Succeeded (if fails errors will be prompted describing the cause) Click on Deploy Click on Activate ( this will deploy SCF and activate it directly)
WEB Element Manager
WebEM Web EM for SBT SBTS S Introduction WebEM replaces BTS Site Manager Manager for SBTS Can be used both locally and remotely Works with a standard Web browser(Chrome prefer) No need to install additional SW on the client side New tool with modern user interface and high usability
• • • • •
http(s) SOAM
LTE
TRS SBTS
WCDMA
GSM
BTS Platform SW
SRAN Overview WebEM – SBTS View
SRAN17A SW Upgrade Path
SRAN17A Upgrade Path •
We have verified the upgrade path are as below:
•
FDSW1.3 can upgrade to SRAN17A directly verified
•
FL17A 3.1TD/4.0TDSRAN17A verified
•
SRAN16.2 3.0/SRAN16.10 3.0SRAN17A verified(still have pronto) –
MRBTS ID: SBTS::sbtsDescription SBTS:: sbtsDescription
–
BTSMED IP address: DNS::serverIpAddressSecondary DNS::serverIpAddressSecondary
•
WCDMA17 1.0SRAN17A not verify
•
GSM17 1.0SRAN17A not verify
Offline SCF conversion from dedicated RAT BTS to SBTS17A
Introduction Offline SCF conversion from dedicated RAT BTS to SBTS17A Feature scope Legacy RAT SCF (LTE, WCDMA, GSM)
Legacy SRAN SRAN16.2 SRAN16.10
RP001420 Offline SCF conversion
SBTS17 SCF
RP001062 SRAN 17 release upgrade from older SRAN releases
SBTS17 SCF
Introduction Offline SCF conversion from dedicated RAT BTS to SBTS17A FL16 (FSMF)
LTE
FL16A (FSMF)
FL17A (FSMF)
WCDMA GSM Under discussion
WBTS16 (FSMC/D/E/F) WBTS17 (FSMC/D/E/F)
GF16 (FSMF)
RP001420 Offline SCF conversion
GF17 (FSMF) LTE+GSM LTE+WCDMA GSM+WCDMA LTE+GSM+WCDMA
This includes also released Maintenance/Service SW Packages (MPx, SPx)
SBTS17A
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