01 RN31672EN30GLA1 RANPAR Combined Parameter Configuration v2.0 RU40

Parameter Configuration1 © Nokia Siemens Networks RN31672EN30GLA1 Parameter Configuration: Module Objectives At the end of the module you will be able to: • Recall the NSN RNC parameter database structure • Name and describe the different Managed Object types • Explain the usage of parameter templates • Explain how parameters are updated and maintained in NSN RAN 2 © Nokia Siemens Networks RN31672EN30GLA1 Logical Structure of the RNC Database Objects COSITE VCEL VBTS RNC Various feature objects COSRNC IUx RNx IPQM WRAB COCO HOPG IPNB WBTS HOPI TQM HOPS FMCS ADJD FMCI ADJS WCEL FMCG ADJI ADJG/L 3 WAC © Nokia Siemens Networks RN31672EN30GLA1 RNC object structure with IUx. features objects WSG WANE WLCSE CMOB WSMLC CBCI PFL RNC RNAC RNPS RNFC RNRLC RNHSPA RNTRM RNMOBI IUCS IUPS IUR IUCSIP IUPSIP WANE = WCDMA Authorized Network 4 © Nokia Siemens Networks RN31672EN30GLA1 WSG = WCDMA subscriber group WLCSE = WCDMA Location service entity CMOB = Congestion Management OBject WSMLC = WCDMA Serving Mobile Location Center . RNx. FMCG • PFL = Preferred Frequency Layer 5 © Nokia Siemens Networks RN31672EN30GLA1 . HOPI. HOPG • IUPS/IUCS = Iu-CS / Iu-PS interfaces • FMC = Frequency Measurement Control • WAC – WCEL Admission Control FMCS. FMCI.New Objects / Managed Object types • CBCI – cell broadcast center information • PFL – preferred frequency layer for different UE capability • WAC – UL load control AC and several state transition control parameters • VBTS – Virtual BTS • VCEL – Virtual cell • COSITE/COSRNC – co-siting objects • RNC = Radio Network Controller • COCO = Radio Network Connection Configuration • WBTS = WCDMA Base Station • CMOB = Congestion Management OBject • WCEL = WCDMA Cell • WANE = WCDMA Authorized Network • ADJ = Adjacency for WCDMA cell • WSG = WCDMA subscriber group • ADJS = intra-frequency adjacency • WLCSE = WCDMA Location service entity • ADJI = inter-frequency adjacency • WSMLC = WCDMA Serving Mobile Location Center • ADJG = inter-system adjacency GSM • IPNB = IP NodeB • ADJL = inter-system adjacency LTE • IPQM = IP transmission QoS • ADJD = detected adjacency • TQM = Transmission Quality Management • HOP = Handover Path • WRAB = WCEL RAB parameters • HOPS. COSITE VCEL VBTS RNC Various feature objects COSRNC IPQM IUx RNx WRAB COCO HOPG Remark: IPNB WBTS HOPI from RU30 on. FMCI ADJS WCEL RNPS.: FMCS ADJD RNC. the RNC object is split into TQM HOPS several new Object types. RNAC. Iu-CS & Iur • The logical object are hierarchically related to each other.RNC Object • The logical object of the Radio Network Controller • It can have up to 2800 WBTS objects (requires RNC 2600) • In the RNC object the following interfaces are defined: Iu-PS. RNHSPA. RNTRM FMCG ADJI ADJG/L WAC 6 © Nokia Siemens Networks RN31672EN30GLA1 . RNMOBI. e. RNRLC. RNFC.g. therefore it is not possible to create any other object before RNC creation. RNC Object RNx (Radio Network) objects are just created once per RNC object with no identifiers •RNAC – for Admission Control •RNFC – for Feature Control (Enabling parameters for all features) •RNHSPA – for High Speed Packet Access •RNMOBI – for Mobility •RNPS – for Packet Scheduler (DCH Packet Scheduler) •RNRLC – for Radio Link Control (Mainly AM RLC parameters) •RNTRM – for Transmission (Transport Bearer Tuning and Streaming QoS for HSPA) WSG WANE WLCSE CMOB WSMLC CBCI PFL RNC RNAC RNPS RNFC RNRLC RNHSPA RNTRM RNMOBI IUC IUP IUR S S IUCSIP IUPSIP 7 © Nokia Siemens Networks RN31672EN30GLA1 . ADJG/L • The maximum number of VBTS objects in the RNW database is one. TQM HOPS • VBTS FMCS ADJD • Common configuration (virtual base station) for all WCDMA and I-HSPA FMCI ADJS base stations controlled by WCEL neighbouring network elements. WRAB. [cRNC] • VCEL • Common configuration (virtual cell) VCEL VBTS COSITE for all WCDMA and I-HSPA cells RNC controlled by neighbouring network Various feature objects COSRNC elements IUx RNx IPQM WRAB • VCEL object has also a relation to IUCS. IUPS. FMCG ADJI • VBTS is an optional object. • The maximum number of VCEL IPNB WBTS HOPI objects in the RNW database is one. • COSRNC object contains parameters which need to be individually configured for each RNC in co-site pair. • Co-siting objects can be created only after RNC along with all its sub-objects are created. • VCEL is an optional object.RNC Object • COSITE/COSRNC • COSITE object contains parameters which are of common significance to all co-site pairs within the RNC. FMCS/I/G and COCO HOPG HOPS/I/G objects. WAC 8 © Nokia Siemens Networks RN31672EN30GLA1 . WBTS Object • The logical object of the WCDMA Base Station (Node B). WBTS connects to 1 TQM object COSITE VCEL VBTS RNC Various feature objects COSRNC IPQM IUx RNx WRAB COCO HOPG IPNB WBTS HOPI TQM HOPS FMCS ADJD FMCI ADJS WCEL FMCG ADJI ADJG/L WAC 9 © Nokia Siemens Networks RN31672EN30GLA1 . and either 1 COCO (ATM transport) or 1 IPNB object (IP transport). • If Iub transport QoS is used. A WBTS can have up to 24 WCDMA cells. WCEL object • The logical object of the WCDMA Cell is created to define the configuration of the WCDMA Node B site. COSITE VCEL VBTS RNC Various feature objects COSRNC IPQM IUx RNx WRAB COCO HOPG IPNB WBTS HOPI TQM HOPS FMCS ADJD FMCI ADJS WCEL FMCG ADJI ADJG/L WAC 10 © Nokia Siemens Networks RN31672EN30GLA1 . In 1 RNC database there can be 2800 WCELs (or 4800 due to RAN1795: RNC 2600 coverage optimization solution). Handover Path HOPx • The Handover Path object stores mainly Cell Reselection & Intra-Frequency HHO parameters. • The maximum number of HOPx objects within 1 category is 100. for different type of cells (urban.g. • E. macro/micro/pico) • HOP Types: • HOPS — object for intra-frequency VCEL VBTS RNC COSITE Handover Path Various feature objects COSRNC IPQM IUx RN WRAB • HOPI — object for inter-frequency x HOPG Handover Path COCO IPNB WBTS • HOPG/L — object for inter-system HOPI TQM Handover Path (GSM/LTE) HOPS FMCS ADJD FMCI ADJS WCEL FMCG ADJI ADJG/L WAC 11 © Nokia Siemens Networks RN31672EN30GLA1 New . One HOPx can be related to several Adjacency objects. rural. HOPx Level Parameters Intra Frequency Inter Frequency Inter System IntraFreqNcellHCSpriority InterFreqNcellHCSpriority GSMncellHCSpriority IntraFreqNcellHCSthreshold InterFreqNcellHCSthreshold GSMncellHCSthreshold IntraFreqNcellQqualMin InterFreqNcellQqualMin GSMncellQrxlevMin IntraFreqNcellQrxlevMin InterFreqNcellQrxlevMin GSMncellPenaltyTime IntraFreqNcellPenaltyTime InterFreqNcellPenaltyTime GSMncellQoffset1 IntraFreqNcellQoffset1 InterFreqNcellQoffset1 GSMncellTempOffset1 IntraFreqNcellQoffset2 InterFreqNcellQoffset2 HOPGId IntraFreqNcellTempOffset1 InterFreqNcellTempOffset1 IntraFreqNcellTempOffset2 InterFreqNcellTempOffset2 EcNoAveragingWindow HOPIId EnableInterRNCsho EnableRRCRelease HHOMarginAverageEcNo HHOMarginPeakEcNo ReleaseMarginAverageEcNo ReleaseMarginPeakEcNo HOPSId Idle Mode Parameters Not a complete list 12 © Nokia Siemens Networks RN31672EN30GLA1 Handover Parameters . Adjacencies ADJx • Adjacencies for WCDMA cell refers to a Handover relationship between two cells. TQM HOPS 96 inter-system adjacencies (ADJG). IPNB WBTS HOPI 48 inter-frequency adjacencies (ADJI). 8 inter-system adjacencies (ADJL) & FMCS ADJD 32 detected intra-frequency adjacencies (ADJD) FMCI ADJS WCEL FMCG ADJI Handover Path objects must be created before ADJx can be used ADJG/L WAC 13 © Nokia Siemens Networks RN31672EN30GLA1 . They are defined for neighbouring cells. • ADJS — object for intra-frequency Adjacency • ADJI — object for inter-frequency Adjacency • ADJG/L — object for inter-system Adjacency (GSM/LTE) • ADJD — object for detected intra-frequency Adjacency COSITE VCEL VBTS RNC COSRN Various feature objects C IPQM IUx RN x WRAB COCO HOPG There can be: 31 intra frequency adjacencies (ADJS). Adjacencies (ADJx) Intra Frequency Inter Frequency Inter System IntraFreqNcellCI InterFreqNcellCI GSMncellBandIndicator IntraFreqNcellEcNoOffset InterFreqNcellLAC GSMncellBCC IntraFreqNcellDERR InterFreqNcellTxPwrRACH GSMncellBCCH IntraFreqNcellLAC InterFreqNcellMCC GSMncellCI IntraFreqNcellTxPwrRACH InterFreqNcellMNC GSMncellLAC IntraFreqNcellMCC InterFreqNcellMNCLength GSMncellTxPwrMaxRACH IntraFreqNcellMNC NrtHopiIdentifier GSMncellMCC IntraFreqNcellMNCLength InterFreqNcellScrCode GSMncellMNC HSDPAHopsIdentifier InterFreqNcellRNCid GSMncellNCC NrtHopsIdentifier InterFreqNcellRAC NrtHopgIdentifier IntraFreqNcellScrCode RtHopiIdentifier RtHopgIdentifier IntraFreqNcellRNCid InterFreqNcellTxDiv ADJGId IntraFreqNcellRAC InterFreqNcellUARFCN RtHopsIdentifier ADJIId IntraFreqNcellTxDiv ADJSId Not a complete list 14 © Nokia Siemens Networks RN31672EN30GLA1 . Detected Adjacencies (ADJD) Intra Frequency ADJDChangeOrigin (Change origin) Detected Set Reporting & Measurements: ADJDId (Identifier of additional intra-frequency optional features related to ADJD allow UE adjacency) AdjdCI (Cell Identifier) to report & handover to cells not included AdjdCPICHTxPwr (Primary CPICH power) in the neighbor list AdjdDERR (Disable Effect on Reporting Range) AdjdHSDPAHopsId (HSDPA HOPS identifier) DSRepBasedSHO AdjdLAC (Location Area Code) Detected Set Reporting Based SHO AdjdMCC (Mobile Country Code) FMCS. 0 = DSR not allowed. but SHO to detected cell not allowed AdjdMNC (Mobile Network Code) 2 = DSR based SHO enabled AdjdMNCLength (Mobile Network Code Length) AdjdNRTHopsId (NRT HOPS Identifier) AdjdRAC (Routing Area Code)AdjdRNCId (RNC Identifier) AdjdRTHopsId (RT HOPS Identifier) AdjdRTWithHSDPAHopsId (HSDPA HOPS identifier for AMR multi-service) AdjdScrCode (Primary Scrambling Code) AdjdTxDiv (Tx Diversity Indicator) ADJD = detected adjacency 15 © Nokia Siemens Networks RN31672EN30GLA1 DSR: Detected Set Reporting . 1 = DSR enabled. URA_PCH) • NRT bearer intra-frequency hard handovers • HSDPAHopsIdentifier defines the HOPS parameter set that is applied • For user having HS-DSCH allocated • RTWithHSDPAHopsIdentifier defines the HOPS parameter set that is applied • For user having HS-DSCH allocated simultaneously with AMR speech CS RAB 16 © Nokia Siemens Networks RN31672EN30GLA1 . I.Adjacencies (ADJx) to HOPx • Every adjacency definition contains links to HOPx parameter sets • RtHopxIdentifier defines the HOPx (x = S. G) parameter set that is applied • Idle mode cell-reselections • RT bearer intra-frequency hard handovers • NrtHopxIdentifier defines the HOPx (x = S. G) parameter set that is applied • Connected mode cell-reselections (CELL_FACH. CELL_PCH. I. • Max.Frequency Measurement Control • The FMC object contains information concerning the frequency measurement functionality of the RNC. • FMC Types: COSITE VCEL VBTS RNC • FMCS — object for intra-frequency Various feature objects COSRNC Frequency Measurement Control IPQM IUx RN WRAB x • FMCI — object for inter-frequency COCO HOPG Frequency Measurement Control IPNB WBTS HOPI • FMCG — object for inter-system TQM HOPS Frequency Measurement Control FMCS ADJD FMCI ADJS WCEL FMCG ADJI ADJG/L WAC 17 © Nokia Siemens Networks RN31672EN30GLA1 . • e. for different type of cells (urban. macro/micro/pico) • 1 FMC can be related to several WCDMA cells. rural.g. number of frequency measurement control objects within 1 category: 100. FMCX Level Parameters Threshold & Trigger Handover Cause ActiveSetWeightingCoefficient IFHOcauseCPICHEcNo GSMcauseCPICHEcNo AdditionReportingInterval IFHOcauseCPICHrscp GSMcauseCPICHrscp AdditionTime IFHOcauseTxPwrDL GSMcauseTxPwrDL AdditionWindow IFHOcauseTxPwrUL GSMcauseTxPwrUL EcNoFilterCoefficient IFHOcauseUplinkQuality GSMcauseUplinkQuality DropTime InterFreqDLTxPwrThrAMR GsmDLTxPwrThrAMR DropWindow InterFreqDLTxPwrThrCS GsmDLTxPwrThrCS MaxActiveSetSize InterFreqDLTxPwrThrNrtPS GsmDLTxPwrThrNrtPS ReplacementReportingInterval InterFreqDLTxPwrThrRtPS GsmDLTxPwrThrRtPS ReplacementTime InterFreqMaxMeasPeriod GsmMaxMeasPeriod ReplacementWindow InterFreqMeasAveWindow GsmMeasAveWindow HHoEcNoCancel InterFreqMeasRepInterval GsmMeasRepInterval HHoEcNoCancelTime InterFreqMinHoInterval GsmMinHoInterval HHoEcNoThreshold InterFreqMinMeasInterval GsmMinMeasInterval HHoEcNoTimeHysteresis InterFreqNcellSearchPeriod GsmNcellSearchPeriod HHoRscpCancel InterFreqUETxPwrFilterCoeff GsmUETxPwrFilterCoeff HHoRscpCancelTime InterFreqUETxPwrThrAMR GsmUETxPwrThrAMR HHoRscpFilterCoefficient InterFreqUETxPwrThrCS GsmUETxPwrThrCS HHoRscpThreshold InterFreqUETxPwrThrNrtPS GsmUETxPwrThrNrtPS HHoRscpTimeHysteresis InterFreqUETxPwrThrRtPS GsmUETxPwrThrRtPS IMSIbasedSHO InterFreqUETxPwrTimeHyst GsmUETxPwrTimeHyst FMCSId FMCIId FMCGId 18 © Nokia Siemens Networks RN31672EN30GLA1 Not a complete list . WCEL to FMCx 4x3+1+1 • Every WCEL definition contains links to max. G) defines FMCx parameter set applied for radio links with RT bearers • NrtFmcxIdentifier (x = S. 14 FMCx parameter sets • RtFmcxIdentifier (x = S. G) defines FMCx parameter set applied for radio links with only NRT bearers • HSDPAFmcxIdentifier (x = S. G) defines FMCx parameter set controlling measurements of a user having HS-DSCH allocated simultaneously with AMR speech CS RAB • HSPAFmcsIdentifier defines FMCS parameter set controlling measurements of a user having HS-DSCH & E-DCH allocated • RTWithHSPAFmcsIdentifier defines FMCS parameter set controlling measurements of a user having HS-DSCH & E-DCH allocated + AMR speech CS RAB 19 © Nokia Siemens Networks RN31672EN30GLA1 . I. I. I. G) defines FMCx parameter set controlling measurements of a user having HS-DSCH allocated • RTWithHSDPAFmcxIdentifier (x = S. I. WAC WAC: WCEL Admission Control • Cell-specific UL load control parameters (better cope with high UL load – mass events case) • Admission control parameters • Several state transition control parameters COSITE VCEL VBTS RNC Various feature objects COSRNC • 20 WAC objects can be configured IUx RN IPQM WRAB which include different sets of x parameters COCO HOPG • Each of WCEL and VCEL (for anchoring IPNB WBTS HOPI situations) can be associated with the selected WAC object using pointer TQM HOPS WACSetIdentifier added to WCEL and VCEL objects FMCS ADJD FMCI ADJS WCEL FMCG ADJI ADJG/L WAC 20 © Nokia Siemens Networks RN31672EN30GLA1 . WAC related parameters Parameters moved from RNC (RNC. RNAC. RNPS. RNHSPA) to WAC: • DCHUtilRelAveWin • InactNonCPCNoBatOptT • DCHUtilRelThrDL • InactivityTimerDownlinkDCH (structure of 8 parameters) • DCHUtilRelThrUL • InactivityTimerUplinkDCH (structure of 8 parameters) • DCHUtilRelTimeToTrigger • MACdflowthroughputAveWin • EDCHMACdFlowThroughputAveWin • MACdflowutilRelThr • EDCHMACdFlowThroughputRelThr • MACdflowutilTimetoTrigger • EDCHMACdFlowThroughputTimetoTrigger • MSActivitySupervision • HSDPAInitialBRULStrNRT • PrxNoiseMaxTuneAbsolute • HSDPAMinBRULStrNRT • TrafVolPendingTimeDL • HSDPAinitialBitrateUL • TrafVolPendingTimeUL • HSDPAminAllowedBitrateUL • TrafVolThresholdULLow • InactCPCBatOptT • UL_DL_activation_timer • InactCPCNoBatOptT • WaitTimeRRC (structure of 12 parameters) • InactNonCPCBatOptT New Parameters added to WAC object: • WACId • WACChangeOrigin New Parameter added to WCEL and VCEL: • WACSetIdentifier Parameter moved from WCEL/VCEL to WAC object: • HSDPAMaxBitrateUL 21 © Nokia Siemens Networks RN31672EN30GLA1 . FMCS ADJD NBAP • DiffServ Code Points FMCI ADJS WCEL FMCG ADJI ADJG/L WAC 22 © Nokia Siemens Networks RN31672EN30GLA1 . but not the actual network topology • There can be up to 400 COCO objects in the RNW database COSITE VCEL VBTS RNC Various feature objects COSRNC IPNB: IP Node B IPQM IUx RN x WRAB • When IP transport is used on Iub. • The COCO objects display the transmission resources in the Iub interface. the COCO HOPG IPNB object collects related parameters IPNB WBTS HOPI like: • IP address of NodeB TQM HOPS • SCTP port numbers of C-NBAP and D.COCO / IPNB COCO: Connection Configuration • A new logical COCO object is created in order to reserve local transmission resources for the WCDMA BTS. the IPNB object provides Activity Factors for transport bearers and mapping tables between various QoS parameters • The max number of TQM managed objects is 4.TQM / WRAB TQM: Transmission Quality Management • when Iub Transport QoS is used. COSITE VCEL VBTS RNC Various feature objects COSRNC IUx RN WRAB: WCEL RAB parameters IPQM x WRAB • A WRAB object contains the connection based COCO HOPG quality control parameters. Parameters define WBTS IPNB HOPI the service bearer and signalling bearer specific quality targets and related power TQM HOPS control thresholds for each transport channel FMCS ADJD configuration FMCI ADJS • WCEL refers to WRAB via EbNoSetIdentifier WCEL parameter FMCG ADJI • there can be 5 WRAB per RNC ADJG/L WAC 23 © Nokia Siemens Networks RN31672EN30GLA1 . in case of disasters or COCO HOPG large events IPNB WBTS HOPI • acts only on Access Classes 0 to 9 TQM HOPS ACBarredListSystem ADJD CMOB-Congestion CMOBChangeOrigin Management object CMOBId FMCS ADJS CMOBTimeStamp WCEL FMCI ADJI CellAccessRestriction RestrictionGroupName FMCG ADJG/L RestrictionGroupType TrafficRestriction WAC 24 © Nokia Siemens Networks RN31672EN30GLA1 .g. each IU object selects 1 IPQM as template CMOB: Congestion Management OBject • contains parameters for the WCDMA RAN Access Regulation feature WSG WANE WLCSE • this allows to temporarily bar certain CMOB RNC WSMLC IUCS/IUPS IUR IPQM Access Classes from accessing the WRAB network e.IPQM / CMOB IPQM: IP Quality Management • is used. if IP transport is used on Iu interfaces • it maps traffic classes to DiffServ Code Points (DSCP) which are used to maintain transport QoS • there can be 8 IPQM per RNC. CovType. WLCSEid 25 © Nokia Siemens Networks RN31672EN30GLA1 .WANE & WSG / WSMLC & WLCSE Objects IMSI BASED HO / LOCATION BASED SERVICE • WANE & WSG MO groups are for the IMSI Based HO. RepeaterExist WSMLCid WLCSEChangeOrigin WLCSEUtranCellId. which is optional feature • WANE set contain PLMN id where UE is allowed to make handover • WSG object should be created to every subscriber (PLMN id) visiting in network and it maps subscriber (PLMN id) to certain WANE sets AuthorisedNetworkId GSMRoaming AuthorisedNetworkList HomePLMN WSG- WANE. AntHPBW WSMLC-WCDMA AntennaCoord. LCS is RAN04 feature • WSMLC: WCDMA Serving Mobile Location Center. AuthorizedNetwork PLMN HomePLMNMCC WCDMA WCDMA AuthorizedNetworkMCC HomePLMNMNC subscriber Authorised AuthorizedNetworkMNC HomePLMNMNCLenght group Networks AuthorizedNetworkMNCLengh OperatorName Parameters Parameters Technology SubscriberGroupid WANEChangeOriging WSGAuthorisedNetworkId WANEName WSGChangeOriging • WSMLC & WLCSE object groups are for Location based service. represent a logical object with WCEL specific location parameters ConfAreaLevel AntennaBearing. WLCSE-WCDMA RNCDelayTolRespTime Location Service Entity Serving RNCLowDelayResponseTime EnvCharact. MaxCellBackRad Mobile Location Center WSMLCChangeOrigin MaxCellRad. represents a logical object with RNC specific mobile location center parameters • WLCSE: WCDMA Location service entity. • The maximum number of CBCI objects is 4.CBCI / PREBTS/ PFL CBCI: Cell Broadcast Centre • CBCI object maintains the data to the cell broadcast centre used in the service area broadcast features. • CBCI parameters can be configured only if Service Area Broadcast Protocol (SABP) is in use. RNRLC RNHSPA • Max number of PFL objects is 50 in the RNTRM RNMOBI RNC IUCS IUP IUR S 26 © Nokia Siemens Networks RN31672EN30GLA1 IUCSIP IUPSIP . RNPS RNFC • PFL object is under RNC object. PFL: Preferred Frequency Layer WSG WANE WLCSE • PFL object is created in order to define WSMLC CMOB preferred frequency layers for different UE capability and service combinations CBCI PFL • The PFL object can be created only when RNC feature RAN2172: Multi-Band Load RNAC Balancing has been installed in the RCN. FMCSid = 2 FMCS HOPS (HS(D)PA) ADJDid = 1 HOPSid = 7 (HSDPA) FMCS parameters could be defined on a Serving cell type FMCSid = 2 FMCS HOPS HOPSid = 3 basis (e.) HSDPAFmcsIdentifier = 50 FMCSid = 1 FMCS HOPS HOPSid = 1 Each WCEL has (NRT) (NRT) associated 1 FMCS for NRT & 1 for RT & FMCSid = 1 FMCS HOPS ADJD HOPSid = 5 2 for HS(D)PA. sets can be reused for other cells. 1 for RT RtFmcsIdentifier = 40 & 2 for HSDPA. urban. HOPS parameters could be defined on a Target cell NrtHopsIdentifier = 1 type basis (e. urban. macro/micro/pico) (RT&HS(D)PA) (RTwHSDPA) 27 © Nokia Siemens Networks RN31672EN30GLA1 .g. all (RT) (RT) can be reused for other cells. rural. HOPS Summary macro/micro/pico) RtHopsIdentifier = 2 (RTwHSDPA) HOPSid = 3 HSDPAHopsIdentifier = 6 WCEL RTwithHSDPAHopsIdentifier = 3 HOPS HOPSid = 1 (NRT) ADJS HOPS HOPSid = 2 (RT) WBTS WCEL ADJSid = 1 HOPS HOPSid = 6 (HSDPA) NrtFmcsIdentifier = 3 WCEL Each ADJS has associated 1 HOPS for NRT.g. rural. Parameter count Group MO Class ADJD HC 16 SI 0 PS 0 AC 0 PC 0 LC 0 Ident 1 Other 1 Grand Total 18 • Ref: RNC Common ADJG 15 0 0 0 0 0 1 1 17 ADJI 21 0 0 0 0 0 1 1 23 Production 2.0) HOPI 14 9 0 0 0 0 1 1 25 HOPL 4 0 0 0 0 0 1 1 6 HOPS 7 9 2 0 0 0 1 1 20 IPNB IPQM 0 0 0 0 0 0 0 0 0 0 0 0 0 1 16 7 16 8 • 470 hidden IUCS IUCSIP 0 0 0 0 0 0 0 0 0 0 0 0 6 1 15 5 21 6 parameters for cRNC 0 2 0 2 0 0 16 9 29 IUO IUPS 0 0 0 0 0 0 7 13 20 product (RN7.0) IUPSIP 0 0 0 0 0 0 0 6 6 IUR 2 0 2 2 0 0 4 29 39 PFL 92 0 0 0 0 0 1 1 94 RNAC 0 0 0 54 26 9 1 3 93 RNC 2 24 0 5 0 0 7 51 89 RNFC 13 1 15 9 2 1 1 15 57 RNHSPA 11 0 184 27 0 0 1 8 231 RNMOBI 61 0 11 8 2 0 1 11 94 RNPS 0 0 100 0 0 0 1 1 102 RNRLC 0 0 2 196 0 0 1 1 200 RNTRM 0 0 0 0 0 0 1 103 104 TQM 0 0 0 0 0 0 0 139 139 VBTS 7 0 1 1 0 0 1 1 11 VCEL 31 0 8 8 1 0 3 2 53 WAC 0 0 38 16 0 1 1 3 59 WANE 7 0 0 0 0 0 0 1 8 WBTS 6 0 11 33 0 6 9 67 132 WCEL 97 73 97 101 28 26 14 57 493 WLCSE 0 0 0 0 0 0 5 23 28 WRAB 0 0 0 96 0 0 1 1 98 WSG 8 0 0 0 0 0 0 1 9 WSMLC 0 0 0 0 0 0 1 32 33 Grand Total 525 122 471 558 59 43 105 771 2654 28 © Nokia Siemens Networks RN31672EN30GLA1 .0 ADJL 1 2 0 0 0 0 1 1 5 ADJS CBCI 19 0 0 0 0 0 0 0 0 0 0 0 1 1 1 6 21 7 parameter dictionary CMOB 0 2 0 0 0 0 1 4 7 COCO 0 0 0 0 0 0 2 119 121 COSITE COSRNC 0 0 0 0 0 0 0 0 0 0 0 0 1 3 2 7 3 10 • 2654 visible FMCG 30 0 0 0 0 0 1 1 32 FMCI 25 0 0 0 0 0 1 1 27 parameters for cRNC FMCS 25 0 0 0 0 0 1 1 27 HOPG 11 0 0 0 0 0 1 1 13 product (RN7. 1. 33 dBm (Range. Step.Parameter Dictionary RAS06 Example: Parameters & Values described in the following: PtxPrimaryCPICH -10. 0.50.. Default) 29 © Nokia Siemens Networks RN31672EN30GLA1 . analysis and OMS Element Manager new in RU30 activation tools recommended Netact Database Recommended RNW Database 30 © Nokia Siemens Networks RN31672EN30GLA1 .Parameter management .Overview • Radio network parameters are managed via Netact OSS or directly via Element Manager functionality • Usage of Netact plan Netact CM tools edit. OMS Element Manager GUI .General 31 © Nokia Siemens Networks RN31672EN30GLA1 . OMS Element Manager GUI .Fields Parameter group tabs 32 © Nokia Siemens Networks RN31672EN30GLA1 . OMS Element Manager GUI – Example • An overview page can be opened for WBTSs within RNC-26 by right-clicking on WBTSs object on the objects pane on left (new tab for this page is added above) 33 © Nokia Siemens Networks RN31672EN30GLA1 . OMS Element Manager GUI – Example (Main parameters -RNC) • Main parameters of the selected object can be viewed by right-clicking on the object on left pane and click on “Show main parameters” 34 © Nokia Siemens Networks RN31672EN30GLA1 . RNC) • Accordingly below tab will be shown. for the main parameters of RNC-26 35 © Nokia Siemens Networks RN31672EN30GLA1 .OMS Element Manager GUI – Example (Main parameters . OMS Element Manager GUI – Example (All parameters .FMCS) • Similarly. all parameters can be shown or edited as follows in FCMS-1 36 © Nokia Siemens Networks RN31672EN30GLA1 . parameters can be editable as shown 37 © Nokia Siemens Networks RN31672EN30GLA1 .OMS Element Manager GUI – Example (Edit parameters) • After clicking on Edit parameters. 38 © Nokia Siemens Networks RN31672EN30GLA1 . as an RU30 new object.OMS Element Manager GUI – Example (RNFC) • RNFC (Radio Network Feature Control). contains all the enabling (switch) parameters for all the supported features.