02 RN31632EN40GLA0 RANPAR1 Parameter Configuration v1.0 RU40
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Transcript of 02 RN31632EN40GLA0 RANPAR1 Parameter Configuration v1.0 RU40
1 © Nokia Siemens Networks RN31632EN40GLA0
Parameter Configuration
2 © Nokia Siemens Networks RN31632EN40GLA0
Parameter Configuration:
Module Objectives
At the end of the module you will be able to:
• Explain 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
3 © Nokia Siemens Networks RN31632EN40GLA0
Logical Structure of the RNC Database Objects
RNC
WBTS
WCEL ADJS
HOPS
ADJG/L
HOPG
FMCG ADJI
HOPI
FMCI
FMCS
COCO
Various feature objects
ADJD
IUx RNx
IPNB
IPQM WRAB
TQM
WAC
VBTS VCEL COSITE
COSRNC
4 © Nokia Siemens Networks RN31632EN40GLA0
RNC object structure with IUx, RNx, features objects
WANE = WCDMA Authorized Network WSG = WCDMA subscriber group CMOB = Congestion Management OBject
WLCSE = WCDMA Location service entity WSMLC = WCDMA Serving Mobile Location Center
RNC
WANE WSG WLCSE
CMOB WSMLC
IUCS
IUCSIP
IUPS
IUPSIP
IUR
RNAC
RNFC
RNHSPA
RNMOBI
RNPS
RNRLC
RNTRM
CBCI PFL
5 © Nokia Siemens Networks RN31632EN40GLA0
New Objects / Managed Object types
• RNC = Radio Network Controller
• WBTS = WCDMA Base Station
• WCEL = WCDMA Cell
• ADJ = Adjacency for WCDMA cell
• ADJS = intra-frequency adjacency
• ADJI = inter-frequency adjacency
• ADJG = inter-system adjacency GSM
• ADJL = inter-system adjacency LTE
• ADJD = detected adjacency
• HOP = Handover Path
• HOPS, HOPI, HOPG
• FMC = Frequency Measurement Control
FMCS, FMCI, FMCG
• COCO = Radio Network Connection Configuration
• CMOB = Congestion Management OBject
• WANE = WCDMA Authorized Network
• WSG = WCDMA subscriber group
• WLCSE = WCDMA Location service entity
• WSMLC = WCDMA Serving Mobile Location Center
• IPNB = IP NodeB
• IPQM = IP transmission QoS
• TQM = Transmission Quality Management
• WRAB = WCEL RAB parameters
• IUPS/IUCS = Iu-CS / Iu-PS interfaces
• WAC – WCEL Admission Control
• PFL = Preferred Frequency Layer
• 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
6 © Nokia Siemens Networks RN31632EN40GLA0
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, Iu-CS & Iur
• The logical object are hierarchically related to each other, therefore it is not possible to
create any other object before RNC creation.
Remark:
from RU30 on, the RNC
object is split into
several new Object
types, e.g.:
RNC, RNAC, RNFC,
RNHSPA, RNMOBI,
RNPS, RNRLC, RNTRM
RNC
WBTS
WCEL ADJS
HOPS
ADJG/L
HOPG
FMCG ADJI
HOPI
FMCI
FMCS
COCO
Various feature objects
ADJD
IUx RNx
IPNB
IPQM WRAB
TQM
WAC
VBTS VCEL COSITE
COSRNC
New in
RN7.0
New in
RN7.0
Added
already
in
RN4.0
7 © Nokia Siemens Networks RN31632EN40GLA0
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)
RNC
WANE WSG WLCSE
CMOB WSMLC
IUC
S
IUCSIP
IUP
S
IUPSIP
IUR
RNAC
RNFC
RNHSPA
RNMOBI
RNPS
RNRLC
RNTRM
CBCI PFL
8 © Nokia Siemens Networks RN31632EN40GLA0
RNC Object
• COSITE/COSRNC
• COSITE object contains parameters which are of common significance to all co-site pairs within the RNC.
• 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. [cRNC]
RNC
WBTS
WCEL ADJS
HOPS
ADJG/L
HOPG
FMCG ADJI
HOPI
FMCI
FMCS
COCO
Various feature objects
ADJD
IUx RNx
IPNB
IPQM WRAB
TQM
WAC
VBTS VCEL COSITE
COSRNC
• VCEL
• Common configuration (virtual cell)
for all WCDMA and I-HSPA cells
controlled by neighboring network
elements
• VCEL object has also a relation to
IUCS, IUPS, WRAB, FMCS/I/G and
HOPS/I/G objects.
• The maximum number of VCEL
objects in the RNW database is one.
• VCEL is an optional object.
• VBTS
• Common configuration (virtual base
station) for all WCDMA and I-HSPA
base stations controlled by
neighboring network elements.
• VBTS is an optional object.
• The maximum number of VBTS
objects in the RNW database is one.
9 © Nokia Siemens Networks RN31632EN40GLA0
WBTS Object • The logical object of the WCDMA Base Station (Node B). A WBTS can have up to 24
WCDMA cells, and either 1 COCO (ATM transport) or 1 IPNB object (IP transport).
• If Iub transport QoS is used, WBTS connects to 1 TQM object
RNC
WBTS
WCEL ADJS
HOPS
ADJG/L
HOPG
FMCG ADJI
HOPI
FMCI
FMCS
COCO
Various feature objects
ADJD
IUx RNx
IPNB
IPQM WRAB
TQM
WAC
VBTS VCEL COSITE
COSRNC
10 © Nokia Siemens Networks RN31632EN40GLA0
WCEL object
• The logical object of the WCDMA Cell is created to define the configuration of the
WCDMA Node B site. In 1 RNC database there can be 2800 WCELs (or 4800 due to
RAN1795: RNC 2600 coverage optimization solution).
RNC
WBTS
WCEL ADJS
HOPS
ADJG/L
HOPG
FMCG ADJI
HOPI
FMCI
FMCS
COCO
Various feature objects
ADJD
IUx RNx
IPNB
IPQM WRAB
TQM
WAC
VBTS VCEL COSITE
COSRNC
11 © Nokia Siemens Networks RN31632EN40GLA0
Handover Path HOPx
• The Handover Path object stores mainly Cell Reselection & Intra-Frequency HHO
parameters. One HOPx can be related to several Adjacency objects.
• The maximum number of HOPx objects within 1 category is 100.
• E.g. for different type of cells (urban, rural, macro/micro/pico)
• HOP Types:
• HOPS — object for intra-frequency
Handover Path
• HOPI — object for inter-frequency
Handover Path
• HOPG/L — object for inter-system
Handover Path (GSM/LTE)
RNC
WBTS
WCEL ADJS
HOPS
ADJG/L
HOPG
FMCG ADJI
HOPI
FMCI
FMCS
COCO
Various feature objects
ADJD
IUx RN
x
IPNB
IPQM WRAB
TQM
WAC
VBTS VCEL COSITE
COSRNC
12 © Nokia Siemens Networks RN31632EN40GLA0 Handover Parameters
Idle Mode Parameters
HOPx Level Parameters
IntraFreqNcellHCSpriority
IntraFreqNcellHCSthreshold
IntraFreqNcellQqualMin
IntraFreqNcellQrxlevMin
IntraFreqNcellPenaltyTime
IntraFreqNcellQoffset1
IntraFreqNcellQoffset2
IntraFreqNcellTempOffset1
IntraFreqNcellTempOffset2
EcNoAveragingWindow
EnableInterRNCsho
EnableRRCRelease
HHOMarginAverageEcNo
HHOMarginPeakEcNo
ReleaseMarginAverageEcNo
ReleaseMarginPeakEcNo
HOPSId
InterFreqNcellHCSpriority
InterFreqNcellHCSthreshold
InterFreqNcellQqualMin
InterFreqNcellQrxlevMin
InterFreqNcellPenaltyTime
InterFreqNcellQoffset1
InterFreqNcellQoffset2
InterFreqNcellTempOffset1
InterFreqNcellTempOffset2
HOPIId
GSMncellHCSpriority
GSMncellHCSthreshold
GSMncellQrxlevMin
GSMncellPenaltyTime
GSMncellQoffset1
GSMncellTempOffset1
HOPGId
Intra Frequency Inter Frequency Inter System
Not a complete list
13 © Nokia Siemens Networks RN31632EN40GLA0
Adjacencies ADJx
• Adjacencies for WCDMA cell refers to a Handover relationship between two cells.
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
There can be: 31 intra frequency adjacencies (ADJS), 48 inter-frequency adjacencies (ADJI), 32 inter-system adjacencies (ADJG), 8 inter-system adjacencies (ADJL) & 32 detected intra-frequency adjacencies (ADJD) Handover Path objects must be created before ADJx can be used
RNC
WBTS
WCEL ADJS
HOPS
ADJG/L
HOPG
FMCG ADJI
HOPI
FMCI
FMCS
COCO
Various feature objects
ADJD
IUx RN
x
IPNB
IPQM WRAB
TQM
WAC
VBTS VCEL COSITE
COSRNC
14 © Nokia Siemens Networks RN31632EN40GLA0
Adjacencies (ADJx)
IntraFreqNcellCI
IntraFreqNcellEcNoOffset
IntraFreqNcellDERR
IntraFreqNcellLAC
IntraFreqNcellTxPwrRACH
IntraFreqNcellMCC
IntraFreqNcellMNC
IntraFreqNcellMNCLength
HSDPAHopsIdentifier
NrtHopsIdentifier
IntraFreqNcellScrCode
IntraFreqNcellRNCid
IntraFreqNcellRAC
RtHopsIdentifier
IntraFreqNcellTxDiv
ADJSId
GSMncellBandIndicator
GSMncellBCC
GSMncellBCCH
GSMncellCI
GSMncellLAC
GSMncellTxPwrMaxRACH
GSMncellMCC
GSMncellMNC
GSMncellNCC
NrtHopgIdentifier
RtHopgIdentifier
ADJGId
InterFreqNcellCI
InterFreqNcellLAC
InterFreqNcellTxPwrRACH
InterFreqNcellMCC
InterFreqNcellMNC
InterFreqNcellMNCLength
NrtHopiIdentifier
InterFreqNcellScrCode
InterFreqNcellRNCid
InterFreqNcellRAC
RtHopiIdentifier
InterFreqNcellTxDiv
InterFreqNcellUARFCN
ADJIId
Intra Frequency Inter Frequency Inter System
Not a complete list
15 © Nokia Siemens Networks RN31632EN40GLA0
Detected Adjacencies (ADJD)
ADJDChangeOrigin (Change origin)
ADJDId (Identifier of additional intra-frequency adjacency)
AdjdCI (Cell Identifier)
AdjdCPICHTxPwr (Primary CPICH power)
AdjdDERR (Disable Effect on Reporting Range)
AdjdHSDPAHopsId (HSDPA HOPS identifier)
AdjdLAC (Location Area Code)
AdjdMCC (Mobile Country Code)
AdjdMNC (Mobile Network Code)
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)
Intra Frequency
ADJD = detected adjacency DSR: Detected Set Reporting
DSRepBasedSHO Detected Set Reporting Based SHO
FMCS; 0 = DSR not allowed;
1 = DSR enabled, but SHO to detected cell not allowed
2 = DSR based SHO enabled
The parameter indicates whether the DSR based SHO is enabled in the cell.
When the Detected Set Reporting & Measurements feature (optional) is enabled in the
RNC, the parameter can have the following values::
0: DSR is not allowed.
1: DSR is enabled but SHO to detected cell is not allowed.
When the SHO based on the Detected Set Reporting feature (optional) is enabled in
the RNC, the parameter can have the following values:
0: DSR is not allowed.
2: DSR based SHO is enabled.
Detected Set Reporting & Measurements: optional features related to ADJD allow UE to report &
handover to cells not included in the neighbor list
If feature RAN1191: “Detected Set Reporting (DSR) &
Measurements” is enabled, specific counters (M1028 Autodef
SHO DSR measurement) can be used to find detected set
cells that are reported by the UE but that are not in the ADJS
or ADJD adjacency lists and cannot therefore be targets of
SHO. With that information the neighbor lists can be optimized
to include such cells that would be good handover targets.
16 © Nokia Siemens Networks RN31632EN40GLA0
Adjacencies (ADJx) to HOPx
• Every adjacency definition contains links to HOPx parameter sets
• RtHopxIdentifier defines the HOPx (x = S, I, G) parameter set that is applied
• Idle mode cell-reselections
• RT bearer intra-frequency hard handovers
• NrtHopxIdentifier defines the HOPx (x = S, I, G) parameter set that is applied
• Connected mode cell-reselections (CELL_FACH, CELL_PCH, 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
17 © Nokia Siemens Networks RN31632EN40GLA0
Frequency Measurement Control
• The FMC object contains information concerning the frequency measurement
functionality of the RNC.
• Max. number of frequency measurement control objects within 1 category: 100.
• e.g. for different type of cells (urban, rural, macro/micro/pico)
• 1 FMC can be related to several WCDMA cells.
• FMC Types:
• FMCS — object for intra-frequency
Frequency Measurement Control
• FMCI — object for inter-frequency
Frequency Measurement Control
• FMCG — object for inter-system
Frequency Measurement Control
RNC
WBTS
WCEL ADJS
HOPS
ADJG/L
HOPG
FMCG ADJI
HOPI
FMCI
FMCS
COCO
Various feature objects
ADJD
IUx RN
x
IPNB
IPQM WRAB
TQM
WAC
VBTS VCEL COSITE
COSRNC
18 © Nokia Siemens Networks RN31632EN40GLA0
FMCX Level Parameters ActiveSetWeightingCoefficient
AdditionReportingInterval
AdditionTime
AdditionWindow
EcNoFilterCoefficient
DropTime
DropWindow
MaxActiveSetSize
ReplacementReportingInterval
ReplacementTime
ReplacementWindow
HHoEcNoCancel
HHoEcNoCancelTime
HHoEcNoThreshold
HHoEcNoTimeHysteresis
HHoRscpCancel
HHoRscpCancelTime
HHoRscpFilterCoefficient
HHoRscpThreshold
HHoRscpTimeHysteresis
IMSIbasedSHO
FMCSId
IFHOcauseCPICHEcNo
IFHOcauseCPICHrscp
IFHOcauseTxPwrDL
IFHOcauseTxPwrUL
IFHOcauseUplinkQuality
InterFreqDLTxPwrThrAMR
InterFreqDLTxPwrThrCS
InterFreqDLTxPwrThrNrtPS
InterFreqDLTxPwrThrRtPS
InterFreqMaxMeasPeriod
InterFreqMeasAveWindow
InterFreqMeasRepInterval
InterFreqMinHoInterval
InterFreqMinMeasInterval
InterFreqNcellSearchPeriod
InterFreqUETxPwrFilterCoeff
InterFreqUETxPwrThrAMR
InterFreqUETxPwrThrCS
InterFreqUETxPwrThrNrtPS
InterFreqUETxPwrThrRtPS
InterFreqUETxPwrTimeHyst
FMCIId
GSMcauseCPICHEcNo
GSMcauseCPICHrscp
GSMcauseTxPwrDL
GSMcauseTxPwrUL
GSMcauseUplinkQuality
GsmDLTxPwrThrAMR
GsmDLTxPwrThrCS
GsmDLTxPwrThrNrtPS
GsmDLTxPwrThrRtPS
GsmMaxMeasPeriod
GsmMeasAveWindow
GsmMeasRepInterval
GsmMinHoInterval
GsmMinMeasInterval
GsmNcellSearchPeriod
GsmUETxPwrFilterCoeff
GsmUETxPwrThrAMR
GsmUETxPwrThrCS
GsmUETxPwrThrNrtPS
GsmUETxPwrThrRtPS
GsmUETxPwrTimeHyst
FMCGId
Handover Cause Threshold & Trigger
Not a complete list
19 © Nokia Siemens Networks RN31632EN40GLA0
WCEL to FMCx
• Every WCEL definition contains links to max. 14 FMCx parameter sets
• RtFmcxIdentifier (x = S, I, G) defines FMCx parameter set applied for radio links with
RT bearers
• NrtFmcxIdentifier (x = S, I, G) defines FMCx parameter set applied for radio links with
only NRT bearers
• HSDPAFmcxIdentifier (x = S, I, G) defines FMCx parameter set controlling
measurements of a user having HS-DSCH allocated
• RTWithHSDPAFmcxIdentifier (x = S, I, 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
4 x 3 + 1 + 1
20 © Nokia Siemens Networks RN31632EN40GLA0
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
• 20 WAC objects can be configured
which include different sets of
parameters
• Each of WCEL and VCEL (for anchoring
situations) can be associated with the
selected WAC object using pointer
WACSetIdentifier added to WCEL and VCEl
objects
RNC
WBTS
WCEL ADJS
HOPS
ADJG/L
HOPG
FMCG ADJI
HOPI
FMCI
FMCS
COCO
Various feature objects
ADJD
IUx RN
x
IPNB
IPQM WRAB
TQM
WAC
VBTS VCEL COSITE
COSRNC
21 © Nokia Siemens Networks RN31632EN40GLA0
WAC related parameters
• DCHUtilRelAveWin
• DCHUtilRelThrDL
• DCHUtilRelThrUL
• DCHUtilRelTimeToTrigger
• EDCHMACdFlowThroughputAveWin
• EDCHMACdFlowThroughputRelThr
• EDCHMACdFlowThroughputTimetoTrigger
• HSDPAInitialBRULStrNRT
• HSDPAMinBRULStrNRT
• HSDPAinitialBitrateUL
• HSDPAminAllowedBitrateUL
• InactCPCBatOptT
• InactCPCNoBatOptT
• InactNonCPCBatOptT
• InactNonCPCNoBatOptT
• InactivityTimerDownlinkDCH (structure of 8 parameters)
• InactivityTimerUplinkDCH (structure of 8 parameters)
• MACdflowthroughputAveWin
• MACdflowutilRelThr
• MACdflowutilTimetoTrigger
• MSActivitySupervision
• PrxNoiseMaxTuneAbsolute
• TrafVolPendingTimeDL
• TrafVolPendingTimeUL
• TrafVolThresholdULLow
• UL_DL_activation_timer
• WaitTimeRRC (structure of 12 parameters)
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
Parameters moved from RNC (RNC, RNAC, RNPS, RNHSPA) to WAC:
22 © Nokia Siemens Networks RN31632EN40GLA0
COCO / IPNB
COCO: Connection Configuration
• A new logical COCO object is created in order to reserve local transmission resources for the
WCDMA BTS.
• The COCO objects display the transmission resources in the Iub interface, but not the actual
network topology
• There can be up to 400 COCO objects in the RNW database
IPNB: IP Node B
• When IP transport is used on Iub, the
IPNB object collects related parameters
like:
• IP address of NodeB
• SCTP port numbers of C-NBAP and D-
NBAP
• DiffServ Code Points
RNC
WBTS
WCEL ADJS
HOPS
ADJG/L
HOPG
FMCG ADJI
HOPI
FMCI
FMCS
COCO
Various feature objects
ADJD
IUx RN
x
IPNB
IPQM WRAB
TQM
WAC
VBTS VCEL COSITE
COSRNC
23 © Nokia Siemens Networks RN31632EN40GLA0
TQM / WRAB
TQM: Transmission Quality Management
• when Iub Transport QoS is used, 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.
WRAB: WCEL RAB parameters
• A WRAB object contains the connection-
based quality control parameters.
Parameters define the service bearer and
signaling bearer specific quality targets and
related power control thresholds for each
transport channel configuration
• WCEL refers to WRAB via EbNoSetIdentifier
parameter
• there can be 5 WRAB per RNC
RNC
WBTS
WCEL ADJS
HOPS
ADJG/L
HOPG
FMCG ADJI
HOPI
FMCI
FMCS
COCO
Various feature objects
ADJD
IUx RN
x
IPNB
IPQM WRAB
TQM
WAC
VBTS VCEL COSITE
COSRNC
24 © Nokia Siemens Networks RN31632EN40GLA0
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, each IU object selects 1 IPQM as template
CMOB: Congestion Management OBject • contains parameters for the WCDMA RAN Access
Regulation feature
• this allows to temporarily bar certain
Access Classes from accessing the
network e.g. in case of disasters or
large events
• acts only on Access Classes 0 to 9
ACBarredListSystem CMOBChangeOrigin CMOBId CMOBTimeStamp CellAccessRestriction RestrictionGroupName RestrictionGroupType TrafficRestriction
CMOB-Congestion Management object
RNC
WBTS
WCELADJS
HOPS
ADJG/L
HOPG
FMCG
ADJI
HOPI
FMCI
FMCS
COCO
WANEWSG WLCSE
CMOB WSMLC
ADJD
IUCS/IUPS IUR
IPNB
IPQM WRAB
TQM
RNC
WBTS
WCELADJS
HOPS
ADJG/L
HOPG
FMCG
ADJI
HOPI
FMCI ADJI
HOPI
FMCIFMCI
FMCS
COCOCOCO
WANEWSG WLCSE
CMOB WSMLCWSMLC
ADJDADJD
IUCS/IUPS IUR
IPNBIPNB
IPQM WRAB
TQM
WAC
25 © Nokia Siemens Networks RN31632EN40GLA0
WANE & WSG / WSMLC & WLCSE Objects IMSI BASED HO / LOCATION BASED SERVICE
• WANE & WSG MO groups are for the IMSI Based HO, 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 AuthorisedNetworkList AuthorizedNetwork PLMN AuthorizedNetworkMCC AuthorizedNetworkMNC AuthorizedNetworkMNCLength Technology WANEChangeOriging WANEName
WANE-WCDMA
Authorised Networks
Parameters
GSMRoaming HomePLMN HomePLMNMCC HomePLMNMNC HomePLMNMNCLength OperatorName SubscriberGroupid WSGAuthorisedNetworkId WSGChangeOriging
WSG-WCDMA
subscriber group
Parameters
- WSMLC & WLCSE object groups are for Location based service. LCS is RAN04 feature
- WSMLC: WCDMA Serving Mobile Location Center, represents a logical object with RNC specific
mobile location center parameters
- WLCSE: WCDMA Location service entity, represent a logical object with WCEL specific location
parameters AntennaBearing; AntHPBW AntennaCoord; CovType; EnvCharact; MaxCellBackRad MaxCellRad; RepeaterExist WLCSEChangeOrigin WLCSEUtranCellId; WLCSEid
WLCSE-WCDMA Location Service Entity
ConfAreaLevel RNCDelayTolRespTime RNCLowDelayResponseTime WSMLCChangeOrigin WSMLCid
WSMLC-WCDMA Serving
Mobile Location Center
26 © Nokia Siemens Networks RN31632EN40GLA0
CBCI / PREBTS/ PFL CBCI: Cell Broadcast Centre
• CBCI object maintains the data to the cell broadcast centre used in the service area broadcast
features.
• The maximum number of CBCI objects is 4.
• CBCI parameters can be configured only if Service Area Broadcast Protocol (SABP) is in use.
PFL: Preferred Frequency Layer
• PFL object is created in order to define
preferred frequency layers for different UE
capability and service combinations
• The PFL object can be created only when
feature RAN2172: Multi-Band Load
Balancing has been installed in the RCN.
• PFL object is under RNC object.
• Max number of PFL objects is 50 in the
RNC
RNC
WANE WSG WLCSE
CMOB WSMLC
IUCS
IUCSIP
IUP
S
IUPSIP
IUR
RNAC
RNFC
RNHSPA
RNMOBI
RNPS
RNRLC
RNTRM
CBCI PFL
27 © Nokia Siemens Networks RN31632EN40GLA0
FMCS parameters could be
defined on a Serving cell type
basis (e.g. urban, rural,
macro/micro/pico)
ADJD
ADJS
FMCS
(NRT)
FMCS
(RT)
HOPS
(RT)
HOPS
(NRT)
NrtHopsIdentifier = 1
RtHopsIdentifier = 2
HSDPAHopsIdentifier = 6
RTwithHSDPAHopsIdentifier = 3 HOPSid = 1
HOPSid = 2
FMCSid = 1
FMCSid = 1
ADJSid = 1
ADJDid = 1
WCEL
WCEL
WCEL WBTS
Each WCEL has associated 1 FMCS for NRT & 1 for RT & 2 for HS(D)PA, all can be reused for
other cells.
Each ADJS has associated 1 HOPS for NRT, 1 for RT
& 2 for HSDPA, sets can be reused for other cells.)
NrtFmcsIdentifier = 3
RtFmcsIdentifier = 40
HSDPAFmcsIdentifier = 50
Summary
FMCS
(HS(D)PA) FMCSid = 2
HOPS
(HSDPA) HOPSid = 6
HOPS
(RT)
HOPS
(NRT) HOPSid = 1
HOPSid = 5
HOPS
(HSDPA) HOPSid = 7
FMCS
(RT&HS(D)PA) FMCSid = 2
HOPS
(RTwHSDPA) HOPSid = 3
HOPS
(RTwHSDPA) HOPSid = 3
HOPS parameters could be
defined on a Target cell
type basis (e.g. urban, rural,
macro/micro/pico)
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Parameter count
MO Class Group
HC SI PS AC PC LC Ident Other Grand Total ADJD 16 0 0 0 0 0 1 1 18
ADJG 15 0 0 0 0 0 1 1 17
ADJI 21 0 0 0 0 0 1 1 23
ADJL 1 2 0 0 0 0 1 1 5
ADJS 19 0 0 0 0 0 1 1 21
CBCI 0 0 0 0 0 0 1 6 7
CMOB 0 2 0 0 0 0 1 4 7
COCO 0 0 0 0 0 0 2 119 121
COSITE 0 0 0 0 0 0 1 2 3
COSRNC 0 0 0 0 0 0 3 7 10
FMCG 30 0 0 0 0 0 1 1 32
FMCI 25 0 0 0 0 0 1 1 27
FMCS 25 0 0 0 0 0 1 1 27
HOPG 11 0 0 0 0 0 1 1 13
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 0 0 0 0 0 0 0 16 16
IPQM 0 0 0 0 0 0 1 7 8
IUCS 0 0 0 0 0 0 6 15 21
IUCSIP 0 0 0 0 0 0 1 5 6
IUO 0 2 0 2 0 0 16 9 29
IUPS 0 0 0 0 0 0 7 13 20
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
• Ref: RNC Common
Production 2.0
parameter dictionary
• 2654 visible
parameters for cRNC
product (RN7.0)
• 470 hidden
parameters for cRNC
product (RN7.0)
29 © Nokia Siemens Networks RN31632EN40GLA0
Parameter Dictionary
RAS06 Example:
PtxPrimaryCPICH -10..50; 0.1; 33 dBm
(Range; Step; Default)
Parameters & Values
described in the following:
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Parameter management - Overview
• Radio network parameters are managed via Netact OSS or directly via Element
Manager functionality
• Usage of Netact plan
edit, analysis and
activation tools
recommended
RNW
Database
Netact
Database
Netact CM tools OMS Element Manager
new in RU30
Re
co
mm
en
de
d
31 © Nokia Siemens Networks RN31632EN40GLA0
OMS Element Manager GUI - General
32 © Nokia Siemens Networks RN31632EN40GLA0
OMS Element Manager GUI - Fields
Parameter group tabs
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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)
34 © Nokia Siemens Networks RN31632EN40GLA0
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”
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OMS Element Manager GUI – Example (Main parameters - RNC)
• Accordingly below tab will be shown; for the main parameters of RNC-26
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OMS Element Manager GUI – Example (All parameters - FMCS)
• Similarly; all parameters can be shown or edited as follows in FCMS-1
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OMS Element Manager GUI – Example (Edit parameters)
• After clicking on Edit parameters; parameters can be editable as shown
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OMS Element Manager GUI – Example (RNFC)
• RNFC (Radio Network Feature Control), as an RU30 new object; contains all the
enabling (switch) parameters for all the supported features.