02 RN31632EN40GLA0 RANPAR1 Parameter Configuration v1.0 RU40

1 © Nokia Siemens Networks RN31632EN40GLA0

Parameter Configuration


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


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


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


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


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


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


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


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


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.


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


ADJD

IUx RNx

IPNB

IPQM WRAB

TQM

WAC

VBTS VCEL COSITE

COSRNC


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


ADJD

IUx RNx

IPNB

IPQM WRAB

TQM

WAC

VBTS VCEL COSITE

COSRNC


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


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


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


ADJD

IUx RN

x

IPNB

IPQM WRAB

TQM

WAC

VBTS VCEL COSITE

COSRNC


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


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.


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


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


• FMCI — object for inter-frequency


• FMCG — object for inter-system


RNC

WBTS

WCEL ADJS

HOPS

ADJG/L

HOPG

FMCG ADJI

HOPI

FMCI

FMCS

COCO


ADJD

IUx RN

x

IPNB

IPQM WRAB

TQM

WAC

VBTS VCEL COSITE

COSRNC


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


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


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


ADJD

IUx RN

x

IPNB

IPQM WRAB

TQM

WAC

VBTS VCEL COSITE

COSRNC


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:


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


ADJD

IUx RN

x

IPNB

IPQM WRAB

TQM

WAC

VBTS VCEL COSITE

COSRNC


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


ADJD

IUx RN

x

IPNB

IPQM WRAB

TQM

WAC

VBTS VCEL COSITE

COSRNC


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


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


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


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)


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)


Parameter Dictionary

RAS06 Example:

PtxPrimaryCPICH -10..50; 0.1; 33 dBm

(Range; Step; Default)

Parameters & Values

described in the following:


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


OMS Element Manager GUI - General


OMS Element Manager GUI - Fields

Parameter group tabs


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)


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”


OMS Element Manager GUI – Example (Main parameters - RNC)

• Accordingly below tab will be shown; for the main parameters of RNC-26


OMS Element Manager GUI – Example (All parameters - FMCS)

• Similarly; all parameters can be shown or edited as follows in FCMS-1


OMS Element Manager GUI – Example (Edit parameters)

• After clicking on Edit parameters; parameters can be editable as shown


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.

Documents

02 RN31632EN40GLA0 RANPAR1 Parameter Configuration v1.0 RU40