BSC6810 Data Configuration

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Copyright © 2008 Huawei Technologies Co., Ltd. All rights reserved.

BSC6810 Data Configuration

http://www.huawei.com

Page2Copyright © 2008 Huawei Technologies Co., Ltd. All rights reserved.

Objectives

l Upon completion of this course, you will be able to

p Detail the Procedure of BSC6810 Data Configuration

p Implement Global Data Configuration

p Implement Equipment Data Configuration

p Implement Interfaces Configuration

p Implement Cell Configuration


Referencesl 《RNC System Description》

l 《RNC Initial Configuration Guide》


Contents1. Data Configuration Overview

2. Preparation

3. Global Data Configuration

4. Equipment Data Configuration

5. Interface Data Configuration

6. Cell Data Configuration

7. Load Setting


Data Configuration Overviewl Configuration Procedure

Global data configuration

LOAD

Preparation

Equipment data configuration

Interface data configuration

Cell data configuration

RNC

RNC

NodeB

NodeB

NodeB

CS

PS

UE UTRAN CNUu Iu

Iu-CS

Iu-PS

Iur

Iub

Iub

Iub


Data Configuration Overview

l Configuration Tools

p LMT

p CME (Configuration Management Express)n based on GUI

l Execution Modes

p Batch moden multiple MML commands in a script

p One-step moden one command at a time and carry it out directly


Data Configuration Overview



2. Preparation





7. Load Setting


Preparationl Data Configuration Control

p BSC6810 controls whether LMT or M2000 has the permission

to configure the data at a moment to avoid the data conflict

n Checking the status of CMC (LST CMCTRL)

n Requesting the CMC right (REQ CMCTRL)

n Obtaining the CMC right forcibly (FOC CMCTRL)

n Locking the CMC right (LCK CMCTRL)

n Set CM Control enable switch (SET CMCTRLSW)


Preparationl Data Initialization (RST DATA)

p RST DATA will remove all configuration data in BAM

p Then the configuration status changes to offline automatically


Preparationl Configuration State

p Offline State (SET OFFLINE)

n Only the data in the BAM database can be configured

n Offline commands (example)

– ADD/MOD RNCBASIC

– ADD/ RMV OPC

– SET SUBNET

– MOD CELLFREQUENCY

– SET SCTPSVRPORT

– MOD N7DPC

p Online State (SET ONLINE)

n Both the data in the BAM and FAM databases can be configured

.dat filesBoards of FAM

BAM

ConfigurationMML commands

Database

Loadingby resetting

Formatting LMT

.dat files

Boards ofFAM

BAM

ConfigurationMML commands

Database

Loading directly

Formatting LMT



2. Preparation





7. Load Setting


Global Data Configurationl The Procedure of Global Data Configuration

p Adding basic data to RNC

p Adding CN operator

p Adding OSP to RNC

p Activating license

p Adding global location data


Global Data Configurationl Setting the RNC to Offline Mode (SET OFFLINE )

l Configuring Local Office Information (ADD RNCBASIC)

p The RNCID and RAN sharing support switch

n Only one CN operator is supported without sharing support

l Adding CN Operator (ADD CNOPERATOR)

p CN operator index, name, primary operator flag, MCC and MNC

n One operator at least with a primary operator


Global Data Configurationl Configuring OSP (ADD OPC)

p BSC6810 has a unique signaling point code in a PLMN

p ADD OPC can run only in offline state

n The characters of the signaling point and ATM address is set


Global Data Configurationl Activating the License File (ACT LICENSE)

p The license file must be activated for the licensed services

p Or only basic functions and small capacity can be provided

p The license file must be in <BAM installation directory>\FTP

\LICENSE


Global Data Configurationl Adding Global Location Data

p Location area (ADD LAC)

n LAI=MCC+MNC+ LAC

p Routing area (ADD RAC)

n RAI=MCC+MNC+ LAC+RAC=LAI+RAC


Global Data Configurationl Adding Global Location Data

p CS/PS Service Area Code (ADD SAC)

n SAI=MCC+MNC+LAC+SAC

p UTRAN Registration Area Identification (ADD URA)

n In URA, a UE in URA_PCH state does not have to frequently

perform cell update. That is, the UE does not perform cell update

after each cell reselection; instead, the UE reads the URA ID on

the broadcast channel and reports its location to the RNC only

when the URA is changed.



2. Preparation





7. Load Setting


Equipment Data Configurationl RNC Equipment Data Configuration Procedure

Start

End

Configuring Time

Modifying RSS

Adding RBS

Configuring Clock

Configuring System


Equipment Data Configurationl Setting RNC System Information (SET SYS)

l Configuring RNC Time Zonep Set the time zone that the RNC is located in (SET TZ)

l Configuring RNC SNTPp Only configured when SNTP is used

p Set the SNTP client data (SET SNTPCLTPARA)

p Set the time synchronization server data (ADD SNTPSRVINFO)


Equipment Data Configurationl Modifying RSS Subrack (MOD SUBRACK)

p RSS subrack is generated during RNC initialization

p Set the type of the interface boards and backup mode

n Backup_binding

n Backup_apart

n Other

l Adding RBS Subrack (ADD SUBRACK)


Equipment Data ConfigurationlAdding an RBS Subrack

pDIP switch is used to set the RBS subrack No

OFFONONONONOFFONOFFSubrack 5

OFFONOFFONONOFFONONSubrack 4

OFFONONONONONOFFOFFSubrack 3

OFFONOFFONONONOFFONSubrack 2

OFFONOFFONONONONOFFSubrack 1

OFFONONONONONONONSubrack 0

87654321

BitSubrack No.


Equipment Data Configurationl Configuring RNC Clock Data

p The clock data

n RNC system clock source

n Clock working mode

n Clock source of the interface board

p Add clock source (ADD CLKSRC)

p Set the working mode (SET CLKMODE)

p Set the clock source of the interface board (SET CLK)



2. Preparation





7. Load Setting


Contents5. Interface Data Configuration

p 5.1 Iub Interface Data Configuration (ATM)

p 5.2 Iub Interface Data Configuration (IP)

p 5.3 Iu-CS Interface Data Configuration

p 5.4 Iu-PS Interface Data Configuration

p 5.5 Iur Interface Data Configuration


Iub Interface Data Configuration (ATM)l Iub Interface Protocol

Control Plane

Transport NetworkControl Plane

User plane

RadioNetworkLayer

Transport NetworkUser Plane

TransportNetworkLayer


NCP CCP

A B C

CCP

NBAP

SAAL UNI AAL2 PATH

ATM

Physical Layer

Iub FP

SAAL UNI

ALCAP


Iub Interface Data Configuration (ATM)l Procedure of Iub

Configurationp Configure Physical Layer

p Configure ATM Traffic Resource

p Adding Mapping Between Transmission and Traffic

p Adding Factor Table

p Configure Control Plane

p Configure User Plane

p Configure OM Channel


Iub Interface Data Configuration (ATM)l Configuring Physical Layer

p Configuring E1/T1 attributes

n Setting E1/T1 link attributes (SET E1T1)

– Two ends of E1/T1 should be set as the same: Frame Structure,

Link Code, Scramble Switch

– E1/T1s in the same IMA group should be set as the same

p Configuring OPT attributes



p Add UNI link

p Add IMA link

p Add FRA IMA link

p Add FRA ATM link

Supporting ATM over SDHEach interface board can support 4 STM-1 portsUOIa

Supporting ATM over E1/T1 over SDH

Providing 126 E1s or 168 T1s and the IMA and the UNI functions

Providing 84 IMA groups each of which contains maximum 32 E1s/T1s

AOUa

Supporting ATM over E1/T1/J1Each board provides 32 E1/T1/J1 portsSupports IMA, UNI, Fractional ATM functions

AEUa

FunctionBoard


Iub Interface Data Configuration (ATM)

l Adding Inverse multiplexing over ATM (IMA)

p ADD IMAGRP and ADD IMALNK

At the Tx end: Cells are allocated to each low-speed physical link in a circular orderAt the Rx end: The cells transmitted on each low-speed physical link are reassembled to a single cell group

PHY

PHY

PHY

PHY

PHY

PHY

µ¥ATMÐÅÔªÁ÷A single ATM cell flow (from the ATM layer)

IMA group Low-speedphysical link

Low-speedphysical link

Low-speed physical link

IMA group

The original ATM cell flow (to the ATM layer)

RNC NodeB


Iub Interface Data Configuration (ATM)l Configure Physical Layer --IMA Group and Link Rules

AEUa

RUNALMACT

2M 1

E1/T1

E1/T1

2M 0

E1/T1

E1/T1

IMA/UNI/FRA ATMLink ID

0~7

8~15

16~23

24~31

0~31

IMA Group ID RUNALMACT

OPT42~8363~125

IMA/UNI Link ID IMA Group ID

AOUa

OPT0~410~62

IMA/UNI Link ID IMA Group ID

2M 1

2M 0



p Fractional ATM (AEUa)

ATM cell

BSC6810

2G BSC

Fractional ATM link

ATM cell

NodeB

2G BTS

Fractional ATM link

ATM cell

E1(some timeslots are used)

ATM networkequipmentATM network

equipment

Recover ATM cellsfrom some E1

timeslots/Put ATM cells into some E1

Timeslots(AEUb/AOUb)

Recover ATM cellsfrom some E1

timeslots/Put ATMcells into some E1timeslots (NodeB

interface unit)


Iub Interface Data Configuration (ATM)l Configuring ATM Traffic Resource (ADD ATMTRF)

p The traffic resources can be directly referenced through [Flow

index] during the configuration of SAAL, AAL2 PATH, IPoA



UBRNRT-VBRRT-VBRCBR

√√XXOptimized for burst data

XX√√Optimized for real-time data

X√√√Bandwidth Guarantee

Unspecified Bit Rate

Non-Real Time Variable Bit Rate

Real Time Variable Bit Rate

Constant Bit Rate

Service Type

The BSC6800 also supports UBR+, which ensures the minimum cell rate

l ATM service types



No commitment or feedback to congestion. It is suitable for sending IP data. In case of congestion, UBR cells will be discarded. However, neither relevant feedback nor the request for slowing down the transmission speed will be returned to the senderThe BSC6800 also supports UBR+, which ensures the minimum cell rate

UBRUnspecified Bit Rate

Used in timing transmission as E-mail transmission. In such a case, some delays and variations can be accepted by the application

NRT-VBRNon-Real Time Variable Bit Rate

Used to describe the service with variable data rates and strict real time requirement, for example, interactive compressed video such as videoconference

RT-VBRReal Time Variable Bit Rate

No error check, flow control, and other processingCBRConstant Bit Rate

AbbreviationFull nameDescription

Service type

l ATM service types



Tagging the cells with CLP=0TAGGINGTag

Indicating which cells can be discarded (CLP=1), and which cells had better not be discarded (CLP=0) in the case of network congestion

CLPCell loss priority

Max. tolerable cell jitter (0.1 µs)CDVTCell delay variation tolerance

Min. cell transmission rateMCRMinimum cell rate

Average cell transmission rate during a long termSCRSustainable cell

rate

Max. cell transmission ratePCRPeak cell rate

AbbreviationFull nameMeaning

Parameter

l ATM traffic descriptions



l Adding Mapping Between Transmission and Traffic (ADD

TRMMAP)

p Services of different QoS requirements are mapped to different

channels

l Adding Factor Table (ADD FACTORTABLE)

p Specify proper factors for each traffic class

p The transmission resources can be multiplexed


Iub Interface Data Configuration (ATM)l Configuring SAAL (ADD SAALLNK)

p At least 3 SAAL in one NodeB,

p 1 for NCP, 1 for CCP, and 1 for ALCAP


Iub Interface Data Configuration (ATM)l Configuring Iub Port

p ADD NODEB

p ADD NODEBALGOPARA

p ADD NODEBLDR

p ADD NCP

n Only one NCP in a NodeB

p ADD CCP

n One or more CCPs in a NodeB


Iub Interface Data Configuration (ATM)l Configuring Adjacent Node

p ADD ADJNODE

l Adding Port Controllerp ADD PORTCTRLER

p A SPU subsystem manages transmission resource

l Configuring AAL2 PATH and Routep ADD AAL2PATH

p ADD AAL2RTRINT

AAL2 PATH 1 BSC6810NodeB

AAL2 PATH 2

AAL2 PATH n

Destination Node Adjacent Node


Iub Interface Data Configuration (ATM)l Configure O&M Channel for NodeB

p Adding Device IP Address of an Interface Board (ADD DEVIP)

p Adding IPoA PVC (ADD IPOAPVC)

p Adding the NodeB IP Address (ADD NODEBIP)

p Adding the M2000 IP Address (ADD EMSIP)

12.13.1.112.13.1.0

NodeB

NodeB

NodeB

NodeB

12.13.1.2

12.13.1.3

12.13.1.NBSC6810

IPoA RINT BAM

Internal Network

12.13.1.254M2000

External Network









Iub Interface Data Configuration (IP)l Iub Interface Protocol

Control Plane User PlaneRadio Network Layer



NCP CCP

A C

CCP

NBAP

Data Link Layer

Physical Layer

Data Link Layer

IP

UDP

IP

SCTP


Iub FP


Iub Interface Data Configuration (IP)l Procedure of Iub Configuration

p Configuring Physical Layer

p Configuring Data Link Layer



p Configuring Control Plane

p Configuring User Plane

p Configuring OM Channel

p Configuring IP Routes


Layer 2 Networkingl User Plane and Control Plane both Terminates in Port IP


Layer 3 Networkingl User Plane and Control Plane both Terminates in Local (logic) IP

-IP1 and IP2 Logic IP

-IP3 and IP4 Port IP


Iub Interface Data Configuration (IP)l Interface Board

Providing 4 optical port

Providing IP over unchannelized optical portUOIa

FunctionBoard

Providing 2 optical interfaces over channelized optical STM-1 based on

IP protocols, supporting IP over E1/T1 over SDH/SONETPOUa

Providing 2 GE optical ports

Providing IP over GEGOUa

Providing 8 FE ports or 2 GE electrical ports

Providing IP over FE and IP over GEFG2a

Providing 32 channels of IP over PPP/MLPPP over E1/T1

Supporting timeslot cross-connectionPEUa


Iub Interface Data Configuration (IP)

SET ETHPORTADD ETHIP

SET OPT

SET ETHPORTADD ETHIP

SET E1T1

SET E1T1

Physical layer

-----------------

ADD PPPLNK

-----------------

ADD PPPLNK or ADD MPGRP ADD MPLNK

ADD PPPLNK or ADD MPGRP ADD MPLNK

Data link layer

UOIa

Board

POUa

GOUa

FG2a

PEUa


Iub Interface Data Configuration (IP)

l Adding Mapping Between Transmission and Traffic (ADD TRMMAP)p Services of different QoS requirements are mapped to different

channels

l Adding Factor Table (ADD FACTORTABLE)p Specify proper factors for each traffic class

p The transmission resources can be multiplexed


Iub Interface Data Configuration (IP)l Add the Control Plane Data

p Configuring SCTP Link (ADD SCTPLNK)

n At least 2 SCTP links for 1 NodeB: 1 for NCP, 1 for CCP

p Adding a NodeB and Iub Parameters

n ADD NODEB

n ADD NODEBALGOPARA

n ADD NODEBLDR

n ADD ADJNODE

p Add the control plane data

n ADD NCP

n ADD CCP


Iub Interface Data Configuration (IP)l Adding the User Plane data

p Add the SPUa subsystem for transmission resource

management (ADD PORTCTRLER)

p Add the IP path data (ADD IPPATH)

p Add the IP route (ADD IPRT)

n for L3 networking


Iub Interface Data Configuration (IP)l Configure O&M Channel for NodeB

p Add NodeB IP address for the NodeB O&M channel (ADD

NODEBIP)

p Add the M2000 IP address and subnet mask (ADD EMSIP)

p Add the NodeB electronic serial number (ADD NODEBESN)

n Optional, only used when the peer NodeB uses DHCP function









Iu-CS Interface Data Configurationl Iu-CS Interface Protocol

Control Plane


User planeRadioNetworkLayer




C

RANAP

AAL2 PATH

ATMPhysical Layer

SAAL NNI

A

Iu UP

B

ALCAP

SCCP

MTP3-B

SAAL NNI

MTP3-B


Iu-CS Interface Data Configurationl Procedure of Iu-CS


p Configure ATM Traffic Resources






Iu-CS Interface Data Configurationl Adding Physical Layer

p SET OPT

l Adding ATM Traffic Resources

p ADD ATMTRF

l Adding Transmission Resource Mapping

p ADD TRMMAP

l Adding Factor Table

p ADD FACTORTABLE


Iu-CS Interface Data Configurationl Adding Control Plane

p Configuring SAAL (ADD SAALLNK)

p Configure CN Node

n Configuring DSP (ADD N7DPC)

n Configuring DSP (ADD CNDOMAIN)

n Adding CN Node (ADD CNNODE)

n Adding an adjacent node (ADD ADJNODE)


Iu-CS Interface Data Configurationl Configuring Control Plane

p DSP Types

Signaling transfer point. The BSC6800 supports up to 2 STP DSPsSTP

Neighboring RNC IUR

Signaling point in the control planeIUPS

MSC Server in R4 with functions of the control plane of the radio network layerIUCS_RANAP

Media Gateway in R4 with functions of the control plane of the transport network layer

IUCS_ALCAP

MSC in R99 with functions of the control planes ofthe radio network layer and transport network layerIUCS

DescriptionDSP type


Iu-CS Interface Data Configuration

STP

MTP3B link set

BSC6810MSC

DSP DSP of MTP3B link set

STP

MTP3B link set

l Configure Control Plane

p Configuring MTP3B data

n Adding signaling link set (ADD MTP3BLKS)

n Adding signaling link (ADD MTP3BLNK)

n Adding route data (ADD MTP3BRT)


Iu-CS Interface Data Configurationl Configure User Plane

p Adding the SPU subsystem for transmission resource

management (ADD PORTCTRLER)

p Configuring AAL2 PATH (ADD AAL2PATH)

p Configuring AAL2 route (ADD AAL2RT)

BSC6810

AAL2 PATH PVC

AAL2 PATH PVC

AAL2 PATH PVC

MSCRI

NT

SPUsubsystem









Iu-PS Interface Data Configurationl Iu-ps Interface Protocol

Control Plane User planeRadioNetworkLayer




C

RANAP

ATM

SAAL NNI

SCCP

MTP3-B

A

Iu UP

C

AAL Type 5

IPUDP

GTP-U

Physical Layer


Iu-PS Interface Data Configurationl Procedure of Iu-PS


p Configure ATM Traffic Resources






Iu-PS Interface Data Configurationl Adding Control Plane (the same as Iu-CS)

l Adding User Planep Configuring IPoA

n Adding the SPU subsystem (ADD PORTCTRLER)

n Adding the device IP address to interface board (ADD DEVIP)

n Adding an IPoA path (ADD IPOAPVC)

n Adding an IP path (ADD IPPATH)

n Adding an IP route (ADD IPRT) (only for L3 networking)

PVC

Bind PVC toDevice IP

SGSN gateway

RSS/RBS

SGSN gateway IP

DestinationIP

SGSN

RI

NT

SPU

Subsystem 0

Subsystem 1

Subsystem 2

Subsystem 3









Iur Interface Data Configurationl Iur Interface Protocol

Control Plane


User planeRadioNetworkLayer




C

RNSAP

AAL2 PATH

ATMPhysical Layer

SAAL NNI

A

Iur Traffic

B

ALCAP

SCCP

MTP3-B

SAAL NNI

MTP3-B


Iur Interface Data Configurationl Procedure of Iur Configuration

p Configure Physical Layer

p Configure ATM Traffic

Resources

p Adding Mapping Between

Transmission and Traffic





Iur Interface Data Configurationl Adding Control Plane

p The procedure of configuration is the same as Iu-CS

l Adding User Plane

p The procedure of configuration is the same as Iu-CS


Iur Interface Data Configurationl Adding a Path for Static SRNS Relocation


Iur Interface Data Configurationl Adding a Path for Static SRNS Relocation

p ADD IPRT

n Adding an IP route towards the DRNC

p ADD IPPATH

n Adding an IP path for static SRNS relocation



2. Preparation





7. Load Setting


Cell Data Configurationl The Model of Logical Cell Configuration

1

CellCell-Id

PCPICH PSCH PCCPCH

BCH PCH

1

11

1

1

1

0-1

SCCPCH

FACH

1-2

0-2

1

PICH

1

PRACH

RACH

1

1-2

1

1-2

AICH

1

1

1

1

Systeminformation

RRMalgorithm

parameters

1

Access restrictionand selection/

reselectioninformation

1

URAMeasurement

controlinformation

Neighboringcell

information

11-8

SSCH

11


Cell Data Configurationl Procedure of Quick Cell Setup

Start

Local Cell Configuration

Quick Cell SetupConfiguration

Neighboring CellConfiguration

End


Cell Data Configuration l Local Cell Configuration (ADD LOCELL)

p The Iub interface delivers the corresponding logical cell

data during the cell establishment by the local cell ID

p The local cell ID should be negotiated between NodeB

and RNC

p The local cell is bound to the relative NodeB


Cell Data Configurationl Logical Cell Configuration

p ADD SPG

n Setting the priorities of different services in cells

p ADD QUICKCELLSETUP

n Uplink/downlink frequency

n Primary downlink scrambling code

n The controlling subsystem

n LAC, SAC, RAC, URA Number and the URA IDs

p ACT CELL

n Activating the cell


Cell Data Configurationl Neighboring Cell Configuration

p Fundamentaln RNC keeps the neighboring cell information and delivers the information

to the UE

n Through system information or measurement control information

n UE can implement cell selection/reselection and handover

p Configuration principlen Add other cells as the neighboring cells of the new cell

n Add the new cell as the neighboring cell of other cells

Cell2Cell1

RNC



p Types of Neighboring Cell

n Intra-Frequency Neighboring Cell

n Inter-Frequency Neighboring Cell

n Neighboring GSM Cell

WCDMA Sector2 f2

WCDMA Sector2 f1

WCDMA Sector1 f2

WCDMA Sector1 f1

GSM Sector2 GSM Sector1



p Configuring a neighboring RNC cell (ADD NRNCCELL)

RNC1 RNC2

Cell2 Cell3Cell1


Cell Data Configuration

l Neighboring Cell Configuration

p Configuring intra-frequency neighboring cell (ADD INTRAFREQNCELL)

p Configuring inter-frequency neighboring cell (ADD INTERFREQNCELL)

RNC1 RNC2

f1 f1/ f2f1



p Configuring GSM neighboring cell

n Adding information of the neighboring cell to RNC (ADD GSMCELL )

n Adding GSM neighboring cell (ADD GSMNCELL )

GSM/GPRSGSM/GPRS

WCDMAWCDMA

RNC

NodeB



p Querying Unidirectional Neighboring Relationship

n Cell neighboring relationships are unidirectional

– Adding cell B as an intra-frequency neighboring cell for cell A

– Adding cell A as an intra-frequency neighboring cell of cell B

n LST SINGLENCELL

– Query unidirectional neighboring relationships



2. Preparation





7. Load Setting


Load Settingl Generating RNC Data Files

p SET OFFLINE

p Initializing the RNC configuration data in BAM (RST DATA)

p Executing the batch commands

p Formatting Data (FMT DATA) n To generate the loading data files and saved in the "[BAM main area

path]\LoadDATA" directory

p SET ONLINE

l Setting Board Start Load Control (SET LODCTRL) p Set files load path: BAM or Flash

l Loading the RSS Subrack

l Loading the RBS Subrack


Load Configuration l Generating RNC Data Files

p SET OFFLINE

p Initializing the RNC configuration data in BAM (RST DATA)

p Executing the batch commands

p Formatting Data (FMT DATA)

n To generate the loading data files and saved in the "[BAM main area

path]\LoadDATA" directory

p Setting Board Start Load Control (SET LODCTRL)

n Set files load path: BAM or Flash, load from BAM for initial

configuration

p RST RNC

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BSC6810 Data Configuration