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ZXSDR BTS Configuration for GU Co-site
Objective
After this course , you will: Understand basic conception of GU co-site Master the networking of GU co-site Understand the configuration flow of GU co-site Grasp the operation of LMT, OMCB, OMCR Grasp the meanings of each key parameter for SDR
Note : Before learning this course, students need to have an overall understanding of the configuration process for GSM or UMTS single mode..
Content
Overview Data Planning LMT Configuration OMCB Configuration BSC Configuration RNC Configuration
SDR Architecture
B8200+
=
RRU
BS8700
Fiber
BBU
Radio UnitRadio UnitSA/SE/NIS
CC
BB
FS RRU
E1
GE/FE
Clock
Data
Control Signaling
Antenna
STM-1
CPRI
The structure of BS8700 is BBU plus RRU, with separated modules as Base band unit and RF unit.The structure of BS8700 is BBU plus RRU, with separated modules as Base band unit and RF unit.
IP Abis/Iub Interface
Different from traditional base stations, SDR base stations adopt the all-IP architecture. Their Abis/Iub interfaces use the IP protocol and physical bearing medium is FE/GE or E1/T1 (IP over E1/T1) instead of traditional TDM over E1/T1. IP over E1/T1 can take advantage of the existing transmission equipment to save investment. FE/GE can obtain more bandwidth, which complies with the evolution trend of the IP-based telecommunications system.
OMCB Definition
OMCB- Operate and Maintenance Center for Node B
OMCB OMCR
BSCRNC
SDR
OMM
Networking of GU Co-site
OMCR
MINOS
Switch or DDF
B8200
iBSC
RNC
OMCR
Abis
Iub
Configuration FlowData Planning
Hardware Inspection
LMT Configuration OMCB Configuration
The link is established?
Data Configuration Checking
BSC/RNC Configuration
Data Synchronization
Complete
Y
N
Data planning is kernel part process of the entire SDR data configuration.
Hardware Inspection checks the SDR rack, board, physical connection, antenna, and external alarms. It is performed on the construction site and is not introduced in this manual.
LMT is a quick configuration tool for a single SDR base station. A maintenance engineer can connect the SDR and perform data configuration by LMT.
OMCB is the network management configuration tool for SDR base stations. After SDR is connected to OMCB, all the LMT functions can be performed by OMCB.
The BSC/RNC side uses the interfacing data with SDR.
Content
Overview Data Planning LMT Configuration OMCB Configuration BSC Configuration RNC Configuration
Racks and Boards Planning
Rack 1: one BBU (B8200) Rack 2: one RRU (R8882), with the working frequency band of 900MHz and
the radio system of GSM Rack 3: one RRU (R8840), with the working frequency band of 2,100 MHz
and the radio system of WCDMA
PM
SA CC
FS uBPG
BPC
15
1
2
3
4
5
6
7
8
13
14
Transmission Resource Planning
SDR
SDTI
GIPI3
GE1
GE2
GE3
GE4
SBCX
OMC1
OMC2
OMP1(OMCB)
ROMB
OMC1
OMC2
IP Iub RPU
SDTB2EIPI
(EUIP)
OMP
OMC1
OMC2
IP Abis RPU
iBSC
RNC
GSM IP: 172.18.6.18/24WCDMA IP (IPoE1): 110.10.6.18/24WCDMA IP (IPoFE): 60.30.6.18/24OMCB Link IP: 112.12.6.18/24
EUIP_3GSDR: 110.10.6.254/24EUIP_OMCB_CH: 112.12.6.254/24
EUIP_2GSDR: 172.18.6.254/24
IP Abis: 20.20.0.1
IP Iub: 30.20.0.130.30.0.1
OM
CB IP
: 13
9.29
.12.
1/24
GIP
I_O
MCB
: 13
9.29
.12.
254/
24
OM
CB_C
H_I
P:11
3.40
.0.1
Planning of SDR Transmission Resources and IP addresses
Name Meaning Address
GSM IP GSM IP address of SDR 172.18.6.18/24
WCDMA IP (IPoE1) WCDMA IP address of SDR (IP over E1) 110.10.6.18/24
WCDMA IP (IPoFE) WCDMA IP address of SDR (IP over FE) 60.30.6.18/24
OMCB Link IP OMCB Link IP address of SDR 112.12.6.18/24
EUIP_2GSDR IP address of iBSC for SDR Gateway (IPoverE1) 172.18.6.254/24
EUIP_3GSDR IP address of RNC for SDR Gateway (IPoverE1) 110.10.6.254/24
EUIP_OMCB_CH IP address of the OMCB channel for SDR O&M Gateway 112.12.6.254/24
GIPI_3GSDR IP address of RNC for SDR Gateway (IPoverFE) 60.30.6.254/24
GIPI_OMCB IP address of RNC for OMCB Gateway 139.29.12.254/24
OMCB_IP OMCB IP address configured for RNC 139.29.12.1/24
IP Abis IP Abis virtual address of iBSC 20.20.0.1
IP IubIP Iub virtual address 1 of RNC 30.20.0.1
IP Iub virtual address 2 of RNC 30.30.0.1
OMCB_CH_IP OMCB Channel IP 113.40.0.1
Time Slot Allocation
IP Port ID E1 Link ID Time Slot HDLC ID HDLC ID in
BSC/RNC SideConnection
Object Remarks
IP Port ID2 Link ID0 Slot 1-31 HDLC ID0 HDLC ID 1 iBSC
Transparent transmission via RNC
IP Port ID3 Link ID1 Slot 1-31 HDLC ID1 HDLC ID 2 RNC Straight-through
IP Port ID4 Link ID2 Slot 1-31 HDLC ID2 HDLC ID 3 RNC Straight-through
IP Port ID5 Link ID3 Slot 3-31 HDLC ID3 HDLC ID 4 RNC Straight-through
IP Port ID5 Link ID3 Slot 1-2 HDLC ID4 HDLC ID 5 RNC O&M Link of OMCB
SCTP Association Parameters
Parameter Meaning Planned Value Remarks
GSM No. GSM site number (SCTP port number of 2GSDR) 6
Configure SDR port number in the case of SCTP for GSM
Node B ID UMTS site number 6 -
iBSC Port No. SCTP port number of iBSCThe home CMP module number of SDR is 3.
SCTP port number of iBSC = 14592 + home CMP module number of SDR
RNC Port No. SCTP port number of RNC 777The configuration of RNC is consistent with that of SDR
3GSDR Port No. SCTP port number of 2GSDR 777The configuration of RNC is consistent with that of SDR
GSM Radio Resource
RF Unit R8882
Cell S2/2
Carrier Wave Power 30W for each Carrier Wave
Frequency point 10, 14(Cell1) 20, 24(Cell2)
BCCH Frequency point 10(Cell1), 20(Cell2) MCC 216
MNC 1
LAC 3981
CI 65401(Cell1), 65511(Cell2)
NCC 0
BCC 0
UMTS Radio Resource
RF Unit R8840
Carriers 3C
Carrier Wave Power 20W for each Carrier Wave
Frequency point 1920, 1925, 1930, 2110, 2115,2120
MCC 216
MNC 1
LAC 3981
Local Cell ID 0,1,2
Clock, Environment, and Monitored Data
Data Type Configuration
Environment Monitoring Configuration Default
Dry Contact Alarm Configuration Main Power Supply has a fault alarm
Clock Source Priority Configuration GPS: High priority; Line clock: Low priority
Content
Overview Data Planning LMT Configuration
Overview Create SDR Physical Data Configuring Transmission Resource Configuring Radio Resource
OMCB Configuration BSC Configuration RNC Configuration
Configuration Flow
LMT Login to SDR
Configuring Transmission
Resource
Configuring SDR Physical Data
Configuring Radio Resource
Complete
LMT Login to SDR
LMT Use Prerequisite Install the jre-6u10-windows-i586-p.exe Install the LMT software.
Login Mode Online configuration Offline configuration
Login Steps IP calculation of BBU boards IP configuration of the debugging device How to distinguish between the active CC and standby
CC
Content
Overview Data Planning LMT Configuration
Overview Create SDR Physical Data Configuring Transmission Resource Configuring Radio Resource
OMCB Configuration BSC Configuration RNC Configuration
Create Basic Attribute
Create Rack
Create Topology Structure
Upper level and lower level: the board or rack close to the BBU is of the upper level, while the board or rack far away from the BBU is of the lower level. Each FS board in the BBU provides six optical fiber interfaces used to connect RRUs. From the front of the FS board, you can see that the interface numbers are 0, 1, 2, 3, 4, 5 from right to left. The RRU provides two optical fiber interfaces via the DTR board. One is used to connect the BBU with the interface number of LC0; the other is used to connect the lower-level RRU with the optical interface number of LC1.Select star or link for the topology type. RRS cascade can be realized only when the topology type is link.
Create Environment Monitoring
The environment monitoring parameters are automatically configured when a new board is added. The operator may adjust the threshold values by modifying the environment monitoring configuration.
Create Dry Contact
Content
Overview Data Planning LMT Configuration
Overview Create SDR Physical Data Configuring Transmission Resource Configuring Radio Resource
OMCB Configuration BSC Configuration RNC Configuration
Transmission Resource Configuration Flow
IP Port
HDLC
PPP/ML-PPP
IP Parameter
IP Port
SCTP Accociation OMCB Channel
IP over E1 IP over FE
Create IP Port
When E1/T1 cable serves as the transmission medium, a maximum of eight pairs of E1 cables is available to one B8200 (one SA board).
Create HDLC Parameter (IPoE1)
Create PPP Parameter (IPoE1)PPP ID Used HDLC ID Connection
Object
PPP ID 0 HDLC ID0 iBSC
PPP ID 1 HDLC ID1~3 RNC
PPP ID 2 HDLC ID4 OMCB
Create IP Parameter IP ID0: WCDMA IP (IPoFE) uses it. IP ID1: GSM IP uses it. IP ID2: WCDMA IP (IPoE1) uses it. IP ID3: OMCB Link IP uses it.
Create SCTP Association
Create NCP/CCP (Only for WCDMA) This configuration is available only for WCDMA.
The service types include NCP and CCP as follows: NCP: Node B control port, which manages signaling interaction
in the common process. CCP: Communication control port, which manages signaling interaction
in the dedicated process.
Create OMC-B Link
Content
Overview Data Planning LMT Configuration
Overview Create SDR Physical Data Configuring Transmission Resource Configuring Radio Resource
OMCB Configuration BSC Configuration RNC Configuration
Create GSM Carrier
Create GSM Sector
Create GSM Carrier Frequency
Create WCDMA Operator Configuration
If multiple operators share the baseband
resource pool, set names of multiple
operators here.
Create WCDMA Baseband Resource Pool
To realize baseband resource sharing and
flexibly schedule traffic, you need to create the
baseband resource pool.
Create UMTS Sector
Create UMTS Local Cell
Content
Overview Data Planning LMT Configuration OMCB Configuration
Overview Configure Basic Properties Configuring SDR Physical Data Configuring Transmission Resource Configuring Radio Resource Data Synchronization & Upload
OMCB Configuration Flow
Modify Server Configuration
File
Configuring SDR Physical Data
Configure Basic Properties
Configuring Transmission
Resource
Complete
Add a Route
Configuring Radio Resource
Data Synchronization
Add a Route
1 . The command used to add a route on OMCB (SBCX) is:
#route add -net 112.12.6.18 gw 139.29.12.254 netmask 255.255.255.0 139.29.12.1
NoteNote::In the LINUX system, the command used to add a route is:
route add -net destination network address gw next-hop address netmask IP address
of the network mask
2 . After the operation, execute the netstat –nr command to view the route.
3 . Set a permanent route. After adding the route using the route add command, to
avoid route loss after restarting the SBCX, you can add the line blow into the /etc/rc.d
/rc.local file as the root user:
#route add –net 112.12.6.18 gw 139.29.12.254 netmask 255.255.255.0 139.29.12.1
Modify Server Configuration File
Modify deploy-030womcb.properties
1 . Log in to the server as the OMC user.
2 . Enter the …\ums-svr\deploy directory, and then open the deploy-
030womcb.properties file.
3 . Modify the fields in the red box to OMCB_IP.
Modify FTP Configuration File as the OMC User
1. Log in as the gomcr user, and then check whether userdefined-uep-psl-
ftpserver.port in the /home/gomcr/ums-svr/deploy/deploy-gsmomcr01.properties
file is 20021.
2 . Log in as the root user, and then check whether listen_port in the
/etc/vsftpd/vsftpd.conf file is 10021.
3 . If the value is not the correct one, modify it.
Modify Server Configuration File
Modify the deploy-default.properties file as the OMC user
1 . Log in to the server as the OMC user.
2 . Enter the …\ums-svr\deploy directory, and then open the deploy-
default.properties file.
3 . Search the userdefined-uep-psl-ftpserver.port field and make sure that the value
of this field is identical with the configuration of the ftpserver port enabled on the OMCB
server. If it is not, then modify the value to 20021.
Content
Overview Data Planning LMT Configuration OMCB Configuration
Overview Configure Basic Properties Configuring SDR Physical Data Configuring Transmission Resource Configuring Radio Resource Data Synchronization & Upload
Create SDR Management NE
Apply Mutex Right
Content
Overview Data Planning LMT Configuration OMCB Configuration
Overview Configure Basic Properties Configuring SDR Physical Data Configuring Transmission Resource Configuring Radio Resource Data Synchronization & Upload
Create Base Station Equipment Resource Management
Create BBU Rack
Create RRU Rack
Create Rack Topology
Create Antenna
Create Clock Source Priority
Create Dry Contact Alarm
Content
Overview Data Planning LMT Configuration OMCB Configuration
Overview Configure Basic Properties Configuring SDR Physical Data Configuring Transmission Resource Configuring Radio Resource Data Synchronization & Upload
Transmission Resource Configuration Flow
Create E1/T1 Line (IPoE1)
Create High-Level Data Link Control (IPoE1)
Create PPP (IPoE1) PPP ID Used HDLC ID Connection
Object
PPP ID 0 HDLC ID0 iBSCPPP ID 1 HDLC ID1~3 RNCPPP ID 2 HDLC ID4 OMCB
Create Ethernet(IPoFE)
Create Global Port
Create IP Parameter IP ID0: WCDMA IP (IPoFE) uses it. IP ID1: GSM IP uses it. IP ID2: WCDMA IP (IPoE1) uses it. IP ID3: OMCB Link IP uses it.
Create IP Parameter
Create SCTP Association
Create SCTP Stream (Only for WCDMA)
create the SCTP stream parameters of NCP and CCP
Create OMC-B Link
Content
Overview Data Planning LMT Configuration OMCB Configuration
Overview Configure Basic Properties Configuring SDR Physical Data Configuring Transmission Resource Configuring Radio Resource Data Synchronization & Upload
Create Base Station Radio Resource Management
1. In the resource tree, choose the Config Set node under the SDR. Right-
click Config Set and choose Create > Base Station Radio Resource
Management in the popup menu to open the Base Station Radio Resource
Management dialog box. Click OK.
2. The Base Station Radio Resource Management node is displayed in the
resource tree.
Create RRU Common Parameter
Create RF Connection
Create GSM Radio Resource 1
Create GSM Radio Resource 2
Create GSM Radio Resource 3
Create WCDMA Radio Resource 1
Create WCDMA Radio Resource 2
Content
Overview Data Planning LMT Configuration OMCB Configuration
Overview Configure Basic Properties Configuring SDR Physical Data Configuring Transmission Resource Configuring Radio Resource Data Synchronization & Upload
Data Synchronization
Upload Data to OMCB
Content
Overview Data Planning LMT Configuration OMCB Configuration BSC Configuration
Overview IP over E1 Interface Configuration Create IP Property Create SDR Site and Radio Resource
RNC Configuration
BSC Configuration Flow
Create IP Property
IP over E1 Interface Configuration
Create SDR Site and Radio Resource
Complete
Content
Overview Data Planning LMT Configuration OMCB Configuration BSC Configuration
Overview IP over E1 Interface Configuration Create IP Property Create SDR Site and Radio Resource
RNC Configuration
Create Abis Interface Board
Create IP Abis Interface
Create SDR Real Interface
Create IP over E1 Configuration
Create PPP Configuration
Content
Overview Data Planning LMT Configuration OMCB Configuration BSC Configuration
Overview IP over E1 Interface Configuration Create IP Property Create SDR Site and Radio Resource
RNC Configuration
Create IP Property
Content
Overview Data Planning LMT Configuration OMCB Configuration BSC Configuration
Overview IP over E1 Interface Configuration Create IP Property Create SDR Site and Radio Resource
RNC Configuration
Create SDR Site
Create Cell
Create TRX
Content
Overview Data Planning LMT Configuration OMCB Configuration
Overview Configure Basic Properties Configuring SDR Physical Data Configuring the Transport Network Configuring GSM Radio Resource Configuring WCDMA Radio Resource Data Synchronization & Upload
OMCB Configuration Flow
Modify Server Configuration
File
Configuring SDR Physical Data
Configure Basic Properties
Configuring Transmission
Resource
Complete
Add a Route
Configuring Radio Resource
Data Synchronization
Add a Route
1 . The command used to add a route on OMCB (SBCX) is:
#route add -net 112.12.6.18 gw 139.29.12.254 netmask 255.255.255.0 139.29.12.1
NoteNote::In the LINUX system, the command used to add a route is:
route add -net destination network address gw next-hop address netmask IP address
of the network mask
2 . After the operation, execute the netstat –nr command to view the route.
3 . Set a permanent route. After adding the route using the route add command, to
avoid route loss after restarting the SBCX, you can add the line blow into the /etc/rc.d
/rc.local file as the root user:
#route add –net 112.12.6.18 gw 139.29.12.254 netmask 255.255.255.0 139.29.12.1
Modify Server Configuration File
Modify deploy-030womcb.properties
1 . Log in to the server as the OMC user.
2 . Enter the …\ums-svr\deploy directory, and then open the deploy-
020sdrmap.properties file.
3 . Modify the fields in the red box to OMCB_IP.
Modify FTP Configuration File as the OMC User
1. Log in as the gomcr user, and then check whether userdefined-uep-psl-
ftpserver.port in the /home/gomcr/ums-svr/deploy/ deploy-default.properties file is
20021.
2 . Log in as the root user, and then check whether listen_port in the
/etc/vsftpd/vsftpd.conf file is 10021.
3 . If the value is not the correct one, modify it.
Modify Server Configuration File
Modify the deploy-default.properties file as the OMC user
1 . Log in to the server as the OMC user.
2 . Enter the …\ums-svr\deploy directory, and then open the deploy-
default.properties file.
3 . Search the userdefined-uep-psl-ftpserver.port field and make sure that the value
of this field is identical with the configuration of the ftpserver port enabled on the OMCB
server. If it is not, then modify the value to 20021.
Content
Overview Data Planning LMT Configuration OMCB Configuration
Overview Configure Basic Properties Configuring SDR Physical Data Configuring the Transport Network Configuring GSM Radio Resource Configuring WCDMA Radio Resource Data Synchronization & Upload
Create SDR Management NE
Apply Mutex Right
Content
Overview Data Planning LMT Configuration OMCB Configuration
Overview Configure Basic Properties Configuring SDR Physical Data Configuring the Transport Network Configuring GSM Radio Resource Configuring WCDMA Radio Resource Data Synchronization & Upload
Create Base Station Equipment Resource Management
Create BBU Rack
Create RRU Rack(R8882)
Create RRU Rack(R8840)
Create Fiber Cable
① Create fiber cable between FS and R8882
② Create fiber cable between FS and R8840
Create Clock Device
Create Antenna Device For RTR-U216, it supports the antenna to receive diversity, that is , port 1
works as Tx and Rx simultaneously, and port 2 is responsible for Rx to achieve 1T2R. It is necessary to configure two antennas and their corresponding sending and receiving relationship.
For R8882-GUL9012, port 1 and port 3 can work as Tx and Rx at the same time, port 2 and port 4 are responsible for Rx to achieve 2T4R. It is necessary to configure four antennas and their corresponding sending and receiving relationship.
Create Dry Contact Alarm
Modify PA Device Attribute
Content
Overview Data Planning LMT Configuration OMCB Configuration
Overview Configure Basic Properties Configuring SDR Physical Data Configuring the Transport Network Configuring GSM Radio Resource Configuring WCDMA Radio Resource Data Synchronization & Upload
Transport Network Configuration Flow
IP Port
HDLC
PPP/ML-PPP
IP Parameter
IP Port
SCTP Accociation OMCB Channel
IP over E1 IP over FE
Create IP Port
① IP Port for IP over FE
② IP Port for IP Over E1
③ Complete
Create HDLC Channel Object (IPoE1)
Create PPP (IPoE1)
PPP No Used HDLC No. Connection Object
PPP No.0 HDLC No.0 iBSC
PPP No.1 HDLC No.1~3 RNC
PPP No.2 HDLC No.4 OMCB
Create the PPP to iBSC
Create PPP to RNC
Create PPP to the OMCB
PPP Complete Creation
Create IP Parameter
IP ID1: WCDMA IP (IPoFE) uses it. IP ID2: GSM IP uses it. IP ID3: WCDMA IP (IPoE1) uses it. IP ID4: OMCB Link IP uses it.
Create IP parameter for WCDMA IP (IPoFE)
Create IP parameter for GSM
Create IP parameter for WCDMA (IPoE1)
Create IP parameter for OMCB link
IP Parameter Complete Creation
IP address, Net mask, Gateway: In the IPoFE transmission, type the
real IP address. In the IPoE1 transmission, keep the default setting.
Create SCTP Association
Create SCTP Stream (Only for WCDMA)
Create OMCB Channel
Content
Overview Data Planning LMT Configuration OMCB Configuration
Overview Configure Basic Properties Configuring SDR Physical Data Configuring the Transport Network Configuring GSM Radio Resource Configuring WCDMA Radio Resource Data Synchronization & Upload
Create GSM Radio network Object
Create GSM RU
Create GSM Sector
Create GSM Carrier Frequency
Content
Overview Data Planning LMT Configuration OMCB Configuration
Overview Configure Basic Properties Configuring SDR Physical Data Configuring the Transport Network Configuring GSM Radio Resource Configuring WCDMA Radio Resource Data Synchronization & Upload
Create WCDMA Radio network Object
Create Operator object
Create Baseband Resource Pool
Create WCDMA Sector
Create WCDMA Local Cell
Content
Overview Data Planning LMT Configuration OMCB Configuration
Overview Configure Basic Properties Configuring SDR Physical Data Configuring the Transport Network Configuring GSM Radio Resource Configuring WCDMA Radio Resource Data Synchronization & Upload
Data Synchronization
After properly configuring the transmission
resources and establishing the link
between the OMCB and SDR, you need to
perform data synchronization.
Upload Data to OMCB
The configuration data has existed in the SDR, for example, the SDR
data has been configured by using the LMT. For this scenario, you need
to upload the SDR data to the OMCB.
Content
Overview Data Planning LMT Configuration OMCB Configuration BSC Configuration
Overview IP over E1 Interface Configuration Create IP Abis Bandwidth Resource Pool Create IP Property Create SDR Site and Radio Resource
BSC Configuration Flow
Create IP Property
IP over E1 Interface Configuration
Create SDR Site and Radio Resource
Complete
Create IP Abis Bandwidth Resource
PoolThe iBSC has finished commissioning and
debugging, and all functions are normal.This chapter only describes the operation of connection between the iBSC and SDR.
Content
Overview Data Planning LMT Configuration OMCB Configuration BSC Configuration
Overview IP over E1 Interface Configuration Create IP Abis Bandwidth Resource Pool Create IP Property Create SDR Site and Radio Resource
Create Abis Interface Board
Create IP Abis Interface
Create SDR Real Interface
Create IP over E1 Configuration
Create PPP Configuration
Content
Overview Data Planning LMT Configuration OMCB Configuration BSC Configuration
Overview IP over E1 Interface Configuration Create IP Abis Bandwidth Resource Pool Create IP Property Create SDR Site and Radio Resource
Create IP Abis Bandwidth Resource Pool
Content
Overview Data Planning LMT Configuration OMCB Configuration BSC Configuration
Overview IP over E1 Interface Configuration Create IP Abis Bandwidth Resource Pool Create IP Property Create SDR Site and Radio Resource
Create IP Property
Content
Overview Data Planning LMT Configuration OMCB Configuration BSC Configuration
Overview IP over E1 Interface Configuration Create IP Abis Bandwidth Resource Pool Create IP Property Create SDR Site and Radio Resource
Create SDR Site
Create Cell
Create TRX
Content
RNC Configuration Overview IP over E1 Interface Configuration IP over FE Interface Configuration RPU Board IP Address Configuration Node B Office Configuration Path Group Configuration SCTP Association Configuration Node B Office Properties Configuration Global Supplemented Resource Configuration Radio Resource Configuration
Configuration Flow
Start
Complete
Configuring IP over E1 Interface
Configuring IP over FE Interface
Configuring RPU Board IP Address
Configuring Node B Office
Configuring Path Group
Configuring SCTP Association
Configuring Node B Office
Information
Configuring Global Supplemented
Info
Configuring Node B
Configuration Information
Configuring UTRAN CELL
Content
RNC Configuration Overview IP over E1 Interface Configuration IP over FE Interface Configuration RPU Board IP Address Configuration Node B Office Configuration Path Group Configuration SCTP Association Configuration Node B Office Properties Configuration Global Supplemented Resource Configuration Radio Resource Configuration
Create Iub Interface Board
Create Iub Interface Board SDTI
Create Semi-Permanent Connection For SDTI
Create HDLC Link According to the planned data, HDLC ID1 is transmitted to iBSC
through semi-permanent channel. Therefore, only the remaining four HDLC channels need to be configured at RNC side.
Creating IP Over E1 Ports
According to the planned data, there are totally four E1 lines to be processed on EIPI board. HDLC ID2, HDLC ID3, and HDLC ID4 use the same communication port number. HDLC ID5 is a dedicated channel of OMCB and it needs an individual port number. Therefore ,four IP Over E1 port numbers need to be created.
Creating PPP Link for EUIP Port
Each IP over E1 must be configured with a PPP link. The links with the same Interface E1 No will be automatically bound in the same PPP link. .
Creating Interface IP Addresses
The following two IP addresses need to be configured for EIPI board: EUIP_3GSDR: This IP address is used to transfer service data. EUIP_OMCB: This IP address is used to transfer OMCB supervision
data.
Content
RNC Configuration Overview IP over E1 Interface Configuration IP over FE Interface Configuration RPU Board IP Address Configuration Node B Office Configuration Path Group Configuration SCTP Association Configuration Node B Office Properties Configuration Global Supplemented Resource Configuration Radio Resource Configuration
Create GIPI IP Interface
Content
RNC Configuration Overview IP over E1 Interface Configuration IP over FE Interface Configuration RPU Board IP Address Configuration Node B Office Configuration Path Group Configuration SCTP Association Configuration Node B Office Properties Configuration Global Supplemented Resource Configuration Radio Resource Configuration
Create RPU Board IP Address
Content
RNC Configuration Overview IP over E1 Interface Configuration IP over FE Interface Configuration RPU Board IP Address Configuration Node B Office Configuration Path Group Configuration SCTP Association Configuration Node B Office Properties Configuration Global Supplemented Resource Configuration Radio Resource Configuration
Create Node B Office
Content
RNC Configuration Overview IP over E1 Interface Configuration IP over FE Interface Configuration RPU Board IP Address Configuration Node B Office Configuration Path Group Configuration SCTP Association Configuration Node B Office Properties Configuration Global Supplemented Resource Configuration Radio Resource Configuration
Create Path Group
This task creates the path group and assign the path group number.
Content
RNC Configuration Overview IP over E1 Interface Configuration IP over FE Interface Configuration RPU Board IP Address Configuration Node B Office Configuration Path Group Configuration SCTP Association Configuration Node B Office Properties Configuration Global Supplemented Resource Configuration Radio Resource Configuration
Create SCTP Association
Content
RNC Configuration Overview IP over E1 Interface Configuration IP over FE Interface Configuration RPU Board IP Address Configuration Node B Office Configuration Path Group Configuration SCTP Association Configuration Node B Office Properties Configuration Global Supplemented Resource Configuration Radio Resource Configuration
Create Node B Office Properties
Content
RNC Configuration Overview IP over E1 Interface Configuration IP over FE Interface Configuration RPU Board IP Address Configuration Node B Office Configuration Path Group Configuration SCTP Association Configuration Node B Office Properties Configuration Global Supplemented Resource Configuration Radio Resource Configuration
Create Global Supplemented Resource Global supplemented resource is used for OMCB RPU IP address
and outgoing OMCB NM IP.
Content
RNC Configuration Overview IP over E1 Interface Configuration IP over FE Interface Configuration RPU Board IP Address Configuration Node B Office Configuration Path Group Configuration SCTP Association Configuration Node B Office Properties Configuration Global Supplemented Resource Configuration Radio Resource Configuration
Radio Resource Configuration -----------Node B Configuration Information
This task creates the management relation between RNC and Node B, and configures the basic information.
Radio Resource Configuration -----------Create UTRAN Cell Global Information
Radio Resource Configuration -----------Create UTRAN Cell Setup Parameters