Base Station Configuration Management ZTE University
Objectives
Understand the base station configuration flow
Master the base station equipment resource configuration
Master the base station radio resource configuration
Contents
Base Station Configuration Overview
Configuration Management Initialization
Base Station Equipment Resource Configuration
Base Station Transmission Resource Configuration
Base Station Radio Resource Configuration
Overview Equipment resource
Transmis sion resource
eNodeB configuration
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Radio resource
Base Station Configuration Flow Start LTE sub-network available?
Y Create base station
Apply for Mutex right
Configure Base Station Equipment resource
Configure Base Station Transmission resource
Configure Radio resource End
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N
Create LTE sub-network
Contents
Base Station Configuration Overview
Configuration Management Initialization
Base Station Equipment Resource Configuration
Base Station Transmission Resource Configuration
Base Station Radio Resource Configuration
Configuration Flow
Log in to the
Create an NE
Start an NE
EMS client
agent
agent
Create a subnet
Configure the
transmission resource
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Create a BS
Start the configuration
management
Apply for the
Configure the
mutually exclusive
equipment
access
resource
Configure the
Synchronize
radio resource
data
Starting the EMS Client On the desktop of Windows, select Start > All Programs > Net-Numen Unified Management System > NetNumen Client.
Input User Name, Password and Server Address, and click OK to enter the EMS system management interface.
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Creating an NE Agent
Right-click the root node of topology tree, and from the prompt drop-down menu, select Create Object > Basestation> Multi-mode > MO SDR NE Agent.
On the Create MO SDR NE Agent
interface, input the related information of the OMM server, and click OK. © ZTE Corporation. All rights reserved
Starting an NE Agent
Start up the NE agent:
• Right-click the NE Agent node, and select NE Agent Management > Start to start the NE agent. • Check whether the NE agent is properly started. If yes, the NE Agent node is shown in blue or red.
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Creating a Subnetwork 1. In the EMS client window, select Configuration > NE Management. 2. In the left pane of the NE Management window, rightclick the NE agent and select Start NE Management. 3.Right-click the NE agent, and select Configuration Management. 4.In the Configuration Management window, rightclick the NE agent and select Create Subnetwork.
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Creating an NE In the Configuration Management window, right-click the created subnetwork and select Create NE.
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Applying for the Mutually Exclusive Access
To prevent different clients
or different users to conflict with each other during mutual operation, the NE management enables the
right restriction. After an NE is created, to perform the add, deletion, modification, and view operations upon
this NE, you must apply for the mutually exclusive access first.
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(Optional) Configuring System Parameters
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Contents
Base Station Configuration Overview
Configuration Management Initialization
Base Station Equipment Resource
Configuration
Base Station Transmission Resource
Configuration
Base Station Radio Resource Configuration
Equipment Resource Configuration Flow
Create operator
Configure physical
Configuration network
information
resources
transmission resources
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Creating an Operator In the Configuration Management window, expand the NE and select Modify Area.
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In the Managed Element tree, double-click Operator.
Creating an PLMN
In the configuration resource tree, expand Operator and double-click PLMN.
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On the PLMN-List tab, click
Creating a Baseband Resource Board 1. In the managed element tree, doubleclick Device.
2. On the Physical View sub-tab of the Rack Graph tab, rightclick the slot in which a board is to be created and select Add Board.
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Notes: Based on BBU board planning, repeat step 2 and step 3 to create the SA, BPL or BPL1, and PM boards.
Creating an RRU 1. In the managedelement tree, doubleclick Device.
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2. On the Physical View tab, click
.
BBU Board Introduction ZXSDR B8300 TL200 Slot No.
When you create a rack, the system creates a CC board by default, and other boards should be configured in accordance with the actual requirement.
17(PM1) 16(PM2) 14(SE) 13(SA)
6(BPL9) 5(BPL8) 4(BPL7) 3(BPL6) 2 (CC2) 1 (CC1)
12(BPL5) 11(BPL4) 10(BPL3) 9(BPL2) 8(BPL1) 7(UCL)
18(FA)
Note: In X(YZ), X is the slot No., Y is the board applicable in this slot, Z is the slot priority when the board and slot are in an one-to-many relationship.
Example 17(PM1)
The board is created in this sequence: PM > CC > SA > SE > FA > UCI > BPL.
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11(BPL4) 10(BPL3) 9(BPL2) 8(BPL1)
16(PM2) 13(SA)
18(FA)
1 (CC1)
After determining the actual configuration of BBU, you need to configure the related boards in the corresponding slots. In this example, the boards are created in this sequence of PM*2 > SA > FA > BPL*4. After the LTE (BPL) board is created successfully, the system automatically creates optical ports.
Configuring the SNTP In the managed-element tree, select System Parameter and double-click Time Configuration.
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Clock Source Parameter Configuration 1. In the managed-element tree, select Device > B8200(1,1) > CC(1.1.1) (B8200 is a BBU type, and is shown as an example) and double-click Clock Device
Set.
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2. Click
.
Power Module Configuration
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Configuring the Baseband Board Attributes
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Configuring the Optical Port Attributes of a Baseband Board In the managed-element tree, select Device > B8200(1,1) > BPLor BPL1 (B8200 is a BBU type, and is shown as an example) and double-click Optical Port Device Set.
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Optical Port Device Configuration In the managed-element tree, select Device > B8200(1,1) > BPL or BPL1 > Optical Port Device Set (B8200 is a BBU type, and is shown as an example) and double-click Optical Port Device. The Optical Port Device-List tab is displayed. There are three configuration records for the optical port device, corresponding to the three optical ports of the BPL board.
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Configuring the RRU Attributes In the managed-element tree, select Device > RRU and double-click R8962 (R8962 is an RRU type, and is shown as an example).
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RRU Optical Port Device Configuration In the managed-element tree, select Device > RRU > R8962 > Optical Port Device Set (R8962 is an RRU type, and is shown as an example) and double-click Optical Port Device. The Optical Port Device-List tab is displayed. There are three configuration records for the optical port device by default.
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Creating Optic Fiber RF Resource—1 During the configuration, the matching relationship between RRU and BPL is configured in accordance with the following principle:
• If there are several baseband boards and each baseband is connected to one RRU, configure the one-to-one corresponding relationship between the RRU RF resource No. and BPL slot priority No. • If there is only one baseband board and it is connected to several RRUs, configure the one-to-one corresponding relationship between the RRU RF No. and BPL optic port priority. The priority of optic port from top to down is: OF0/optic port 0, OF1/optic port 2, and OF0/optic port 3. • If there are several baseband boards and the baseband boards are connected to several RRUs or one RRU, consider the priorities of the BPL and optic fibers both.
After configuring the RRU RF resource and RF antenna group, you need to configure the optic RF resource, so that the BBU baseband board and RRU can form a matching relationship. © ZTE Corporation. All rights reserved
Creating Optic Fiber RF Resource—2 Relationship Between BBU Baseband Board and RRU/Cell B8300 baseband board is connected to one RRU 17(PM1)
16(PM2)
6(BPL9—RRU9— CELL9) 5(BPL8—RRU8— CELL8) 4(BPL7—RRU7— CELL7) 3(BPL6—RRU6— CELL6)
14(SE)
2 (CC2)
13(SA)
1 (CC1)
12(BPL5—RRU5— CELL5) 11(BPL4—RRU4— CELL4) 10(BPL3—RRU3— CELL3) 9(BPL2—RRU2— CELL2) 8(BPL1—RRU1— CELL1) 7(UCL)
18(FA)
Baseband is connected to several RRUs [BPL-OF2-RRU3-CELL3][BPL-OF1-RRU2-CELL2][BPL-OF0-RRU1-CELL1]
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Creating an Antenna Entity
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Configuring an RF Cable
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Configuring an Ir Antenna Group
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Configuring a Fiber Cable
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Contents
Base Station Configuration Overview
Configuration Management Initialization
Base Station Equipment Resource Configuration
Base Station Transmission Resource Configuration
Base Station Radio Resource Configuration
Transmission Resource Configuration Structure
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Configuring the Transmission Resource Physical Layer Port Configuration IP Transmission Configuration
Bandwidth Configuration Signaling and Business Configuration
Static Routing Configuration OMC Channel Configuration © ZTE Corporation. All rights reserved
Configuring a Physical Layer Port 1. In the managed element tree, select Transmission Network > LTE FDD > Physical Hosting and doubleclick Physical Layer Port.
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2. Click “+” in the right
pane.
IP Transmission Configuration—Configuring an Ethernet Link
In the managed-element tree, select Transmission Network > LTE TDD > IP Transport and double click Ethernet Link Layer.
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IP Transmission Configuration—Configuring the IP Layer
In the managed-element tree, select Transmission Network > LTE TDD > IP Transport and double-click IP Layer Configuration.
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Bandwidth Configuration—Bandwidth Resource Group
In the managed-element tree, select Transmission Network > LTE TDD > Bandwidth Assignment and double-click Bandwidth Resource Group.
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Bandwidth Configuration—Bandwidth Resource
In the managed-element tree, select Transmission Network > LTE TDD > Bandwidth Assignment > Bandwidth Resource
Group and double-click Bandwidth Resource.
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Signaling and Business Configuration—SCTP Parameters
In the managed-element tree, select Transmission Network > LTE TDD > Signaling and Business and double-click SCTP.
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Signaling and Business Configuration—DSCP Mapping
In the managed-element tree, select Transmission Network > LTE TDD > Signaling and Business and double-click Service and DSCP Mapping.
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Configuring a Static Routing
In the managed-element tree, select Transmission Network >
LTE TDD > Static Route and double-click Static Routing Configuration.
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Configuring an OMC Channel
In the managed-element tree, select Transmission Network > LTE TDD and double-click OMC Channel.
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Contents
Base Station Configuration Overview
Configuration Management Initialization
Base Station Equipment Resource Configuration
Base Station Transmission Resource Configuration
Base Station Radio Resource Configuration
Radio Resource Configuration Flow
Configuring LTE
Configuring
TDD/FDD Global
Baseband
Parameters
Resources
Configuring the S1AP
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Configuring a Serving
Cell
Configuring LTE TDD/FDD Global Parameters In the managed-element tree, select Radio Parameter and double-click LTE TDD.
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Configuring Baseband Resources In the managed-element tree, select Radio Parameter > LTE TDD > Resource Interface Configuration and double-click Baseband Resource.
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S1AP Configuration In the managed-element tree, select Radio Parameter > LTE TDD > Resource Interface Configuration and double-click S1AP.
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Configuring a Serving Cell—1 In the managed-element tree, select Radio Parameter > LTE TDD and double-click E-UTRAN TDD Cell.
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Configuring a Serving Cell—2
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Configuring a Serving Cell—3
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Data Synchronization After an eNodeB is configured in the network management system, the configuration data is only saved in the database of the back-end network management system. Users must perform synchronization to update the configuration data of the front-end eNodeB to validate the configuration.
All-table synchronizat
ion
Data synchronizat
ion Record level
All product
increment
table
synchronizat
synchronizat
ion
ion
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Synchronizing All Tables
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