ZXSDR BTS/Node BGSM/UMTS Base Station
Data Configuration Operation Guide
Version 4.09.21
ZTE CORPORATIONNO. 55, Hi-tech Road South, ShenZhen, P.R.ChinaPostcode: 518057Tel: (86) 755 26771900Fax: (86) 755 26770801URL: http://ensupport.zte.com.cnE-mail: [email protected]
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Revision History
Revision No. Revision Date Revision Reason
R1.0 20100601 First Edition(V4.09.21.01)
R2.0 20100726 Second Edition(V4.09.21.02)
R3.0 20100915 All figures about the network management in-terface have been updated due to version up-grade(V4.09.21.03)
Add topic "Reference Manuals" and revise topic"Overview", "Attribute Property" in chapter 1
Revise topic "Overview" in chapter 2
Revise topic "Overview of Equipment Object","Creating a Fiber Cable Object", "Creating an RFReceiving Extended Connection Object", "Creat-ing an Auxiliary Peripheral Device", "Creating anEmbedded Power Device Object", "Creating a TMAFeeder Cable Object" in chapter 3
Revise topic "Overview of Transport Network Ob-ject", "Creating an NCP/CCP Object", "Creating aUser Plane Bearer", "Creating an OMC Channel Ob-ject" and delete topic "Creating an Iub InterfaceObject" in chapter 4
Revise topic "Overview of SdrFunction", "Creatinga UMTS Sector Object" in chapter 5
Serial Number: SJ-20100510160815-005
Contents
Preface.............................................................. I
Base Station Managed Object Model..................1Overview....................................................................... 1
MO's Attributes .......................................................... 2
Data Type ......................................................... 2
Attribute Property .............................................. 2
Inter-MO Relations...................................................... 3
Containment Relation ......................................... 3
Association Relation ........................................... 4
Creating and Deleting an MO........................................ 4
Base Station Configuration Resource Tree .......................... 5
General Process to Configure a Base Station ...................... 5
Reference Manuals.......................................................... 6
Preparing to Configure a Base Station...............7Overview....................................................................... 7
Creating a Subnetwork.................................................... 7
Creating a Base Station................................................... 9
Applying for Mutex Right ................................................10
Creating a Base Station Configuration Set.........................12
Configuring an Equipment Object ....................15Overview of Equipment Object ........................................15
General Process to Configure an Equipment Object ............17
Creating an Equipment Object.........................................19
Creating a Rack.............................................................20
Creating a Board ...........................................................22
Creating a Fiber Cable Object ..........................................24
Creating an RF Receiving Extended Connection Object .........26
Creating an Auxiliary Peripheral Device.............................28
Creating an Embedded Power Device Object......................30
Creating an Antenna Device Set Object ............................31
Creating an RET Device Object ........................................33
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Creating an Antenna Device Object ..................................34
Creating an Antenna System Controller ............................36
Creating a TMA Device Object .........................................37
Creating an AISG Device Object ......................................39
Creating a TMA Feeder Cable Object.................................40
Creating an IP Clock Parameter Object .............................42
Creating a Dry Contact Device Object...............................43
Creating a Clock Device Object........................................45
Modifying Configured Parameters of an MO .......................47
Configuring a Transport Network Object .........49Overview of Transport Network Object..............................49
General Process to Configure a Transport Network
Object..................................................................51
Creating an IP Port ........................................................53
Creating an ATM Port Object ...........................................55
Creating an HDLC Channel Object ....................................57
Creating a PPP ..............................................................59
Creating a VLAN Object ..................................................61
Creating an Ethernet Fault Detection Object ......................62
Creating an IP Parameter................................................64
Creating an IP Route......................................................66
Creating an SCTP Object ................................................67
Creating a Bidirectional Forwarding Detection Object ..........69
Creating a Qos Mapping Object........................................71
Creating a TC Object......................................................73
Creating an IMA ............................................................74
Creating an AAL2 Object.................................................76
Creating an AAL5 Object.................................................78
Creating an ATM Route...................................................79
Creating a TSI Object.....................................................81
Creating an NCP/CCP Object ...........................................82
Creating a User Plane Bearer...........................................84
Creating an OMC Channel Object .....................................85
Configuring an SdrFunction Object ..................89Overview of SdrFunction.................................................89
General Process to Configure an SdrFunction Object...........91
Creating a UMTS Radio Network Object ............................92
Creating an Operator Object ...........................................94
Creating a UMTS Sector Object........................................95
Creating a Local Cell Object ............................................97
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Creating a Dual-carrier Cell Relation Object.......................98
Creating a Baseband Resource Pool Object...................... 100
Creating a GSM Radio Network Object ............................ 102
Creating a GSM Carrier Frequency Object ....................... 104
Creating a GSM RU Object ............................................ 105
Creating a GSM Sector Object ....................................... 107
Creating a GSM Multi-Carrier Combination Object ............ 108
Figures ..........................................................111
Tables ...........................................................115
Glossary ........................................................117
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Preface
About This Manual As a mobile network element management system betweenlower-layer network management system and upper-layer oper-ation support system, NetNumen M31™ enables users to controlthe network as a whole and provides centralized network man-agement for operators. Through interfaces of various networkmanagement systems, it changes previously decentralized net-work management to centralized network topology, alarm, andperformance management. Additionally, it provides necessaryinterfaces to upper-layer application systems.
NetNumen M31 features object-oriented technologies and ad-vanced J2EE-based platform design. It enables access of variousnetwork elements independently developed by ZTE Corporation,provides centralized alarm and performance management, andsupports cross-network element performance data analysis.
This manual provides a guide to use the base station configurationfunction of the NetNumen M31™ mobile network element man-agement system and introduces how to configure the base stationthrough the network management system.
What Is in ThisManual Chapter Summary
Chapter 1 Base Station ManagedObject Model
Introduces the concept of thebase station managed objectmodel and the general process toconfigure a base station.
Chapter 2 Preparing to Configurea Base Station
Introduces preparatory tasks andprocedures before configuring abase station.
Chapter 3 Configuring anEquipment Object
Introduces how to configure anequipment object.
Chapter 4 Configuring a TransportNetwork Object
Introduces how to configure antransport network object.
Chapter 5 Configuring anSdrFunction object
Introduces how to configure anSdrFunction object.
IntendedAudience
� Commissioning engineer
� Maintenance engineer
� Network management engineer
Conventions � Mouse operations
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Typeface Meaning
Click It refers to clicking the left mouse buttononce.
Double-click It refers to quickly clicking the left mousebutton twice.
Right-click It refers to clicking the right mouse buttononce.
Drag It refers to pressing and holding the leftmouse button and moving the mouse.
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C h a p t e r 1
Base Station ManagedObject Model
Table of ContentsOverview........................................................................... 1Base Station Configuration Resource Tree .............................. 5General Process to Configure a Base Station .......................... 5Reference Manuals.............................................................. 6
OverviewThe base station managed object model (MOM) is an object-ori-ented abstract concept about all manageable resources of a basestation. The model defines the ways of model-based resourcemanagement and the structure of information transfer betweenoperator and managed objects. Managed objects (MOs) are usedas a tool to describe the MOM. The NMS manages a base stationby creating, deleting, and modifying MOs.
Each network resource to be managed is abstracted to an MO un-der the object-oriented concept. As an abstract of a resource,each MO reflects the characteristics of the resource and the re-sults of the resource management. Each MO represents a man-ageable base station resource, which can be physical (for example,a board) or logical (software, protocol, etc.). Generally, resourceshave configurable parameters, statuses, and operations, which areabstracted to the attributes, statuses, and actions of MOs respec-tively.
An MO has the following characteristics:
� Attribute
Each MO has its attributes, which correspond to certain val-ues. These values are visible within the corresponding MOsand decide MOs' behaviors. Attribute-related operations areperformed through MO-related operations. By sending "read"or "write" request to an MO, one can check or modify its at-tributes. It is illegal to perform attribute-related operations di-rectly. The constraints among internal individual attributes canbe defined in MO definitions. Attribute-related operations mustmeet such constraints. Moreover, acceptable attribute-relatedoperations, such as "read only" and "read and write", must bespecified.
� Action
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ZXSDR BTS/Node B Data Configuration Operation Guide
An action refers to an operation performed to an MO. Themeaning of an action is specified in the definition of the corre-sponding MO. Common actions include resetting, blocking/un-blocking, active/standby changeover, and status query.
� Notification
A notification refers to the message sent by an MO when acertain event occurs in the MO. Common notifications includeobject creation, object deletion, attribute modification, statuschange, alarm, and notice.
� Behavior
The behavior of an MO specifies the interactions between theMO and its corresponding resources and MOs.
MO's Attributes
Data Type
The attributes of an MO support the data types listed in Table 1.
TABLE 1 DATA TYPES SUPPORTED BY MO ATTRIBUTES
Data Type Description
long 32-digit signed integer
unsigned long 32-digit unsigned integer
string Character string
sequence Set; used to store multiple varia-bles of a data type
Attribute Property
MOs' attributes have five properties, as described in Table 2.
TABLE 2 ATTRIBUTE PROPERTY
Attribute Property Description
I Initialize; correct values must beassigned when you create an MO.
P Persistent; it means the value canbe recovered after a restart, thatis, the value can be configured atthe NMS and delivered to the NE.
R Read; it means readable.
W Write; it means modifiable.
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Chapter 1 Base Station Managed Object Model
Attribute Property Description
N Notification; changing the valuewill trigger a notification. It is thesame as a dynamic field. A NEmodification will trigger a notifica-tion that will be sent to the NMS.
1. These properties can be combined. For example, I-R means "initialize" and"read only", a property under which you can assign a value to the parameterwhen you create an MO, but cannot change it afterwards.
Inter-MO Relations
There are two basic inter-MO relations, containment relation andassociation relation.
Containment Relation
The containment relation can be regarded as a parent-child rela-tion, namely, parent MO containing child MO. A specific child MOinstance has one and only a parent node instance.
As shown in Figure 1, MO_X is the parent node of MO_Y, and oneMO_X instance may contain 0-2 MO_Y instances. If MO_X doesnot exist, MO_Y cannot be created. Similarly, an MO_X cannotbe deleted if it has child nodes. The only exception is that, if allchild nodes of an MO_X are created automatically by the system,the MO_X can be deleted and these child nodes will be deletedautomatically.
FIGURE 1 INTER-MO CONTAINMENT RELATION
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Association Relation
In fact, the association relation is a quoting-quoted relation. OneMO instance can quote, or be quoted by, multiple MO instances ofthe same kind or different kinds.
As shown in Figure 2, MO_X quotes MO_Y and MO_Y is quoted byMO_X. One MO_X instance can quote 0-2 MO_Y instances whileone MO_Y instance can be quoted by 0-3 MO_X instances.
FIGURE 2 INTER-MO ASSOCIATION RELATION
Creating and Deleting an MO
To create an MO, create a parent node first, and then create childnodes. All attributes with the "I" property must be initialized cor-rectly when you create an MO.
To delete an MO, make sure that there is no child MO under it andall quoting-quoted relations are deleted correctly. Otherwise, theMO cannot be deleted.
Besides those attributes existing as member variables, an MO hasits own attributes, including:
� SystemCreated
MOs with the "SystemCreated" attribute are created automat-ically by the system, not configured by users. Such MOs arecreated automatically when their parent MOs are created, andcannot be deleted separately. If the parent MO of such an MOdoes not have the "SystemCreated" attribute, the MO will bedeleted automatically when the parent MO is deleted.
� Dynamic
MOs with the "Dynamic" attribute are reported dynamically bythe base station. It is not needed to configure them throughthe network management (NM) system. When you export theconfigured data through the NM system, you do not have toexport such MOs.
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Chapter 1 Base Station Managed Object Model
Base Station ConfigurationResource TreeThe base station managed object model is actually a tree of con-tainment relations. A tree node is an MO. The configuration re-source tree of a base station is shown in Figure 3.
FIGURE 3 CONFIGURATION RESOURCE TREE
General Process toConfigure a Base StationThe general process to configure a base station is shown in Figure4.
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FIGURE 4 GENERAL PROCESS TO CONFIGURE A BASE STATION
Reference ManualsPlease refer to ZXSDR BTS/Node B(V4.09.21) GSM/UMTS BaseStation Ground Parameter Reference and ZXSDR BTS/NodeB(V4.09.21) GSM/UMTS Base Station Radio Parameter Referencefor details about the explanation of base station MO’s parameters.
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C h a p t e r 2
Preparing to Configure aBase Station
Table of ContentsOverview........................................................................... 7Creating a Subnetwork........................................................ 7Creating a Base Station....................................................... 9Applying for Mutex Right ....................................................10Creating a Base Station Configuration Set.............................12
OverviewBefore configuring a base station, it is required to create suchnodes as subnetwork and base station and apply for the mutexright to configure the base station.
Functions of these steps is shown in Table 3.
TABLE 3 FUNCTIONS OF PRE-CONFIGURATION STEPS
Step Function
Creating a Subnetwork To create a sub-network for thebase station
Creating a Base Station To create a base station MO
Applying for Mutex Right To apply for the mutex right toconfigure a base station
Creating a Base StationConfiguration Set
To create a backup base stationconfiguration set
Creating a SubnetworkShort Description This section describes how to create a subnetwork that serves as
the parent node of the MOs under it.
Prerequisites The Configuration Management interface is opened.
Steps 1. Right-click the root node of the configuration resource tree. Ashortcut menu pops up, as shown in Figure 5.
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FIGURE 5 SHORTCUT MENU FOR CREATING A SUBNETWORK
2. Click Create > SubNetwork. The UTRAN SubNetwork dia-log box pops up, as shown in Figure 6.
FIGURE 6 UTRAN SUBNETWORK DIALOG BOX
3. Set parameters in the dialog box and click OK.
Note:
The subnetwork ID cannot be the same as the ID of any createdsubnetwork.
END OF STEPS
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Chapter 2 Preparing to Configure a Base Station
Result A subnetwork is created successfully and it appears on the config-uration resource tree as a node.
Creating a Base StationShort Description This section describes how to create a base station that serves as
the parent node of the configuration sets under it.
Prerequisites A subnetwork is created.
Steps 1. Right-click the target subnetwork. A shortcut menu pops up,as shown in Figure 7.
FIGURE 7 SHORTCUT MENU FOR CREATING A BASE STATION
2. Click Create > Base Station. The Base Station dialog boxpops up, as shown in Figure 8.
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FIGURE 8 BASE STATION DIALOG BOX
3. Set parameters in the dialog box and click OK.
Note:
The managed element ID cannot be the same as the ID of anyexisting managed element under the same subnetwork.
END OF STEPS
Result A base station is created successfully and it appears on the con-figuration resource tree as a node.
Applying for Mutex RightShort Description This section describes how to apply for the mutex right for base
station configuration management.
Prerequisites � A base station is created.
� The base station is in "idle" mutex right status.
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Chapter 2 Preparing to Configure a Base Station
Context The mutex right must be applied for before you create or modifybase station configurations to avoid data inconsistency that possi-bly occur when the base station is configured from several clientends at the same time.
Steps 1. Right-click the target base station. A shortcut menu pops up,as shown in Figure 9.
FIGURE 9 SHORTCUT MENU FOR APPLYING FOR MUTEX RIGHT
2. Click Apply Mutex Right. The Confirm dialog pops up, asshown in Figure 10.
FIGURE 10 CONFIRM DIALOG BOX
3. Click Yes. A lock-like icon appears in front of the base stationnode, meaning that the mutex right is applied for successfully,as shown in Figure 11.
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FIGURE 11 MUTEX RIGHT APPLIED FOR SUCCESSFULLY
END OF STEPS
Creating a Base StationConfiguration Set
Short Description This section describes how to create a standby base station con-figuration set.
Prerequisites � A base station is created.
� The mutex right is applied for successfully.
Context One base station may have multiple sets of configuration data,but only one set is in active status. The rest are in standby status.Standby configurations can be switched to active configurations.
When a base station is created, an active configuration set is cre-ated automatically. Operations to create a base station configura-tion set can be used to establish a set of standby configurationsfor the base station.
When a base station configuration set is created, its three childnodes, namely, equipment object, transport network object, andSdrFunction object, will be created automatically. After that, youcan perform configuration management to the base station by con-figuring these three child nodes and their MOs.
Steps 1. Right-click the target base station. A shortcut menu pops up,as shown in Figure 12.
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Chapter 2 Preparing to Configure a Base Station
FIGURE 12 SHORTCUT MENU FOR CREATING A BASE STATIONCONFIGURATION SET
2. Click Create > Base Station Config Set. The Base StationConfig Set dialog box pops up, as shown in Figure 13.
FIGURE 13 BASE STATION CONFIG SET DIALOG BOX
3. Set parameters in the dialog box and click OK.
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Note:
To switch a standby configuration set to an active one, double-
click the standby configuration set node and click in thetoolbar of the Base Station Config Set window that pops up.
END OF STEPS
Result A standby base station configuration set is created successfullyand it appears on the configuration resource tree as a node. Itschild nodes are created automatically, as shown in Figure 14.
FIGURE 14 STANDBY BASE STATION CONFIGURATION SET AND ITS CHILDNODES
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C h a p t e r 3
Configuring anEquipment Object
Table of ContentsOverview of Equipment Object ............................................15General Process to Configure an Equipment Object ................17Creating an Equipment Object.............................................19Creating a Rack.................................................................20Creating a Board ...............................................................22Creating a Fiber Cable Object..............................................24Creating an RF Receiving Extended Connection Object............26Creating an Auxiliary Peripheral Device.................................28Creating an Embedded Power Device Object..........................30Creating an Antenna Device Set Object ................................31Creating an RET Device Object ............................................33Creating an Antenna Device Object ......................................34Creating an Antenna System Controller ................................36Creating a TMA Device Object .............................................37Creating an AISG Device Object ..........................................39Creating a TMA Feeder Cable Object.....................................40Creating an IP Clock Parameter Object .................................42Creating a Dry Contact Device Object...................................43Creating a Clock Device Object............................................45Modifying Configured Parameters of an MO ...........................47
Overview of EquipmentObjectAn equipment object is an abstract of the physical equipment ofa base station and is the root node of all ground resources of thebase station. Through configuration management of the equip-ment object, you can configure and manage the ground resourcesof the base station.
The configuration resource tree of an equipment object is shownin Figure 15.
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FIGURE 15 CONFIGURATION RESOURCE TREE OF EQUIPMENT OBJECT
The functions of child MOs under the Equipment object are shownin Table 4.
TABLE 4 THE FUNCTIONS OF CHILD MOS UNDER THE EQUIPMENT OBJECT
MO Function
Rack Used for configuring theparameters related to themain rack or RF rack
Fiber cable object Used for configuring the fibercable connection between themain rack and the RF rack, orbetween RF racks
RF receiving extended connectionobject
Used for configuring RF receivingdiversity
TMA feeder cable object Used for configuring the feedercable connection betweenantenna device and TMA device,and configuring the feeder cableloss
Embedded power device object Used for configuring parametersrelated to embedded power deviceto transfer NMS data via basestation
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MO Function
RET device object Used for configuring parametersrelated to RET device
Ant device object Used for configuring parametersrelated to antenna
TMA device object Used for configuring parametersrelated to TMA device
AISG device object Used for configuring parametersrelated to AISG device
IP clock parameter object Used for configuring the IP clockparameters related to 1588 clock
Dry contact device object Used for alarm configuration ofthe dry contact device
Clock device object Used for configuring parametersrelated to the clock source of clockdevice
TAM Control Parameter Used for configuring the controlparameters of the TAM board
Time device object Used for configuring parametersrelated to time
Rx device object Used for managing parametersrelated to Rx device
RF special processing unit object Used for managing parametersrelated to RF special processingunit
PA device object Used for managing parametersrelated to PA device
Environment monitoring deviceobject
Used for managing parametersrelated to the threshold types andlimits of environment monitoring
GSMRU property object Used for managing parametersrelated to the properties of GSMRU device
General Process toConfigure an EquipmentObjectThe general process to configure an equipment object is shown inFigure 16.
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FIGURE 16 GENERAL PROCESS TO CONFIGURE AN EQUIPMENT OBJECT
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Chapter 3 Configuring an Equipment Object
Creating an EquipmentObject
Short Description This section describes how to create an equipment object thatserves as the parent node of the MOs under it.
Prerequisites � A base station is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target equipment object node on the config-uration resource tree. The Equipment Object interface ap-pears on the right, as shown in Figure 17.
FIGURE 17 EQUIPMENT OBJECT INTERFACE
2. Click on the toolbar of the interface. The Equipment Ob-ject dialog box pops up, as shown in Figure 18.
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FIGURE 18 EQUIPMENT OBJECT DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the Equipment Object interface.
Creating a RackShort Description This section describes how to create a rack.
Prerequisites � An equipment object is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target rack node on the configuration resourcetree. The Rack interface appears on the right, as shown inFigure 19.
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FIGURE 19 RACK INTERFACE
2. Click on the toolbar of the interface. The Rack dialog boxpops up, as shown in Figure 20.
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FIGURE 20 RACK DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the Rack interface.
Creating a BoardShort Description This section describes how to create a board.
Prerequisites � A rack is created.
� The mutex right is applied for successfully.
Steps 1. Open the Rack interface. Click to select the target rack on theinterface, as shown in Figure 21.
FIGURE 21 SELECTING TARGET RACK
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Chapter 3 Configuring an Equipment Object
2. Click on the toolbar of the interface. The rack map interfacepops up, as shownin Figure 22.
FIGURE 22 RACK MAP INTERFACE
3. Right-click the target slot on the rack map and click CreatingBoard on the pop-up shortcut menu. The Creating Boarddialog box pops up, as shown in Figure 23.
FIGURE 23 CREATING BOARD DIALOG BOX
4. Click to select the target board in the Boards to selectedpane, and then click Add. The target board is displayed in theBoard selected, as shown in Figure 24.
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FIGURE 24 SELECTING A BOARD
5. Click OK. The successfully-created board is displayed on therack map, as shown in Figure 25.
FIGURE 25 BOARD CREATED SUCCESSFULLY
END OF STEPS
Creating a Fiber CableObject
Short Description This section describes how to create a fiber cable object for thetopology connection between optical devices on boards.
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Chapter 3 Configuring an Equipment Object
Prerequisites � The upper-level and lower-level boards to which the fiber cableconnected are created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target fiber cable object node on the config-uration resource tree. The Fiber Cable Object interface ap-pears on the right, as shown in Figure 26.
FIGURE 26 FIBER CABLE OBJECT INTERFACE
2. Click on the toolbar of the interface. The Fiber Cable Ob-ject dialog box pops up, as shown in Figure 27.
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FIGURE 27 FIBER CABLE OBJECT DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the Fiber Cable Object interface.
Creating an RF ReceivingExtended Connection Object
Short Description This section describes how to create an RF receiving extended con-nection object for RF receiving extension.
Prerequisites � The RF boards to which the master and extended receivingdevices belong are created.
� The mutex right is applied for successfully.
Context The RF receiving extended connection offsets fading channel lossthrough receiving diversity. Diversity refers to receiving multi-ple signal copies carrying the same information through multiplechannels (time, frequency, or space). Different channels have dif-ferent transmitting characteristics, so these copies of signals fadein different ways. By using the information contained in multiplecopies, a receiver can translate the sent signals correctly in mostcases.
Steps 1. Double-click the target RF receiving extended connection ob-ject node on the configuration resource tree. The RF Receiv-
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Chapter 3 Configuring an Equipment Object
ing Extended Connection Object interface appears on theright, as shown in Figure 28.
FIGURE 28 RF RECEIVING EXTENDED CONNECTION OBJECT INTERFACE
2. Click on the toolbar of the interface. The RF ReceivingExtended Connection Object dialog box pops up, as shownin Figure 29.
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FIGURE 29 RF RECEIVING EXTENDED CONNECTION OBJECT DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration in-formation appears on the RF Receiving Extended ConnectionObject interface.
Creating an AuxiliaryPeripheral Device
Short Description This section describes how to create an auxiliary peripheral device(including power equipment, antennas and tower amplifiers, etc.)that serves as the parent node of all auxiliary peripheral devicesof the base station.
Prerequisites � An equipment object is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target auxiliary peripheral device node on theconfiguration resource tree. The Auxiliary Peripheral De-vice interface appears on the right, as shown in Figure 30.
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FIGURE 30 AUXILIARY PERIPHERAL DEVICE INTERFACE
2. Click on the toolbar of the interface. The Auxiliary Pe-ripheral Device dialog box pops up, as shown in Figure 31.
FIGURE 31 AUXILIARY PERIPHERAL DEVICE DIALOG BOX
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3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the Auxiliary Peripheral Device interface.
Creating an EmbeddedPower Device Object
Short Description The embedded power device object is used to transferring the NMSdata via base station. This section describes how to create anembedded power device object.
Prerequisites � An auxiliary peripheral device is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target embedded power device object nodeon the configuration resource tree. The Embedded PowerDevice Object interface appears on the right, as shown inFigure 32.
FIGURE 32 EMBEDDED POWER DEVICE OBJECT INTERFACE
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2. Click on the toolbar of the interface. The EmbeddedPower Device Object dialog box pops up, as shown in Figure33.
FIGURE 33 EMBEDDED POWER DEVICE OBJECT DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the Embedded Power Device Object inter-face.
Creating an Antenna DeviceSet Object
Short Description This section describes how to create an antenna device set objectthat serves as the parent node of all antenna devices of the basestation.
Prerequisites � An auxiliary peripheral device is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target antenna device set object node on theconfiguration resource tree. The Object of Ant Device Setinterface appears on the right, as shown in Figure 34.
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FIGURE 34 OBJECT OF ANT DEVICE SET INTERFACE
2. Click on the toolbar of the interface. The Object of AntDevice Set dialog box pops up, as shown in Figure 35.
FIGURE 35 OBJECT OF ANT DEVICE SET DIALOG BOX
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3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the Object of Ant Device Set interface.
Creating an RET DeviceObject
Short Description This section describes how to create an RET device object.
Prerequisites � An antenna device set object is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target RET device object node on the config-uration resource tree. The RET Device Object interface ap-pears on the right, as shown in Figure 36.
FIGURE 36 RET DEVICE OBJECT INTERFACE
2. Click on the toolbar of the interface. The RET Device Ob-ject dialog box pops up, as shown in Figure 37.
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FIGURE 37 RET DEVICE OBJECT DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the RET Device Object interface.
Creating an Antenna DeviceObject
Short Description This section describes how to create an antenna device object.
Prerequisites � An antenna device set object is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target antenna device object node on the con-figuration resource tree. The Ant Device Object interface ap-pears on the right, as shown in Figure 38.
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FIGURE 38 ANT DEVICE OBJECT INTERFACE
2. Click on the toolbar of the interface. The Ant Device Ob-ject dialog box pops up, as shown in Figure 39.
FIGURE 39 ANT DEVICE OBJECT DIALOG BOX
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3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the Ant Device Object interface.
Creating an Antenna SystemController
Short Description This section describes how to create an antenna system controllerthat serves as the parent node of all antenna system controllersof the base station.
Prerequisites � An auxiliary peripheral device is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target antenna system controller node on theconfiguration resource tree. The Antenna System Controllerinterface appears on the right, as shown in Figure 40.
FIGURE 40 ANTENNA SYSTEM CONTROLLER INTERFACE
2. Click on the toolbar of the interface. The Antenna SystemController dialog box pops up, as shown in Figure 41.
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FIGURE 41 ANTENNA SYSTEM CONTROLLER DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the Antenna System Controller interface.
Creating a TMA DeviceObject
Short Description This section describes how to create an TMA device object.
Prerequisites � An antenna system controller is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target TMA device object node on the con-figuration resource tree. The TMA Device Object interfaceappears on the right, as shown in Figure 42.
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FIGURE 42 TMA DEVICE OBJECT INTERFACE
2. Click on the toolbar of the interface. The TMA Device Ob-ject dialog box pops up, as shown in Figure 43.
FIGURE 43 TMA DEVICE OBJECT DIALOG BOX
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3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the TMA Device Object interface.
Creating an AISG DeviceObject
Short Description This section describes how to create an AISG device object.
Prerequisites � An antenna system controller is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target AISG device object node on the con-figuration resource tree. The AISG Device Object interfaceappears on the right, as shown in Figure 44.
FIGURE 44 AISG DEVICE OBJECT INTERFACE
2. Click on the toolbar of the interface. The AISG DeviceObject dialog box pops up, as shown in Figure 45.
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FIGURE 45 AISG DEVICE OBJECT DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the AISG Device Object interface.
Creating a TMA FeederCable Object
Short Description TMA feeder cable object is used to configure feeder connectionsbetween antenna devices and TMA devices, and its feeder loss.This section describes how to create a TMA feeder cable object.
Prerequisites � An equipment object is created.
� The antenna devices and TMA devices for feeder connectionsare created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target TMA feeder cable object node on theconfiguration resource tree. The TMA Feeder Cable Objectinterface appears on the right, as shown in Figure 46.
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FIGURE 46 TMA FEEDER CABLE OBJECT INTERFACE
2. Click on the toolbar of the interface. The TMA FeederCable Object dialog box pops up, as shown in Figure 47.
FIGURE 47 TMA FEEDER CABLE OBJECT DIALOG BOX
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3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the TMA Feeder Cable Object interface.
Creating an IP ClockParameter Object
Short Description This section describes how to create an IP clock parameter object.
Prerequisites � An IP parameter is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target IP clock parameter object node on theconfiguration resource tree. The IP Clock Parameter Objectinterface appears on the right, as shown in Figure 48.
FIGURE 48 IP CLOCK PARAMETER OBJECT INTERFACE
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2. Click on the toolbar of the interface. The IP Clock Param-eter Object dialog box pops up, as shown in Figure 49.
FIGURE 49 IP CLOCK PARAMETER OBJECT DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the IP Clock Parameter Object interface.
Creating a Dry ContactDevice Object
Short Description This section describes how to create a Dry contact device object.
Prerequisites � An dry contact interface board is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target Dry contact device object node on theconfiguration resource tree. The Dry contact device objectinterface appears on the right, as shown in Figure 50.
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FIGURE 50 DRY CONTACT DEVICE OBJECT INTERFACE
2. Click on the toolbar of the interface. The Dry contact de-vice object dialog box pops up, as shown in Figure 51.
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FIGURE 51 DRY CONTACT DEVICE OBJECT DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the Dry contact device object interface.
Creating a Clock DeviceObject
Short Description This section describes how to create a clock device object.
Prerequisites � A CC board is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target clock device object node on the con-figuration resource tree. The Clock Device Object interfaceappears on the right, as shown in Figure 52.
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FIGURE 52 CLOCK DEVICE OBJECT INTERFACE
2. Click on the toolbar of the interface. The Clock DeviceObject dialog box pops up, as shown in Figure 53.
FIGURE 53 CLOCK DEVICE OBJECT DIALOG BOX
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3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the Clock Device Object interface.
Modifying ConfiguredParameters of an MO
Short Description This section describes how to modify the configured parameters ofan managed object (MO) by giving an example of modifying theconfigured parameters of a time device object.
Prerequisites � A CC board is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target time device object node on the con-figuration resource tree. The Time Device Object interfaceappears on the right, as shown in Figure 54.
FIGURE 54 TIME DEVICE OBJECT INTERFACE
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2. Click the display-modification switching button on the tool-bar of the interface to turn the interface to modification mode,as shown in Figure 55.
FIGURE 55 TIME DEVICE OBJECT INTERFACE IN MODIFICATION MODE
3. Modify the configured parameters on the interface as required,
and then click to save the modifications.
END OF STEPS
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C h a p t e r 4
Configuring a TransportNetwork Object
Table of ContentsOverview of Transport Network Object..................................49General Process to Configure a Transport Network Object .........51Creating an IP Port ............................................................53Creating an ATM Port Object ...............................................55Creating an HDLC Channel Object........................................57Creating a PPP ..................................................................59Creating a VLAN Object ......................................................61Creating an Ethernet Fault Detection Object ..........................62Creating an IP Parameter....................................................64Creating an IP Route..........................................................66Creating an SCTP Object ....................................................67Creating a Bidirectional Forwarding Detection Object ..............69Creating a Qos Mapping Object ...........................................71Creating a TC Object..........................................................73Creating an IMA ................................................................74Creating an AAL2 Object.....................................................76Creating an AAL5 Object.....................................................78Creating an ATM Route.......................................................79Creating a TSI Object.........................................................81Creating an NCP/CCP Object ...............................................82Creating a User Plane Bearer ..............................................84Creating an OMC Channel Object .........................................85
Overview of TransportNetwork ObjectA transport network object is an abstract of the transmission re-sources of a base station and is the root node of all such resourcesof the base station. Through configuration management of thetransport network object, you can configure andmanage the trans-mission resources of the base station.
The configuration resource tree of a transport network object isshown in Figure 56.
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FIGURE 56 CONFIGURATION RESOURCE TREE OF TRANSPORT NETWORKOBJECT
The functions of child MOs under the Transport Network object areshown in Table 5.
TABLE 5 THE FUNCTIONS OF CHILD MOS UNDER THE TRANSPORT NETWORKOBJECT
MO Function
IP port Used for configuring the physicalport in the IP transmission mode
ATM port object Used for configuring the physicalport in the ATM transmission mode
HDLC channel object Used for configuring a HDLCchannel
PPP Used for configuring a PPP link
VLAN object Used for configuring a VLAN
Ethernet Fault Detection Used for configuring faultdetection on an Ethernet link
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MO Function
IP parameter Used for configuring parametersrelated to IP transmission
IP route Used for configuring parametersrelated to static route
SCTP object Used for configuring parametersrelated to SCTP association
Bidirectional Forwarding Detection Used for configuring parametersrelated to an IP link to be detected
Qos mapping object Used for configuring parametersrelated to service quality of theEthernet transmission
TC object Used for configuring a TC link
IMA Used for configuring an IMA link
AAL2 object Used for configuring an AAL2 link
AAL5 object Used for configuring an AAL5 link
ATM route Used for configuring an ATM route
Tsi Used for configuring parametersrelated to Tsi
NCP/CCP object Used for configuring parametersrelated to NCP/CCP
User plane bearer Used for configuring parametersrelated to user plane bearer
OMC Channel object Used for configuring parametersrelated to OMC channel
General Process toConfigure a TransportNetwork ObjectThe Iub-interface transmission can be in full IP, ATM, or IP+ATMmode.
The general process to configure a transport network object in fullIP mode is shown in Figure 57.
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FIGURE 57 GENERAL PROCESS TO CONFIGURE TRANSPORT NETWORKOBJECT IN FULL IP MODE
The general process to configure a transport network object in ATMmode is shown in Figure 58.
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FIGURE 58 GENERAL PROCESS TO CONFIGURE TRANSPORT NETWORKOBJECT IN ATM MODE
Creating an IP PortShort Description This section describes how to create an IP port.
Prerequisites � A board used for IP bearer is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target IP port node on the configuration re-source tree. The IP Port interface appears on the right, asshown in Figure 59.
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FIGURE 59 IP PORT INTERFACE
2. Click on the toolbar of the interface. The IP Port dialogbox pops up, as shown in Figure 60.
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FIGURE 60 IP PORT DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the IP Port interface.
Creating an ATM Port ObjectShort Description This section describes how to create an ATM port object.
Prerequisites � A board used for ATM bearer is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target ATM port object node on the configu-ration resource tree. The ATM Port Object interface appearson the right, as shown in Figure 61.
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FIGURE 61 ATM PORT OBJECT INTERFACE
2. Click on the toolbar of the interface. The ATM Port Objectdialog box pops up, as shown in Figure 62.
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FIGURE 62 ATM PORT OBJECT DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the ATM Port Object interface.
Creating an HDLC ChannelObject
Short Description This section describes how to create an HDLC channel object.
Prerequisites � An IP port is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target HDLC channel object node on the con-figuration resource tree. The HDLC Channel Object interfaceappears on the right, as shown in Figure 63.
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FIGURE 63 HDLC CHANNEL OBJECT INTERFACE
2. Click on the toolbar of the interface. The HDLC ChannelObject dialog box pops up, as shown in Figure 64.
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FIGURE 64 HDLC CHANNEL OBJECT DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the HDLC Channel Object interface.
Creating a PPPShort Description This section describes how to create a PPP.
Prerequisites � An HDLC channel object is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target PPP node on the configuration resourcetree. The PPP interface appears on the right, as shown inFigure 65.
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FIGURE 65 PPP INTERFACE
2. Click on the toolbar of the interface. The PPP dialog boxpops up, as shown in Figure 66.
FIGURE 66 PPP DIALOG BOX
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3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the PPP interface.
Creating a VLAN ObjectShort Description This section describes how to create a VLAN object.
Prerequisites � An IP port is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target VLAN object node on the configura-tion resource tree. The VLAN Object interface appears onthe right, as shown in Figure 67.
FIGURE 67 VLAN OBJECT INTERFACE
2. Click on the toolbar of the interface. The VLAN Objectdialog box pops up, as shown in Figure 68.
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FIGURE 68 VLAN OBJECT DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the VLAN Object interface.
Creating an Ethernet FaultDetection Object
Short Description This section describes how to create an Ethernet fault detectionobject.
Prerequisites � An IP port is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target Ethernet fault detection object node onthe configuration resource tree. The Ethernet Fault Detec-tion interface appears on the right, as shown in Figure 69.
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FIGURE 69 ETHERNET FAULT DETECTION INTERFACE
2. Click on the toolbar of the interface. The Ethernet FaultDetection dialog box pops up, as shown in Figure 70.
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FIGURE 70 ETHERNET FAULT DETECTION DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the Ethernet Fault Detection interface.
Creating an IP ParameterShort Description This section describes how to create an IP parameter.
Prerequisites � At least one of the IP port, PPP, and VLAN objects is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target IP parameter node on the configurationresource tree. The IP Parameter interface appears on theright, as shown in Figure 71.
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FIGURE 71 IP PARAMETER INTERFACE
2. Click on the toolbar of the interface. The IP Parameterdialog box pops up, as shown in Figure 72.
FIGURE 72 IP PARAMETER DIALOG BOX
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3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the IP Parameter interface.
Creating an IP RouteShort Description This section describes how to create an IP route.
Prerequisites � An IP port or a VLAN object is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target IP route node on the configuration re-source tree. The IP Route interface appears on the right, asshown in Figure 73.
FIGURE 73 IP ROUTE INTERFACE
2. Click on the toolbar of the interface. The IP Route dialogbox pops up, as shown in Figure 74.
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FIGURE 74 IP ROUTE DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the IP Route interface.
Creating an SCTP ObjectShort Description This section describes how to create an SCTP object.
Prerequisites � An IP parameter is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target SCTP object node on the configura-tion resource tree. The SCTP Object interface appears on theright, as shown in Figure 75.
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FIGURE 75 SCTP OBJECT INTERFACE
2. Click on the toolbar of the interface. The SCTP Objectdialog box pops up, as shown in Figure 76.
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FIGURE 76 SCTP OBJECT DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the SCTP Object interface.
Creating a BidirectionalForwarding Detection Object
Short Description This section describes how to create an bidirectional forwardingdetection object.
Prerequisites � An IP parameter is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target bidirectional forwarding detection ob-ject node on the configuration resource tree. The Bidirec-tional Forwarding Detection interface appears on the right,as shown in Figure 77.
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FIGURE 77 BIDIRECTIONAL FORWARDING DETECTION INTERFACE
2. Click on the toolbar of the interface. The BidirectionalForwarding Detection dialog box pops up, as shown in Figure78.
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FIGURE 78 BIDIRECTIONAL FORWARDING DETECTION DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration in-formation appears on the Bidirectional Forwarding Detectioninterface.
Creating a Qos MappingObject
Short Description The Qos mapping object is used to configure the parameters re-lated to transmission quality. This section describes how to createa Qos mapping object.
Prerequisites � An Equipment network object is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target QoS mapping object node on the con-figuration resource tree. The QoS Mapping Object interfaceappears on the right, as shown in Figure 79.
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FIGURE 79 QOS MAPPING OBJECT INTERFACE
2. Click on the toolbar of the interface. The QoS MappingObject dialog box pops up, as shown in Figure 80.
FIGURE 80 QOS MAPPING OBJECT DIALOG BOX
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3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the QoS Mapping Object interface.
Creating a TC ObjectShort Description This section describes how to create a TC object.
Prerequisites � An ATM port object is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target TC object node on the configurationresource tree. The TC Object interface appears on the right,as shown in Figure 81.
FIGURE 81 TC OBJECT INTERFACE
2. Click on the toolbar of the interface. The TC Object dialogbox pops up, as shown in Figure 82.
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FIGURE 82 TC OBJECT DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the TC Object interface.
Creating an IMAShort Description This section describes how to create a IMA.
Prerequisites � An ATM port object is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target IMA node on the configuration resourcetree. The IMA interface appears on the right, as shown inFigure 83.
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FIGURE 83 IMA INTERFACE
2. Click on the toolbar of the interface. The IMA dialog boxpops up, as shown in Figure 84.
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FIGURE 84 IMA DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the IMA interface.
Creating an AAL2 ObjectShort Description This section describes how to create an AAL2 object.
Prerequisites � At least one of the ATM port, TC, and IMA objects is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target AAL2 object node on the configurationresource tree. The AAL2 Object interface appears on theright, as shown in Figure 85.
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FIGURE 85 AAL2 OBJECT INTERFACE
2. Click on the toolbar of the interface. The AAL2 Objectdialog box pops up, as shown in Figure 86.
FIGURE 86 AAL2 OBJECT DIALOG BOX
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3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the AAL2 Object interface.
Creating an AAL5 ObjectShort Description This section describes how to create an AAL5 object.
Prerequisites � At least one of the ATM port, TC, and IMA objects is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target AAL5 object node on the configurationresource tree. The AAL5 Object interface appears on theright, as shown in Figure 87.
FIGURE 87 AAL5 OBJECT INTERFACE
2. Click on the toolbar of the interface. The AAL5 Objectdialog box pops up, as shown in Figure 88.
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FIGURE 88 AAL5 OBJECT DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the AAL5 Object interface.
Creating an ATM RouteShort Description This section describes how to create an ATM route.
Prerequisites � At least one of the ATM port, TC, and IMA objects is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target ATM route node on the configurationresource tree. The ATM Route interface appears on the right,as shown in Figure 89.
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FIGURE 89 ATM ROUTE INTERFACE
2. Click on the toolbar of the interface. The ATM Route dialogbox pops up, as shown in Figure 90.
FIGURE 90 ATM ROUTE DIALOG BOX
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3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the ATM Route interface.
Creating a TSI ObjectShort Description This section describes how to create a time slot interchange (TSI)
object.
Prerequisites � An Equipment network object is created.
� A board that provides E1/T1 interfaces is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target TSI object node on the configuration re-source tree. The TSI interface appears on the right, as shownin Figure 91.
FIGURE 91 TSI INTERFACE
2. Click on the toolbar of the interface. The TSI dialog boxpops up, as shown in Figure 92.
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FIGURE 92 TSI DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the TSI interface.
Creating an NCP/CCPObject
Short Description This section describes how to create an NCP/CCP object.
Prerequisites � An SCTP object or AAL5 object is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target NCP/CCP object node on the configu-ration resource tree. The NCP/CCP Object interface appearson the right, as shown in Figure 93.
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FIGURE 93 NCP/CCP OBJECT INTERFACE
2. Click on the toolbar of the interface. The NCP/CCP Objectdialog box pops up, as shown in Figure 94.
FIGURE 94 NCP/CCP OBJECT DIALOG BOX
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3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the NCP/CCP Object interface.
Creating a User PlaneBearer
Short Description This section describes how to create a user plane bearer.
Prerequisites � An IP parameter object is created.
� A UMTS radio network object is created if the radio mode hasbeen set as “UMTS”.
� A GSM radio network object is created if the radio mode hasbeen set as “GSM”.
� The mutex right is applied for successfully.
Steps 1. Double-click the target user plane bearer node on the config-uration resource tree. The User Plane Bearer interface ap-pears on the right, as shown in Figure 95.
FIGURE 95 USER PLANE BEARER INTERFACE
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2. Click on the toolbar of the interface. The User PlaneBearer dialog box pops up, as shown in Figure 96.
FIGURE 96 USER PLANE BEARER DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the User Plane Bearer interface.
Creating an OMC ChannelObject
Short Description This section describes how to create an OMC channel object.
Prerequisites � An IP parameter or AAL5 object is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target OMC channel object node on the con-figuration resource tree. The OMC Channel Object interfaceappears on the right, as shown in Figure 97.
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FIGURE 97 OMC CHANNEL OBJECT INTERFACE
2. Click on the toolbar of the interface. The OMC ChannelObject dialog box pops up, as shown in Figure 98.
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FIGURE 98 OMC CHANNEL OBJECT DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the OMC Channel Object interface.
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C h a p t e r 5
Configuring anSdrFunction Object
Table of ContentsOverview of SdrFunction.....................................................89General Process to Configure an SdrFunction Object...............91Creating a UMTS Radio Network Object ................................92Creating an Operator Object ...............................................94Creating a UMTS Sector Object............................................95Creating a Local Cell Object ................................................97Creating a Dual-carrier Cell Relation Object...........................98Creating a Baseband Resource Pool Object.......................... 100Creating a GSM Radio Network Object ................................ 102Creating a GSM Carrier Frequency Object ........................... 104Creating a GSM RU Object ................................................ 105Creating a GSM Sector Object ........................................... 107Creating a GSM Multi-Carrier Combination Object ................ 108
Overview of SdrFunctionAn SdrFunction object is the root node of all high-layer objects.Through configuration management of the SdrFunction object, youcan configure and manage the high-layer resources of the basestation.
The configuration resource tree of an SdrFunction object is shownin Figure 99.
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FIGURE 99 CONFIGURATION RESOURCE TREE OF SDRFUNCTION OBJECT
The functions of child MOs under the SdrFunction object are shownin Table 6.
TABLE 6 THE FUNCTIONS OF CHILD MOS UNDER THE SDRFUNCTION OBJECT
MO Function
UMTS radio network object Used for configuring parametersrelated to UMTS radio network
Operator object Used for configuring operator’sinformation
UMTS sector object Used for configuring parametersrelated to UMTS sector
Local cell object Used for configuring parametersrelated to local cell
UMTS cell object Used for managing parametersrelated to local cell
Dual-carrier Cell Relation object Used for configuring parametersrelated to dual-carrier cell relation
Baseband resource pool object Used for configuring parametersrelated to baseband resource pool
GSM radio network object Used for configuring parametersrelated to GSM radio network
GSM carrier frequency object Used for configuring parametersrelated to GSM carrier frequency
GSM RU object Used for configuring parametersrelated to GSM carrier
GSM sector object Used for configuring parametersrelated to GSM sector
GSM multi-carrier combinationobject
Used for configuring parametersrelated to GSM multi-carriercombination
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General Process toConfigure an SdrFunctionObjectConfiguring the SdrFunction object includes radio resource config-uration in different modes, namely, UMTS single mode, GSM singlemode, and UMTS/GSM dual mode.
The general process to configure an SdrFunction object in UMTSmode is shown in Figure 100.
FIGURE 100 GENERAL PROCESS TO CONFIGURE SDRFUNCTION OBJECT INUMTS MODE
The general process to configure an SdrFunction object in GSMmode is shown in Figure 101.
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FIGURE 101 GENERAL PROCESS TO CONFIGURE SDRFUNCTION OBJECT INGSM MODE
Creating a UMTS RadioNetwork Object
Short Description This section describes how to create a UMTS radio network object.
Prerequisites � An Equipment object is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target UMTS radio network object node onthe configuration resource tree. The UMTS Radio NetworkObject interface appears on the right, as shown in Figure 102.
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FIGURE 102 UMTS RADIO NETWORK OBJECT INTERFACE
2. Click on the toolbar of the interface. The UMTS RadioNetwork Object dialog box pops up, as shown in Figure 103.
FIGURE 103 UMTS RADIO NETWORK OBJECT DIALOG BOX
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3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the UMTS Radio Network Object interface.
Creating an Operator ObjectShort Description This section describes how to create an operator object.
Prerequisites � A UMTS radio network object is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target operator object node on the configura-tion resource tree. The Operator Object interface appears onthe right, as shown in Figure 104.
FIGURE 104 OPERATOR OBJECT INTERFACE
2. Click on the toolbar of the interface. The Operator Objectdialog box pops up, as shown in Figure 105.
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FIGURE 105 OPERATOR OBJECT DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the Operator Object interface.
Creating a UMTS SectorObject
Short Description This section describes how to create a UMTS sector object.
Prerequisites � A UMTS radio network object is created.
� An RF board is created.
� An ant or RET device is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target UMTS sector object node on the con-figuration resource tree. The UMTS Sector Object interfaceappears on the right, as shown in Figure 106.
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FIGURE 106 UMTS SECTOR OBJECT INTERFACE
2. Click on the toolbar of the interface. The UMTS SectorObject dialog box pops up, as shown in Figure 107.
FIGURE 107 UMTS SECTOR OBJECT DIALOG BOX
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3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the UMTS Sector Object interface.
Creating a Local Cell ObjectShort Description This section describes how to create a local cell object.
Prerequisites � A UMTS sector object is created.
� An operator object is created.
� A baseband resource pool is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target local cell object node on the configura-tion resource tree. The Local Cell Object interface appearson the right, as shown in Figure 108.
FIGURE 108 LOCAL CELL OBJECT INTERFACE
2. Click on the toolbar of the interface. The Local Cell Objectdialog box pops up, as shown in Figure 109.
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FIGURE 109 LOCAL CELL OBJECT DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the Local Cell Object interface.
Creating a Dual-carrier CellRelation Object
Short Description This section describes how to create a Dual-carrier Cell RelationObject.
Prerequisites � At least two local cell objects are created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target Dual-carrier Cell Relation Object nodeon the configuration resource tree. The Dual-carrier CellRelation Object interface appears on the right, as shown inFigure 110.
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FIGURE 110 DUAL-CARRIER CELL RELATION OBJECT INTERFACE
2. Click on the toolbar of the interface. The Dual-carrier CellRelation Object dialog box pops up, as shown in Figure 111.
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FIGURE 111 DUAL-CARRIER CELL RELATION OBJECT DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the Dual-carrier Cell Relation Object inter-face.
Creating a BasebandResource Pool Object
Short Description This section describes how to create a baseband resource poolobject.
Prerequisites � A UMTS radio network object is created.
� A baseband board is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target baseband resource pool object nodeon the configuration resource tree. The Baseband ResourcePool Object interface appears on the right, as shown in Figure112.
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FIGURE 112 BASEBAND RESOURCE POOL OBJECT INTERFACE
2. Click on the toolbar of the interface. The Baseband Re-source Pool Object dialog box pops up, as shown in Figure113.
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FIGURE 113 BASEBAND RESOURCE POOL OBJECT DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the Baseband Resource Pool Object inter-face.
Creating a GSM RadioNetwork Object
Short Description This section describes how to create a GSM radio network object.
Prerequisites � An Equipment object is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target GSM radio network object node on theconfiguration resource tree. The GSM Radio Network Objectinterface appears on the right, as shown in Figure 114.
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FIGURE 114 GSM RADIO NETWORK OBJECT INTERFACE
2. Click on the toolbar of the interface. The GSM Radio Net-work Object dialog box pops up, as shown in Figure 115.
FIGURE 115 GSM RADIO NETWORK OBJECT DIALOG BOX
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3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the GSM Radio Network Object interface.
Creating a GSM CarrierFrequency Object
Short Description This section describes how to create a GSM carrier frequency ob-ject.
Prerequisites � A GSM sector object is created.
� A GSM multi-carrier combination object is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target GSM carrier frequency object node onthe configuration resource tree. The GSM Carrier FrequencyObject interface appears on the right, as shown in Figure 116.
FIGURE 116 GSM CARRIER FREQUENCY OBJECT INTERFACE
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2. Click on the toolbar of the interface. The GSM CarrierFrequency Object dialog box pops up, as shown in Figure117.
FIGURE 117 GSM CARRIER FREQUENCY OBJECT DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the GSM Carrier Frequency Object interface.
Creating a GSM RU ObjectShort Description This section describes how to create a GSM RU object.
Prerequisites � A GSM radio network object is created.
� An RF board is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target GSM RU object node on the configura-tion resource tree. The GSM RU Object interface appears onthe right, as shown in Figure 118.
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FIGURE 118 GSM RU OBJECT INTERFACE
2. Click on the toolbar of the interface. The GSM RU Objectdialog box pops up, as shown in Figure 119.
FIGURE 119 GSM RU OBJECT DIALOG BOX
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3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the GSM RU Object interface.
Creating a GSM SectorObject
Short Description This section describes how to create a GSM sector object.
Prerequisites � A GSM radio network object is created.
� An RF board is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target GSM sector object node on the con-figuration resource tree. The GSM Sector Object interfaceappears on the right, as shown in Figure 120.
FIGURE 120 GSM SECTOR OBJECT INTERFACE
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2. Click on the toolbar of the interface. The GSM Sector Ob-ject dialog box pops up, as shown in Figure 121.
FIGURE 121 GSM SECTOR OBJECT DIALOG BOX
3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the GSM Sector Object interface.
Creating a GSMMulti-CarrierCombination Object
Short Description This section describes how to create a GSM multi-carrier combi-nation object.
Prerequisites � A GSM radio network object is created.
� An RF board is created.
� The mutex right is applied for successfully.
Steps 1. Double-click the target GSM multi-carrier combination objectnode on the configuration resource tree. The GSM Multi-Car-rier Combination Object interface appears on the right, asshown in Figure 122.
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FIGURE 122 GSM MULTI-CARRIER COMBINATION OBJECT INTERFACE
2. Click on the toolbar of the interface. The GSM Multi-Car-rier Combination Object dialog box pops up, as shown inFigure 123.
FIGURE 123 GSM MULTI-CARRIER COMBINATION OBJECT DIALOG BOX
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3. Set parameters in the dialog box and click OK.
END OF STEPS
Result After the creation succeeds, the corresponding configuration infor-mation appears on the GSM Multi-Carrier Combination Objectinterface.
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Figures
Figure 1 Inter-MO Containment Relation ................................ 3
Figure 2 Inter-MO Association Relation .................................. 4
Figure 3 Configuration Resource Tree ................................... 5
Figure 4 General Process to Configure a Base Station .............. 6
Figure 5 Shortcut Menu for Creating a Subnetwork.................. 8
Figure 6 UTRAN SubNetwork Dialog Box ................................ 8
Figure 7 Shortcut Menu for Creating a Base Station................. 9
Figure 8 Base Station Dialog Box .........................................10
Figure 9 Shortcut Menu for Applying for Mutex Right ..............11
Figure 10 Confirm Dialog Box..............................................11
Figure 11 Mutex Right Applied for Successfully ......................12
Figure 12 Shortcut Menu for Creating a Base Station
Configuration Set...............................................13
Figure 13 Base Station Config Set Dialog Box ........................13
Figure 14 Standby Base Station Configuration Set and Its
Child Nodes ......................................................14
Figure 15 Configuration Resource Tree of Equipment Object ....16
Figure 16 General Process to Configure an Equipment Object...18
Figure 17 Equipment Object Interface ..................................19
Figure 18 Equipment Object Dialog Box ................................20
Figure 19 Rack Interface ....................................................21
Figure 20 Rack Dialog Box ..................................................22
Figure 21 Selecting Target Rack...........................................22
Figure 22 Rack Map Interface..............................................23
Figure 23 Creating Board Dialog Box ....................................23
Figure 24 Selecting a Board ................................................24
Figure 25 Board Created Successfully...................................24
Figure 26 Fiber Cable Object Interface..................................25
Figure 27 Fiber Cable Object Dialog Box ...............................26
Figure 28 RF Receiving Extended Connection Object Interface...27
Figure 29 RF Receiving Extended Connection Object Dialog
Box .................................................................28
Figure 30 Auxiliary Peripheral Device Interface ......................29
Figure 31 Auxiliary Peripheral Device Dialog Box....................29
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Figure 32 Embedded Power Device Object Interface ...............30
Figure 33 Embedded Power Device Object Dialog Box.............31
Figure 34 Object of Ant Device Set Interface .........................32
Figure 35 Object of Ant Device Set Dialog Box.......................32
Figure 36 RET Device Object Interface..................................33
Figure 37 RET Device Object Dialog Box ...............................34
Figure 38 Ant Device Object Interface ..................................35
Figure 39 Ant Device Object Dialog Box ................................35
Figure 40 Antenna System Controller Interface......................36
Figure 41 Antenna System Controller Dialog Box ...................37
Figure 42 TMA Device Object Interface .................................38
Figure 43 TMA Device Object Dialog Box...............................38
Figure 44 AISG Device Object Interface ................................39
Figure 45 AISG Device Object Dialog Box..............................40
Figure 46 TMA Feeder Cable Object Interface ........................41
Figure 47 TMA Feeder Cable Object Dialog Box ......................41
Figure 48 IP Clock Parameter Object Interface.......................42
Figure 49 IP Clock Parameter Object Dialog Box ....................43
Figure 50 Dry contact device object Interface........................44
Figure 51 Dry contact device object Dialog Box......................45
Figure 52 Clock Device Object Interface................................46
Figure 53 Clock Device Object Dialog Box .............................46
Figure 54 Time Device Object Interface ................................47
Figure 55 Time Device Object Interface in Modification Mode ...48
Figure 56 Configuration Resource Tree of Transport Network
Object..............................................................50
Figure 57 General Process to Configure Transport Network
Object in Full IP Mode ........................................52
Figure 58 General Process to Configure Transport Network
Object in ATM Mode ...........................................53
Figure 59 IP Port Interface..................................................54
Figure 60 IP Port Dialog Box ...............................................55
Figure 61 ATM Port Object Interface .....................................56
Figure 62 ATM Port Object Dialog Box...................................57
Figure 63 HDLC Channel Object Interface .............................58
Figure 64 HDLC Channel Object Dialog Box ...........................59
Figure 65 PPP Interface ......................................................60
Figure 66 PPP Dialog Box....................................................60
Figure 67 VLAN Object Interface..........................................61
Figure 68 VLAN Object Dialog Box .......................................62
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Figures
Figure 69 Ethernet Fault Detection Interface .........................63
Figure 70 Ethernet Fault Detection Dialog Box .......................64
Figure 71 IP Parameter Interface .........................................65
Figure 72 IP Parameter Dialog Box.......................................65
Figure 73 IP Route Interface ...............................................66
Figure 74 IP Route Dialog Box .............................................67
Figure 75 SCTP Object Interface ..........................................68
Figure 76 SCTP Object Dialog Box........................................69
Figure 77 Bidirectional Forwarding Detection Interface............70
Figure 78 Bidirectional Forwarding Detection Dialog Box .........71
Figure 79 QoS Mapping Object Interface...............................72
Figure 80 QoS Mapping Object Dialog Box.............................72
Figure 81 TC Object Interface..............................................73
Figure 82 TC Object Dialog Box ...........................................74
Figure 83 IMA Interface......................................................75
Figure 84 IMA Dialog Box ...................................................76
Figure 85 AAL2 Object Interface ..........................................77
Figure 86 AAL2 Object Dialog Box........................................77
Figure 87 AAL5 Object Interface ..........................................78
Figure 88 AAL5 Object Dialog Box........................................79
Figure 89 ATM Route Interface ............................................80
Figure 90 ATM Route Dialog Box ..........................................80
Figure 91 TSI Interface ......................................................81
Figure 92 TSI Dialog Box ....................................................82
Figure 93 NCP/CCP Object Interface.....................................83
Figure 94 NCP/CCP Object Dialog Box ..................................83
Figure 95 User Plane Bearer Interface ..................................84
Figure 96 User Plane Bearer Dialog Box ................................85
Figure 97 OMC Channel Object Interface...............................86
Figure 98 OMC Channel Object Dialog Box ............................87
Figure 99 Configuration Resource Tree of SdrFunction Object...90
Figure 100 General Process to Configure SdrFunction Object
in UMTS Mode ...................................................91
Figure 101 General Process to Configure SdrFunction Object
in GSM Mode.....................................................92
Figure 102 UMTS Radio Network Object Interface ..................93
Figure 103 UMTS Radio Network Object Dialog Box ................93
Figure 104 Operator Object Interface ...................................94
Figure 105 Operator Object Dialog Box.................................95
Figure 106 UMTS Sector Object Interface..............................96
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Figure 107 UMTS Sector Object Dialog Box ...........................96
Figure 108 Local Cell Object Interface ..................................97
Figure 109 Local Cell Object Dialog Box ................................98
Figure 110 Dual-carrier Cell Relation Object Interface.............99
Figure 111 Dual-carrier Cell Relation Object Dialog Box ........ 100
Figure 112 Baseband Resource Pool Object Interface............ 101
Figure 113 Baseband Resource Pool Object Dialog Box ......... 102
Figure 114 GSM Radio Network Object Interface .................. 103
Figure 115 GSM Radio Network Object Dialog Box................ 103
Figure 116 GSM Carrier Frequency Object Interface ............. 104
Figure 117 GSM Carrier Frequency Object Dialog Box ........... 105
Figure 118 GSM RU Object Interface .................................. 106
Figure 119 GSM RU Object Dialog Box................................ 106
Figure 120 GSM Sector Object Interface ............................. 107
Figure 121 GSM Sector Object Dialog Box........................... 108
Figure 122 GSM Multi-Carrier Combination Object Interface .. 109
Figure 123 GSM Multi-Carrier Combination Object Dialog
Box ............................................................... 109
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Tables
Table 1 Data Types Supported by MO Attributes...................... 2
Table 2 Attribute Property .................................................... 2
Table 3 Functions Of Pre-configuration Steps .......................... 7
Table 4 The Functions Of Child MOs Under The Equipment
Object..............................................................16
Table 5 The Functions Of Child MOs Under The Transport
Network Object .................................................50
Table 6 The Functions Of Child MOs Under The Sdrfunction
Object..............................................................90
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Glossary
AAL2- ATM Adaptation Layer type 2
AAL5- ATM Adaptation Layer type 5
AISG- Antenna Interface Standards Group
ATM- Asynchronous Transfer Mode
CCP- Communication Control Port
GSM- Global System for Mobile Communication
HDLC- High-level Data Link Control
IMA- Inverse Multiplexing over ATM
IP- Internet Protocol
NCP- Node B Control Port
OMC- Operation & Maintenance Center
PPP- Point to Point Protocol
RET- Remote Electrical Tilt
RF- Radio Frequency
RU- Resource Unit
SCTP- Stream Control Transmission Protocol
TC- Trunk Circuit
TSI- Time Slot Interchange
UE- User Equipment
UMTS- Universal Mobile Telecommunication System
VLAN- Virtual Local Area Network
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WCDMA- Wideband Code Division Multiple Access
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