Transcript
UTRAN
Office Data Creation ManualRadio Network Controller
CML:RNC DB Creation
A50016-G5000-G283-Prelim-7630 ND-57820-706 (E)-Prelim
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Trademarks:
All designations used in this document can be trademarks, the use of which by third parties
for their own purposes could violate the rights of their owners.
Copyright (C) Siemens AG / NEC Corporation 2005.
Issued by: Siemens AG, Information and Communications Group, Hofmannstraße 51, 81359 München, Germany and NEC Corporation, 7-1, Shiba 5-chome, Minato-ku, Tokyo, Japan
Technical modifications possible. Technical specifications and features are binding only insofar as they are specifically and expressly agreed upon in a written contract.
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Precautions
To prevent potential injury or even death, this manual as well as the alert labels attached to the system, provide various safety precautions. It is imperative that all safety instructions in this manual and the alert labels be completely understood prior to performing any operations and/or maintenance work.
This manual is intended for the operation and maintenance personnel of the RNC system.
SAFETY INSTRUCTIONS
The “Safety Instructions” provides safety instructions for the RNC. For other equipment, refer to the relevant manual of the particular equipment in question.
Definitions of Alert Categories
There are three Alert Categories.
DANGERThis symbol indicates that there is explicit life-threatening danger. Failure to obey this instruction could place you in an imminent danger of death or serious injury.
WARNINGThis symbol indicates an item that potentially endangers your life. Failure to obey this instruction can lead to death or serious injury.
CAUTIONThis symbol indicates an item that could cause bodily injury or damage to property. Failure to obey this instruction could cause injury to you, or damage to the equipment, components, and even the communication network or other property.
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List of Alert Labels
The following lists alert labels attached to the system. Locate the labels and be sure to follow the instructions on them.
(Location)Frame (LSF, TRKF, etc.)
(Explanation)When you replace a fan, do not touch the fan before the fan blade or motor completely stops. Failure to do so could result in injury.
(Location)Frame (LSF, TRKF, PRF, etc.)
(Explanation)Indicates use of a Class 1 laser product which is harmless to the human body.
(Location)Frames with a metal-meshed shielded tube
(Explanation)Wear rubber or vinyl gloves when touching metal-meshed shielded tube. Touching a metal-meshed shielded tube with bare hands can result in dermatitis.
(Location)Card and frame (LSF, TRKF, etc.)
(Explanation)All cards must be handled with extreme care as each one contains Electrostatically Sensitive Devices (ESD). The cards and frames are marked with the ESD-label.
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List of Safety Instructions
When you find a safety instruction in this manual, be sure to read the instruction before starting the work.
The safety instructions, especially regarding death or injury, in this manual are listed below, by their alert categories.
• Alert category: Danger
DANGERImportant Notice on Product SafetyDANGER - RISK OF ELECTRICAL SHOCK OR DEATH - FOLLOW ALL INSTALLATION INSTRUCTIONS.The system complies with the standard EN 60950 / IEC 60950. All equipment connected to the system must comply with the applicable safety standards.Hazardous voltages are present at the AC power supply lines in this electrical equipment. Some components may also have high operating temperatures.Failure to observe and follow all installation and safety instructions can result in serious personal injury or property damage.Therefore, only trained and qualified personnel may install and maintain the system.
The same text in German:Wichtiger Hinweis zur ProduktsicherheitLEBENSGEFAHR - BEACHTEN SIE ALLE INSTALLATIONSHINWEISE.Das System entspricht den Anforderungen der EN 60950 / IEC 60950. Alle an das System angeschlossenen Geräte müssen die zutreffenden Sicherheitsbestimmungen erfüllen.In diesen Anlagen stehen die Netzversorgungsleitungen unter gefährlicher Spannung. Einige Komponenten können auch eine hohe Betriebstemperatur aufweisen.Nichtbeachtung der Installations- und Sicherheitshinweise kann zu schweren Körperverletzungen oder Sachschäden führen.Deshalb darf nur geschultes und qualifiziertes Personal das System installieren und warten.
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• Alert category: Caution
CAUTIONThis equipment has been tested and found to comply with EN 300386. Its class of conformity is defined in table A30808-X3247-X910-*-7618, which is shipped with each product. This class also corresponds to the limits for a Class A digital device, pursuant to part 15 of the FCC Rules.These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment.This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the relevant standards referenced in the manual "Guide to Documentation", may cause harmful interference to radio communications.For system installations it is strictly required to choose all installation sites according to national and local requirements concerning construction rules and static load capacities of buildings and roofs.For all sites, in particular in residential areas it is mandatory to observe all respectively applicable electromagnetic field / force (EMF) limits. Otherwise harmful personal interference is possible.
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• Alert category: Caution (continued)
CAUTIONSafety instructions on the overall work:
• Before performing any operations and maintenance work, make sure that the working environment is safe.
• Before performing any operations and maintenance work, check that the emergency exit are clear in case of an emergency situation.
• Before performing any operation and maintenance work, make sure sufficient safety instructions are given to maintenance personnel.
• Never wear slippers during work.• Take care not to trip over cables, components, or tools during work.
Failure to do so could result injury.• Take care that the shirt sleeves and trousers are not caught in
equipment and/or machines during work. Failure to do so could cause an injury or other accident.
• Do not allow liquid, such as water, on system components or touch the system with wet hands. Moisture in the system can cause an electrical shock or a trouble to the system. If any liquid comes into contact with the system, immediately turn off the power of the affected components, and request repairs.
• Do not rework or disassemble the system components. An electrical shock, fire or component and/or system failure could occur as aresult.
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• Alert category: Caution (continued)
CAUTIONSafety instructions concerning handling tools and test equipment:
• Before connecting an electric tool to an AC outlet, be sure to check the voltage (230 V) and frequency usable with the tool. Using an electric tool with the wrong voltage or frequency can result in an electrical shock or other accident.
• When using an electric tool, be sure to connect a ground wire to it. Using an electric tool without connecting it to the ground can lead to an electrical shock.
• When an electric tool is being not used, be sure to unplug the power cable from the AC outlet. Failure to do so could cause an electrical shock or other accident.
• When using a crimping tool, be careful not to get your fingers caughtin the jaws of the tool.
• When using any electric tool or crimping tool, be sure to observe the instructions given in the relevant instruction manuals.
Safety instructions on handling cards:• Wear thin cotton gloves when handling cards. Working with bare
hands can lead to an injury or accident.• Follow all instructions for handling the card being tested, the test
instrument, cables and all other components properly in accordance with the instructions given in the relevant manuals.
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• Alert category: Caution (continued)
CAUTIONSafety instructions on high voltage and high current:
• Persons other than the maintenance personnel must not touch the Direct Current Power Distribution Board (DC-PDB). The DC-PDB carries high voltage and current. Touching it could result in an electrical shock or other accident.
• Do not touch those parts of the RNC that contain components with high voltage or current. Inadvertent contact with any of these components can cause injury, death, and/or damage to the system.
• Be sure to provide grounding where required. Failure to do so can result in system failure or electrical shock, especially if caused by the lightning.
• When measuring voltage or current, take adequate insulating measures, such as covering or winding the unnecessary parts of the measuring terminal and tools with insulating tape. Allowing the measuring terminal to touch another terminal, or a short-circuit caused by a tool, could result in an electrical shock or other accident.
• Operate the test equipment and the Call Simulation Equipment (CSE) on the specified voltage (230 V system). Operating them at an inadequate voltage can cause a fire.
• Before making a connection with the DC-PDB, ensure that the power to the main circuit breaker is OFF. Making a connection with the DC-PDB when the power is ON can result in an electrical shock or other accident.
• Before making a cable connection, be sure to turn OFF the switch on the power distribution board. Otherwise, an electrical shock or other accident could occur.
• Before making a cable connection, confirm the electric polarity is correct. If the cable is connected with the wrong polarity, an electrical shock or other accident could occur.
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• Alert category: Caution (continued)
CAUTIONSafety instructions when working up high or on a step ladder:
• When working on a cable rack or running cables while on a step or other ladder, watch your footings and be careful not to fall. Failure to take proper precautions could result in injury or other problems.
• When working on a cable rack or running cables up high, be careful not to drop any tools or components. Dropping a tool or a component can injure personnel, or cause problems to the system.
Safety instructions on rotating parts:• Do not touch rotating parts, such as fans, and do not remove the
guard while they are still rotating. Touching these rotating parts while they are still in motion rotating could result in an injury or other accident.
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PRECAUTIONS FOR NORMAL SYSTEM OPERATION
The “Precautions for Normal System Operation” provides precautions against potential problems that could occur to the system. In order to maintain normal operation of the system, particular attentionmust be paid to each precaution prior to and during any operation and/or maintenance work.
Site Consideration
To maintain normal system operation, your site must always meet the requirements listed below.
(1) Temperature and humidity
• Make sure that the temperature and humidity levels are within the acceptable range: the temperature must be between 5 and 40°C and the humidity 20 and 80% (There must be no condensation).
• Make sure that the site is not exposed to liquid such as water and oil.
• Make sure that the site is not exposed to direct sunlight nor placed near a flame or heating appliance like a stove.
(2) DustTo prevent a short circuit due to dust buildup, make sure that the site is kept clean and dust free.
(3) VibrationSince the system components are precision-engineered equipment and devices, make sure that the site is not subject to vibration.
(4) Heat dissipationProper air circulation is necessary to prevent the temperature from rising inside the system.Make sure that the vents of the system components are always kept clear.
(5) Static electricityBe sure to connect your wrist strap to a proper ground such as an ESD terminal.
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List of Precautions
The precautions are listed by the following working situations:
• When Operating the System
• When Handling Cards
• When Handling the Power Supply
• When Handling Parts and Components
When Operating The System
• Keep the doors of the machine room closed during work. In a room with high humidity, vapor can condense on cards and modules in the RNC, which can lead to a short-circuit or fire. Excessive dust can also cause a short-circuit or fire.
• If using air-conditioning, prevent water from the ceiling or the refrigerant pipes from dripping on cards and modules in the RNC. If any component in the system becomes wet, this could result in a short-circuit or fire.
• Keep the humidity in the machine room within the range of 20 to 80%, with no condensation.
• Do not leave foreign objects such as screws, wires, or pieces of metal inside the frames or modules, Main Distribution Frame (MDF) or terminal devices of the RNC. Such foreign objects can damage the equipment or cause a short-circuit, subsequently resulting in a malfunction of the RNC or other problem.
• Wear antistatic shoes during the operation and maintenance work.
• Clean the filter on the fan at least every six months. If the filter is not kept properly cleaned, a short-circuit or fire can occur.
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When Handling Cards
• ESD labels are located on both front and rear doorknobs of a frame.
• All cards are equipped with ESD-labels.
Front Rear
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• When inserting or removing a card from the system components, always wear thin cotton gloves and a grounded wrist strap to prevent static electricity. Electrostatic charge can damage the internal parts.
• Connect the wrist strap to the earth bonding point of a frame.
Wear a pair of thin cotton gloves.
Wear a grounded wrist strap.
To Earth Bonding Point
wrist strap
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• Make sure that the switches and short plugs on the spare card are in the same position as those on the card to be replaced.
• Make sure the direction (top and bottom) of the spare card is correct. Do not force the card into the slot. Forcibly inserting a card in a wrong direction can damage it.
0 1 2 3
ON
OFF
DIP switches
Rotary switch
Short plugs
Right Wrong
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• Do not bend or twist the card. Bending or twisting the card can damage it and result in a malfunction.
• If a card is marked with a “!” label, be sure to turn off the power switch of the card before removing it.
When Handling The Power Supply
• The system components are kept in operation with the power supply turned on at all times.Make sure that no personnel except the system administrator is allowed to operate the power switch. If the power supply is interrupted, communications will be disrupted, and any unsaved data will be lost.
• Never turn the power switch of a card on and off, or insert or remove a fuse unless absolutely necessary. Be careful not to abruptly turn the power supply on and off.
• Normal operation of the system is not guaranteed when the input voltage is out of the prescribed range. The system operation is not guaranteed even when the voltage returns to anormal level once it has gone out of the range. In this case, it will be necessary to reset the system.
When Handling Parts and Components
• Never swing a cable. Never forcibly wind a cable. Swinging or forcibly winding a cable can break the cable or damage its connector.
• Never wind an optical cable to form a loop with a diameter of 100 mm or less. To do so could break the optical cable.
• When making a connection with a cable conductor, be careful not to place the conductor in contact with another cable conductor. A short-circuit could result in a fire or other damage.
• Never remove the cap from an optical connector, except when attaching the connector. If an optical connector is damaged or contaminated with dust, this will disrupt communications.
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• Never step on a battery. Stepping on a battery can cause the battery to leak.
• Use tools and components such as batteries and cables correctly, in accordance with the instructions given in the relevant manuals.
DISPOSAL OF ELECTRICAL AND ELECTRONIC EQUIPMENT
All electrical and electronic products should be disposed of separately from the municipal waste stream via designated collection facilities appointed by the government or the local authorities.
The correct disposal and separate collection of your old appliance will help prevent potential negative consequences for the environment and human health. It is a precondition for reuse and recycling of used electrical and electronic equipment.
For more detailed information about disposal of your old appliance, please contact your sales representative.
The statements quoted above are only fully valid for equipment which is installed in the countries of the European Union and is covered by the directive 2002/96/EC.
Countries outside the European Union may have other regulations regarding the disposal of electrical and electronic equipment.
A50016-G5000-G283-1-7630ND-57820-706 (E)-01 Preface
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Preface
This document is prepared as a standard edition that may include descriptions not applying to your system.
Proper management and accumulation of office data helps maintain a normal operation of the Radio Network Controller (RNC). This manual describes how to create office data using various commands.
SECTION 1 : OverviewProvides an overview of office data creation.
SECTION 2 : Command Input ProcedureDescribes the procedures to input commands for office data creation.
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Reason for Update
Summary:
Preliminary edition
Details:
Issue History:
Chapter/Section Reason for Update
All Preliminary edition
Issue Number
Date of issue Reason for Update
Prelim 10/2005 Preliminary edition
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Contents
(*:REVISION)
TITLE INDEX NUMBER
SECTION 1OVERVIEW
Office Data ....................................................................... INT-089-1000-30(E)-01
SECTION 2COMMAND INPUT PROCEDURE
Office Data Command Input Procedure........................... PRC-089-2000-40(E)-01
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SECTION 1OVERVIEW
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Office Data
1. RNC File Configuration
As shown in Fig. 1, the Radio Network Controller (RNC) can generally be classified as a system file and an office data file. The system file does not depend on office conditions, is unique to the system and not created by Operation and Maintenance (O&M) personnel. On the other hand, the office data file depends on office conditions, and is created by O&M personnel using on-line commands.
Fig. 1 RNC File Configuration
The system file consists of the Application (APL) program, common Operating System (OS) program, system data, Database Management System (DBMS) data file and minimum configuration data file. Among these files, APL program, common OS program and system data are program files. The DBMSdata file sets the schema defining the data construction of office data as well as the d1 data (installation pattern data) for diagnosis. The minimum configuration data is the minimum hardware data required to start up the system. The office data file specifies equipment, signaling system, route, etc., peculiar to each office.
System File
ProgramFile
APL Program
Common OS Program
System Data
DBMS Data File *1
Minimum ConfigurationData File *2
Office Data File*3
APL Program
Common OS Program
System Data
LogicalSchemaPhysicalSchema
Database*1,*2,*3
Schema*1
LogicalSchema
LogicalSchema
OfficeData
*1 :The DBMS data file sets the schema defining the data construction of office data as well as the d1 data (installation pattern data) for diagnosis.*2 :The minimum configuration data is the minimum hardware data required to start up the system.*3 :The office data file specifies the defferent devices, signaling method, routes, etc. for each office.
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2. System File
The system file consists of the APL program, common OS program, system data, DBMS data file and minimum configuration file. Out of these files, the APL program, common OS program and system data are program files.
3. Office Data
3.1 DBMS Data Configuration
DBMS consists of schema and database. Schema is the items that need to define the data, such as the form of DB, the way of search, the allocation of memory, etc. Database is the entity of defined user data, such as the value of office condition and contents of alarm.
There are two types of database -- physical database and logical database.
Fig. 2 Data Managed in DBMS
3.2 Schema
All the data managed in DBMS are defined and designed in the schema. There are two types of schema as shown below.
• Schema related to the logical database This is the schema that defines the logical database, and called logical schema.
• Schema related to the physical databaseThis is the schema that defines the database entity.
3.3 Logical Schema
The logical database is such data that are managed in a general-purpose database; it is too slower a little to read/write data but it is more general and flexible in use. It is a logical schema that defines such data.
DBMSManagement
DataSchema
Database(Entitiy)
LogicalSchema
LogicalDatabase
PhysicalSchema
PhysicalDatabase
PhysicalDatabaseRelated
LogicalDatabaseRelated
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3.4 Physical Schema
The physical database must be operated by the request from the users in various configurations or conditions. Such information is described in a schema, and especially the schema related to the physical database is called physical schema. To use the physical database, the physical schema must be defined in advance.
DBMS refers to the physical schema to take in the configuration of data expected by user, and realizes to read/write the each data. Namely, the physical schema is the information that is told to the attribute of the physical database that users need.
3.5 Logical Database
The logical database cannot support the real-time process that is needed by the switching process but can be set up the general and flexible conditions for searching and writing.
The logical database is dealt as the group of records which are separate into each field as shown in Fig. 3. Major contents which are defined in the logical schema are attributes of fields consisting of a record, field configuration of a record, an index type which is added to the field as an option, etc.
In general, the logical database is treated as a table format.
Fig. 3 Example of Logical Database
3.6 Physical Database
The physical database has an Application Programming Interface (API) for real-time processing for switching/communication in particular. It cannot support general and flexible data operation but can operate and process in response that meets to the severe real-time process.
In general, the physical database is treated as physical tables assembled as shown in Fig. 4.
AlarmNo. Alarm Class
0012
0013
0014
mn
Date
16/05/03 ### circuit trouble found on cn=10300 ###
Field
16/05/03
17/05/03
if
mn
Alarm Message
## circuit trouble recovered on cn=10300 ##
### carrier lost on trunk cirucit cn=10300 ###
Field Field Field
Record(Logical Record)
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Fig. 4 Outline of Physical Tables
Thus, a schema is needed to define each tree’s form and so on. This is a schema per physical table.
3.7 Minimum Configuration Data File
The minimum configuration data file is the office data in the system file that the minimum hardware to activate the system setup. It can be modified by online command, but it cannot be deleted.
The hardware devices set up in the minimum configuration data file are shown in the table below.
Table 1 Hardware Devices Set up in Minimum Configuration Data File
Device Name Logical Device Name
CP cp00 (OMP), cp01 (CLP), cp02 (CLP)
COC coc0, coc1
SCC scc0, scc1
DAT dat05, dat15
DK dk00, dk10
DK partition dk000/dk100, dk001/dk101, dk002/dk102
RS rs00, rs10
LAN lan0, lan1
HUBM hub00, hub10
MCLK mclk0, mclk1
MIF mif0, mif1
SVC svc0, svc1
BLSC blsc000, blsc100
LSW atm0, atm1
0
i
PhysicalTable
0
j
0
k
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3.8 Online Office Data File
(1) Office dataThe data which is used in switching process are the data of networks with other offices, the data of office facility, and the data of system parameter set up to the RNC in advance. These data are the office data, and it is saved on the database in the RNC. The office data is set up so that the program of the RNC can work correctly with the different hardware configuration of each office. There are two main contents of office data as shown below.
• Data of office facilityOffice data must be modified when hardware is added or deleted.
• Data of networks with other officesThe data is set up for the communication links with other offices when trunks or other equipment for networks are added or deleted.
(2) Modifying office dataWhen a new office opens, all office data is set up in advance and the operation of RNC starts. However, facilities of own office or network conditions with other offices are changed while the office is operated for a long time. In these cases, the existing office data must be modified to fit the office conditions in each office.
(3) Point of modifying office dataWhen office data is needed to modify, it is modified with the condition. The following are the points of modifying office data.
• Modification of office facility
• When hardware is added or deleted
• Modification of network with other offices
• When an associated office is added or deleted
• When an associated office adds or deletes trunks
• When trunks are added or deleted in own office
• When signaling links are added/deleted in/from the existing common channel signaling networks
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4. Network Interface
Fig. 5 shows the W-CDMA network configuration.
Fig. 5 Network Configuration
UTRAN
RNS
RNC
Iub
Iur
RNS
RNC
Uu
ME
UE
Cu
USIM
Iu
MSC/VLR
GMSC PSTNISDN
HLR
SGSN Internet
CN
GGSN
Node B
Node B
Node B
Node B
Node B
InterfaceCu Connects USIM and ME
Uu Connects UE and Node-B by radio
Iub Connects Node-B and RNCIur Connects RNCs
Iu Connects RNC and CN
GPRS General Packet Radio ServiceUMTS Universal Mobile Telecommunications Service
GMSC Gateway Mobile-services Swtiching Center
VLR Visitor Location Register
HLR Home Location Register
GGSN Gateway GPRS Support Node
SGSN Serving GPRS Support Node
MSC Mobile-services Switching Center
CN Core Network
RNC Radio Network Controller
Node B Node BRNS Radio Network Subsystem
UTRAN UMTS Terrestrial Radio Access Network
ME Mobile Equipment
USIM UMTS Subscriber Identity ModuleUE User Epuipment
ISDN Integrated Services Digital Network
PSTN Public Switched Telephone Network
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5. System Configuration
Figs. 6 and 7 show the RNC system configurations.
Fig. 6 System Configuration of RNC
from/toNode B
from/toNode B
LSM
CLKD
HUBIU
GTPM
HUBIU
PRM
PRLCD-CMPM
DTI
DTI
SIGM
M2C
M2CMCMUXE
TINF
TINF
TINF
156M
156M
from/toCN/RNC
E1
E1TINF
C-CMPM
DTI
CMPCMUXE
CMUX
CMPE1
MHM
TINF
TINF
HUBIU
HUBIU
MHC CMUX
ATMSW
M2C
HUBIU
TINF
DHT
DHTCMUXE
CMUX
DHTM
HUB
CLK RMP CLP
SVC COC
MIF
LMT-RNC
OMP
DK DAT
CCPM
SCC
GMUX
TINF
TINF
CMUXE
CMP
ANC / GIC / MFG
TINF
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Fig. 7 System Configuration of RNC with WCMP and MDTI
LSM
CLKD
HUBIU
GTPM
HUBIU
PRM
SIGM
M2CMCMUXE
TINF
TINF156Mfrom/toCN/RNC
WCMP
MHM
WCMP
TINF
HUBIU
MHC CMUX
ATMSW
M2C
HUBIU
TINF
DHT
DHTCMUXE
CMUX
DHTM
HUB
CLK RMP CLP
SVC COC
MIF
LMT-RNC
OMP
DK DAT
CCPM
SCC
GMUX
TINF
TINF
TINF
CMUXE
DTIM
MDTI
HUBIU
CMUX
TINF
from/toNode B
156M
M2C
ANC / GIC / MFG
PRLC/HSPRLC
HSDST
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Table 2 RNC System Configuration (1/3)
Abbrev. Meaning Function
CCPM Central Control Processor Module Processor Module
OMP Operation & Maintenance Processor Performs system management
CLP Call Processor Performs call processing
RMP Resource Management Processor Performs system resource management
COC Communication Controller Provides interface to operation terminal
SVC Supervisory Controller Monitors system troubles
MIF Maintenance Interface Provides interface to alarm indicator
CLK Clock Generates system clock
SCC SCSI Controller Provides interface to DAT or Disk (DK)
DAT Digital Audio Tape Saves data
DK Disk Saves data
LMT-RNC Local Maintenance Terminal for Radio Network Controller
Inputs/modifies data in database and provides system administration interface
LSM Line Switch Module Line Switch Module
ATM SW Asynchronous Transfer Mode Switch Performs ATM switching
TINF Trunk Interface Provides interface for CN, Node-B and Trunk Module
CLKD Clock Distributor Distributes the system clock to ATM SW
WCMP Wideband Composite Assembles/disassembles composite cells
HSDST High-speed Downlink Shared Channel Trunk
Enables High-speed Downlink Packet Access (HSDPA) function on 3GPP
CMPM Composite/De-composite Module Trunk Module
CMUX Cell Multiplexer Provides interface between ATM SW and CMP
CMUXE Cell Multiplexer Extension Provides interface between ATM SW and CMP
CMP Composite/De-composite Assembles/disassembles composite cells
DTI Digital Transmission Interface Terminates E1 line
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HUBIU HUB Interface Unit Terminates HUB link
DHTM Diversity Handover Trunk Module Trunk Module
DHT Diversity Handover Trunk Provides diversity handover function
CMUXE Cell Multiplexer Extension Provides interface between ATM SW and DHT
DTIM Digital Transmission Interface Module
Trunk Module
CMUX Cell Multiplexer Provides interface between ATM SW and MDTI
HUBIU HUB Interface Unit Terminates HUB link
MDTI Multiple Digital Transmission Interface Terminates STM-1 line
GTPM GPRM Tunneling Protocol Module Trunk Module
GMUX GTP Packet Multiplexer Provides GPRS tunneling protocol for packet data
HUBIU HUB Interface Unit Terminates HUB link
M2CM Mobile Layer-2 Control Module Trunk Module
M2C Mobile Layer-2 Controller Terminates C-Plane data
CMUXE Cell Multiplexer Extension Provides interface between ATM SW and M2C
MHM MAC header Handling Module Trunk Module
MHC MAC header Handling Controller Provides MAC (Medium Access Control) function inside RNC
CMUX Cell Multiplexer Provides interface between ATM SW and MHC
HUBIU HUB Interface Unit Terminates HUB link
PRM Packet Radio Link Controller Module
Trunk Module
PRLC Packet Radio Link Controller Terminates Layer 2 protocol packet data
HSPRLC High-speed Packet Radio Link Controller
Terminates Layer 2 protocol packet data at high speed
Table 2 RNC System Configuration (2/3)
Abbrev. Meaning Function
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CMUXE Cell Multiplexer Extension Provides interface between ATM SW and PRLC
HUBIU HUB Interface Unit Terminates HUB link
SIGM Signaling Module Trunk Module
ANC ATM Adaptation Layer Controller Terminates signaling data from CN and Node-B
GIC General purpose Interface Card Terminates the AAL5/ATM layer of the Iu-Broadcast Center (BC) interface
MFG Multi-frame Generator Generates multi-frame signal to send on radio
CMUX Cell Multiplexer Provides interface between ATM SW and ANC
HUBIU HUB Interface Unit Terminates HUB link
Table 2 RNC System Configuration (3/3)
Abbrev. Meaning Function
A50016-G5000-G283-1-7630ND-57820-706 (E)-01
SECTION 2COMMAND INPUT PROCEDURE
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Office Data Command Input Procedure
1. Outline
The office data command input procedure for the RNC and the Node B addition/removal procedure are described below. These procedures are described on premise that commands are input via the Local Maintenance Terminal for Radio Network Controller (LMT-RNC).
The following shows each general flow for RNC system installation, Node B addition and removal.
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1.1 RNC System Installation
1.1.1 System Installation of RNC
Fig. 1 shows a flow chart to install a new RNC system.
START
Set IP Address
Create SP SystemDevice
Activate (INS) SPSystem Device
Set Own (home)RNC Information
Set SS7 RelatedInformation
Set Node B relatedInformation
Create TINF DeviceLine
- CMUX/GMUX Device (MSWC, CMPC, NBSC, GMUX, PSWC)
- TINF Device (TIFD, TIFS)- TINF-Subordinate ATM Line Device (AO3D, AO3S, AC1D, AO1D, AO1S)- CMUX-Subordinate Trunk Device (MHC, DHT, CMP, N1CMP, ANC,
MFG, M2C, PRLC)*:Specify node number for BASIC device inside the same CMUX group. For EXTEND device, specification of node number is unnecessary.*:Create required amount of GMUX devices in advance, then create PRLCdevice. (Limitation for command input exists.)
Using ulock/ins eqp commands, activate the SP system device in the system.For devices in master-slave relationship, activate (INS) the device in higherclass first, before creating the subordinate.(e.g. TIFD/TIFS and AO3D/AO3S, NBSC and ANC etc.)
Using cre rnc command, set RNC information of own node.(Customize information for each node)
Own node point code setting (cre osp command)MTP level 2/3 related data setting (cre n7l2a/n7l3a commands)Link group setting (cre lgn command)Signaling route setting (cre n7rt command)
Using cre rbc/ cre sccsr/ cre ifmrms/ cre olpc/ cre phccp commands,set Node B related information.
Set line information for TINF line device (AO3D/AO3S/AC1D) (cre cnr/ublk cbia commands)For line types, specify the following:AO3D/AO3S : for STM-1 Euro-specification (single/ dual mode) andAC1D : for C1HW line device.
- GMUX-specific information settings (cre gmrp command)
See "2. Command Input Procedure".
SCCP management termination office setting (cre n7dpc command)
Fig. 1 System Installation Procedure (1/3)
A
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Fig. 1 System Installation Procedure (2/3)
Register SS7 Link
Create PVC PathInformation
Register EmergencyLink
Register VCC forPacket
Set path connectionbetween OMC and
Node B
Set PVC path for N1CMP device. (cre cmpvc command)Set PVC path related to NBAP/ALCAP for lub. (cre eqplnk command)Set PVC path related to Node Synchronization for lub. (cre eqplnkcommand)
Using cre emlnk command, register emergency link for Node B.
Register virtual channel connection for packet call. (cre pkt command)
Set PVC path for OMC to perform operation and maintenancecontrol on Node B.
Set SS7 link with higher class node
A
Create Node B
Create DTI-CMPLine
Set CMP Resource
Set ATM LineInformation
Using cre nb command, set information for Node B to be installedin this RNC.
Set DTI line information for Node B. (cre dclr/ ublk dclb)
Set resource information for CMP/N1CMP device. (cre cmpr command)
Set information for vpci/vpi/vci/vpci bandwidth etc. of ATM lines directedto an associated node. (cre acr command)
B
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Fig. 1 System Installation of RNC (3/3)
Register CellRelated Information
Activate Informationof Registered Cell
Set Information forReference Clock
Establish SS7 Link
Register Node B cell reltaed information setting.(cre cell iub/ cre cell adc/ cre cell cctl/ cre cell aci/ cre cell gc commands)
Using act cell command, activate the registered cell information.
Using cre rfclk command, register route for reference clock.
Using str slk command, establish SS7 link.
B
END
Set CommonChannel for Node B
Register up/down link common channel directed to Node B.
Register Cell Re-selection Control
Using cre cell rslc, register cell re-selection control.
Register BufferUtilization Measurement
Information
Using cre bumi command, register buffer utilization maeasurementinformation.
Register DownlinkPower Balancing
Information
Using cre dlpb command, register downlink power balancinginformation.
Register IMSI BasedHandover Control
Information
Using cre ibhc command, register IMSI based handover controlinformation.
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1.1.2 System Installation of RNC with WCMP and MDTI
Fig. 2 shows a flow chart to install a new RNC system.
START
Set IP Address
Create SP SystemDevice
Activate (INS) SPSystem Device
Set Own (home)RNC Information
Set SS7 RelatedInformation
Set Node B relatedInformation
Create TINF DeviceLine
- CMUX/GMUX Device (MSWC, CMPC, NBSC, GMUX, PSWC, ASSC, DTSC)
- TINF Device (TIFD, TIFS)- TINF-Subordinate ATM Line Device (AO3D, AO3S, AC1D, AO1D, AO1S)- CMUX-Subordinate Trunk Device (MHC, DHT, CMP, N1CMP, ANC,
MFG, M2C, PRLC, WCMP, MDTI, HSDST, HSPRLC)*:Specify node number for BASIC device inside the same CMUX group. For EXTEND device, specification of node number is unnecessary.*:Create required amount of GMUX devices in advance, then create PRLCdevice. (Limitation for command input exists.)
Using ulock/ins eqp commands, activate the SP system device in the system.For devices in master-slave relationship, activate (INS) the device in higherclass first, before creating the subordinate.(e.g. TIFD/TIFS and AO3D/AO3S, NBSC and ANC etc.)
Using cre rnc command, set RNC information of own node.(Customize information for each node)
Own node point code setting (cre osp command)MTP level 2/3 related data setting (cre n7l2a/n7l3a commands)Link group setting (cre lgn command)Signaling route setting (cre n7rt command)
Using cre rbc/ cre sccsr/ cre ifmrms/ cre olpc/ cre phccp commands,set Node B related information.
Set line information for TINF line device (AO3D/AO3S/AC1D) (cre cnr/ublk cbia commands)For line types, specify the following:AO3D/AO3S : for STM-1 Euro-specification (single/ dual mode) andAC1D : for C1HW line device.
- GMUX-specific information settings (cre gmrp command)
See "2. Command Input Procedure".
SCCP management termination office setting (cre n7dpc command)
Fig. 2 System Installation of RNC with WCMP and MDTI (1/3)
A
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Fig. 2 System Installation of RNC with WCMP and MDTI (2/3)
Register SS7 Link
Register EmergencyLink
Set PVC path for WCMPD/WCMPS device. (cre cmpvc command)Set PVC path related to NBAP/ALCAP for lub. (cre eqplnk command)Set PVC path related to Node Synchronization for lub. (cre eqplnkcommand)
Using cre emlnk command, register emergency link for Node B.
Set SS7 link with higher class node
A
Create Node B
Create DTI-CMPLine
Set CMP Resource
Set ATM LineInformation
Using cre nb command, set information for Node B to be installedin this RNC.
Set DTI line information for Node B. (cre dclr/ ublk dclb commands)
Set resource information for CMP/N1CMP/WCMP device. (cre cmpr command)
Set information for vpci/vpi/vci/vpci bandwidth etc. of ATM lines directedto an associated node. (cre acr command)
Create MDTI LineInformation
Set MDTI Line Information. (cre mdtil command)Set IMA group information for MDTI. (cre mimag command)
Set MDTI Resource Set resource information for MDTI device. (cre mali command)
Modify UMTS QoS toDSCP Mapping
Using mod uqcdm command, modify UMTS QoS to DSCP mapping.
B
Create PVC PathInformation
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Fig. 2 System Installation of RNC with WCMP and MDTI (3/3)
Register CellRelated Information
Register Node B cell reltaed information setting.(cre cell iub/ cre cell adc/ cre cell cctl/ cre cell aci/ cre cell gc commands)
B
Set CommonChannel for Node B
Register up/down link common channel directed to Node B.
Register VCC forPacket
Set path connectionbetween OMC and
Node B
Register virtual channel connection for packet call. (cre pkt command)
Set PVC path for OMC to perform operation and maintenancecontrol on Node B.
Activate Informationof Registered Cell
Set Information forReference Clock
Establish SS7 Link
Using act cell command, activate the registered cell information.
Using cre rfclk command, register route for reference clock.
Using str slk command, establish SS7 link.
Register Cell Re-selection Control
Using cre cell rslc, register cell re-selection control.
Register BufferUtilization Measurement
Information
Using cre bumi command, register buffer utilization maeasurementinformation.
Register DownlinkPower Balancing
Information
Using cre dlpb command, register downlink power balancinginformation.
Register IMSI BasedHandover Control
Information
Using cre ibhc command, register IMSI based handover controlinformation.
END
RegisterHSDPA related
Information
Using cre hsdpa command and cre hsrrm command,register HSDPA related information.
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1.2 Node B Addition
Fig. 3 shows a flow chart to add a new Node B.
Fig. 3 Node B Addition Procedure
Addition of a Node B
Start
Setting of CMPresource
Setting of ATM lineinformation
Setting of PVC pathinformation
Setting of cell-relatedinformation
Setting of commonchannel for Node B
End
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1.3 Node B Removal
Fig. 4 shows a flow chart to delete a Node B.
Fig. 4 Node B Removal Procedure
Start
Deletion ofCMP resource
Deletion of ATMline information
Deletion ofPVC path
information
Deletion ofcell-relatedinformation
Deletion ofcommon channel for
Node B
End
Removal ofa Node B
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2. Office Data On-line Command Input Procedure
2.1 RNC System Installation Procedure
2.1.1 System Installation of RNC
STEP ACTION/REMARKS
1 Set IP addresses.1-1 Set each IP address for RNC and OMC.
Use the cre inet command.1-2 Enable the registered network information.
Use the comm inet command.
2 Create SP system devices.2-1 Register SP system controllers in order of nbsc, mswc, cmpc, gmux.
Use the cre eqp command.2-2 Register GMUX-related information.
Use the cre gmrp command.2-3 Register subordinate SP devices in order of pswc, tifd, tifs, ac1d, ao3d, ao3s, mhc,
dht, cmp, n1cmp, anc, mfg, m2c.Use the cre eqp command.
3 Activate SP system devices.Use the ulock eqp command.
4 Set own RNC information.Use the cre rnc command.
5 Set SS7-related information.5-1 Register own node information.
Use the cre osp command.5-2 Register SS7 level 2 or level 3 information.
Use the cre n7l2a or cre n7l3a command.
Note: Skip this sub-step if appropriate values are already set in software option setting data.
5-3 Register SS7 signaling link group.Use the cre lgn command.
5-4 Register SS7 signaling route.Use the cre n7rt command.
5-5 Register SCCP management destination data.Use the cre n7dpc command.
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6 Set Node-B-related information.6-1 Register radio bearer control information.
Use the cre rbc command.6-2 Register synchronization configuration for cell setup request.
Use the cre sccsr command.6-3 Register the report mode system information of the measurement in the same
frequency.Use the cre ifmrms command.
6-4 Register inter system hard handover control commands.Use the cre ishc command.
6-5 Register outer loop power control information commands.Use the cre olpc command.
6-6 Register PDCH header compression configuration parameters.Use the cre phccp command.
6-7 Register dedicated measurement infromation commands.Use the cre dmi bra command.
7 Create TINF line.7-1 Register line numbers for tifd, tifs, and then c1hw.
Use the cre cnr command.7-2 Unblock the tifd and tifs lines.
Use the ublk cbia command.
8 Create Node B.Use the cre nb command.
9 Create DTI-CMP line for Node B.9-1 Register the line for Node B.
Use the cre dclr command.9-2 Unblock the line for Node B.
Use the ublk dclb command.
10 Set CMP resource for Node B.Use the cre cmpr command.
11 Set ATM line.11-1 Register ATM line information.
Use the cre acr command.11-2 Register prlc.
Use the cre eqp command.
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12 Register SS7 link.Use the cre slk command.
13 Create PVC path information for n1cmp.Use the cre cmpvc command.
14 Register an emergency link.14-1 Register a link for Node B in order of signaling link, synchronization link.
Use the cre eqplnk command.14-2 Register the emergency link.
Use the cre emlnk command.14-3 Modify registered ANC device control information.
Use the mod eqpanc command.
Note: Skip this sub-step if appropriate values are already set in software option setting data.
15 Register VCC for packet.Use the cre pkt command.
16 Register cross-connect for direct CMP and ATM switch to set path connection between Radio Commander and Node B.Use the cre dacon command.
17 Set cell-related information in order of iub, adc, cctl, aci, gc.Use the cre cell command.
18 Set common channels for Node B.18-1 Register an uplink common channel.
Use the cre ulcc command.18-2 Register a downlink common channel.
Use the cre dlcc command.
19 Register the cell re-selection control information.Use the cre cell rslc command.
20 Register the buffer utilization measurement information.Use the cre bumi command.
21 Register downlink power balancing information.Use the cre dlpb command.
22 Register IMSI based handover control information.Use the cre ibhc command.
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23 Activate the registered cell information.Use the act cell command.
24 Set reference clock information.Use the reg rfclk command.
25 Establish SS7 link.Use the str slk command.
2.1.2 System Installation of RNC with WCMP and MDTI
STEP ACTION/REMARKS
1 Set IP addresses.1-1 Set each IP address for RNC and OMC.
Use the cre inet command.1-2 Enable the registered network information.
Use the comm inet command.
2 Create SP system devices.2-1 Register SP system controllers in order of nbsc, mswc, cmpc, gmux, dtsc.
Use the cre eqp command.2-2 Register GMUX-related information.
Use the cre gmrp command.2-3 Register subordinate SP devices in order of pswc, tifd, tifs, ac1d, ao3d, ao3s, mhc,
dht, cmp, n1cmp, anc, mfg, m2c, wcmpd, wcmps, mdti, hsdps, hprlc.Use the cre eqp command.
3 Activate SP system devices.Use the ulock eqp command.
4 Set own RNC information.Use the cre rnc command.
5 Set SS7-related information.5-1 Register own node information.
Use the cre osp command.5-2 Register SS7 level 2 or level 3 information.
Use the cre n7l2a or cre n7l3a command.
Note: Skip this sub-step if appropriate values are already set in software option setting data.
5-3 Register SS7 signaling link group.Use the cre lgn command.
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5-4 Register SS7 signaling route.Use the cre n7rt command.
5-5 Register SCCP management destination data.Use the cre n7dpc command.
6 Set Node-B-related information.6-1 Register radio bearer control information.
Use the cre rbc command.6-2 Register synchronization configuration for cell setup request.
Use the cre sccsr command.6-3 Register the report mode system information of the measurement in the same
frequency.Use the cre ifmrms command.
6-4 Register inter system hard handover control commands.Use the cre ishc command.
6-5 Register outer loop power control information commands.Use the cre olpc command.
6-6 Register PDCH header compression configuration parameters.Use the cre phccp command.
6-7 Register dedicated measurement infromation commands.Use the cre dmi bra command.
7 Create TINF line.7-1 Register line numbers for tifd, tifs, and then c1hw.
Use the cre cnr command.7-2 Unblock the tifd and tifs lines.
Use the ublk cbia command.
8 Set MDTI line.8-1 Register MDTI line information.
Use the cre mdtil command.8-2 Register IMA group information for MDTI.
Use the cre mimag command.
9 Create Node B.Use the cre nb command.
10 Create DTI-CMP line for Node B.10-1 Register the line for Node B.
Use the cre dclr command.10-2 Unblock the line for Node B.
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Use the ublk dclb command.
11 Set CMP resource for Node B.Use the cre cmpr command.
12 Set ATM line.12-1 Register ATM line information.
Use the cre acr command.12-2 Register prlc.
Use the cre eqp command.
13 Set MDTI resource for Node B.Use the cre mali command.
14 Register SS7 link.Use the cre slk command.
15 Create PVC path information for n1cmp.Use the cre cmpvc command.
16 Register an emergency link.16-1 Register a link for Node B in order of signaling link, synchronization link.
Use the cre eqplnk command.16-2 Register the emergency link.
Use the cre emlnk command.16-3 Modify registered ANC device control information.
Use the mod eqpanc command.
Note: Skip this sub-step if appropriate values are already set in software option setting data.
17 Modify UMTS QoS to DSCP mapping.Use the mod uqcdm command.
18 Register VCC for packet.Use the cre pkt command.
19 Register cross-connect for direct CMP and ATM switch to set path connection between Radio Commander and Node B.Use the cre dacon command.
20 Set cell-related information in order of iub, adc, cctl, aci, gc.Use the cre cell command.
21 Set common channels for Node B.
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21-1 Register an uplink common channel.Use the cre ulcc command.
21-2 Register a downlink common channel.Use the cre dlcc command.
22 Register the cell re-selection control information.Use the cre cell rslc command.
23 Register the buffer utilization measurement information.Use the cre bumi command.
24 Set HSDPA-related data.24-1 Register a high-speed downlink packet access channel.
Use the cre hsdpa command.24-2 Register HS-DSCH radio management information.
Use the cre hsrrm command.
25 Register downlink power balancing information.Use the cre dlpb command.
26 Register IMSI based handover control information.Use the cre ibhc command.
27 Activate the registered cell information.Use the act cell command.
28 Set reference clock information.Use the reg rfclk command.
29 Establish SS7 link.Use the str slk command.
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2.2 Node B Addition Procedure
STEP ACTION/REMARKS
1 Add Node B.Use the cre nb command.
2 Set CMP resource.Use the cre cmpr command.
3 Set ATM line.Use the cre acr command.
4 Set PVC path information.4-1 Register a link for Node B in order of signaling link, synchronization link.
Use the cre eqplnk command.4-2 Modify registered ANC device control information.
Use the mod eqpanc command.
5 Set cell-related information in order of iub, adc, aci.Use the cre cell command.
6 Set common channels for Node B.6-1 Register an uplink common channel.
Use the cre ulcc command.6-2 Register a downlink common channel.
Use the cre dlcc command.
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2.3 Node B Removal Procedure
STEP ACTION/REMARKS
1 Delete common channels for Node B.1-1 Delete an uplink common channel.
Use the del ulcc command.1-2 Delete a downlink common channel.
Use the del dlcc command.
2 Delete cell-related information in order of iub, adc, aci.Use the del cell command.
3 Set PVC path information.Use the del eqplnk command.
4 Delete CMP resource.Use the del cmpr command.
5 Delete ATM line.Use the del acr command.
6 Delete Node B.Use the del nb command.
Note: Be sure to delete the information corresponding to eqplnk, cmpr, acr commands before removing the Node B, otherwise nb/cell/dlcc/ulcc commands cannot later input in case of later adding another Node B.