GSM BSS G10B
Training Programs
Catalog of Course Descriptions
1
Catalog of Course Descriptions
INTRODUCTION ................................................................................................................. 5
GSM BSS G10 TROUBLESHOOTING............................................................................... 6
ABIS OVER IP ABIS OPTIMIZATION ON-SITE WORKSHOP .......................................... 9
GSM BSS G10 BSC OPERATION AND CONFIGURATION ........................................... 12
GSM BSS G10 CELL PLANNING PRINCIPLES.............................................................. 16
GSM BSS G10 CELL PLANNING WORKSHOP.............................................................. 19
GSM BSS G10 DELTA ..................................................................................................... 22
FIND FAULTY ANTENNA ON-SITE WORKSHOP .......................................................... 24
GSM BSS G10 GPRS/EDGE RADIO NETWORK DIMENSIONING ................................ 26
GSM BSS G10 GPRS/EDGE RADIO OPTIMIZATION WORKSHOP .............................. 28
GSM BSS G10 GPRS EDGE SIGNALING ....................................................................... 31
GSM BSS G10 GPRS OPERATION................................................................................. 34
GSM BSS G10 INTEGRATION FOR FIELD MAINTENANCE ......................................... 38
IP IN GSM RADIO ACCESS NETWORK ......................................................................... 42
GSM NETWORK SURVEILLANCE .................................................................................. 45
GSM BSS G10 RADIO NETWORK FEATURES .............................................................. 47
GSM BSS G10 RADIO NETWORK TUNING ................................................................... 52
GSM BSS G10 SIGNALING ............................................................................................. 55
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GSM BSS G10 STATISTICS INTRODUCTION ................................................................ 59
GSM SYSTEM SURVEY ................................................................................................... 62
GSM BSS G10 RBS 2409 IMPLEMENTATION AND MAINTENANCE ........................... 67
GSM BSS G10 RBS 2X06 MAINTENANCE ..................................................................... 70
GSM BSS G10 RBS 2X16 MAINTENANCE ..................................................................... 74
GSM BSS G10 RBS 2X16 MAINTENANCE DELTA ........................................................ 77
GSM BSS G10 RBS 2111 MAINTENANCE ..................................................................... 80
GSM BSS G10 RBS 2000 BASICS .................................................................................. 83
APG 40 OPERATION AND MAINTENANCE (WINDOWS 2003) ..................................... 86
APG 40 INSTALLATION AND CONFIGURATION (WINDOWS 2003) ............................ 88
APG 40 RECOVERY PROCEDURES (WINDOWS 2003 C/4) ......................................... 90
APG 43 DELTA................................................................................................................. 92
APG43 OPERATION AND MAINTENANCE .................................................................... 94
APG43 INSTALLATION AND CONFIGURATION ........................................................... 97
APG43 RECOVERY PROCEDURES ............................................................................. 100
APZ 212 55 OPERATION AND MAINTENANCE ........................................................... 103
AUTOMATED O&M USING OPERATION PROCEDURE SUPPORT (OPS) ................ 106
AXE810 MAINTENANCE ............................................................................................... 108
AXE EMERGENCY HANDLING ..................................................................................... 111
GSM AXE OPERATION ................................................................................................. 114
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GPRS SYSTEM SURVEY ............................................................................................... 117
GSM MAINTENANCE MSC/BSC EXTENDED ............................................................... 120
GSM RAN CONFIGURATION MANAGEMENT USING OSS-RC .................................. 124
IP IN GSM RADIO ACCESS NETWORK ....................................................................... 127
IP QUALITY OF SERVICE AND MPLS .......................................................................... 130
IP SECURITY .................................................................................................................. 132
OSS-RC OVERVIEW ...................................................................................................... 134
OSS-RC 6 EVENT BASED APPLICATIONS AND TEMS VISUALIZATION OPERATION
FOR GSM ....................................................................................................................... 137
PBC 6500 INSTALLATION AND MAINTENANCE ........................................................ 140
REMOTE SOFTWARE HANDLING OF AXE USING SOFTWARE MANAGEMENT
ORGANIZER (SMO) ....................................................................................................... 142
SITE INTEGRATION UNIT FIELD MAINTENANCE....................................................... 145
SITE INTEGRATION UNIT OPERATION AND CONFIGURATION ............................... 148
USING THE FAULT MANAGEMENT EXPERT (FMX) TOOL ........................................ 152
BSC IP INFRASTRUCTURE OPERATION AND CONFIGURATION ............................ 155
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Introduction
Ericsson has developed a comprehensive Training Programs service to satisfy the
competence needs of our customers, from exploring new business opportunities to expertise
required for operating a network. The Training Programs service is delineated into packages
that have been developed to offer clearly defined, yet flexible training to target system and
technology areas. Each package is divided into flows, to target specific functional areas
within your organization for optimal benefits.
Service delivery is supported using various delivery methods including:
Icon
Delivery Method
Instructor Led Training (ILT)
Seminar (SEM)
Workshop (WS)
Virtual Classroom Training (VCT)
Web Based Learning (WBL)
Short Article (SA)
Streaming Video (SV)
CD-ROM (CD)
Structured Knowledge Transfer (SKT)
Delivery Enablers
Remote Training Lab (RTL)
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Telephone: +46 10 719 0000
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© Ericsson AB 2010
GSM BSS G10 Troubleshooting
LZU 108 7501 R2A
Description
If you need knowledge about advanced techniques of GSM RBS 2000 Troubleshooting, then
this course is for you. The main focus of this task-based course is working with advanced
techniques of fault repair and maintenance procedures including the usage of the necessary
documentation to handle each process and understanding RBS related commands. The
course includes remote fault analysis using commands in the BSC and the OMT software in
the RBS for local analysis. The course also includes some RBS 6000 concepts and
characteristics.
Learning objectives
On completion of this course the participants will be able to:
1
1.1
1.2
1.3
2
2.1
2.2
2.3
3
3.1
3.2
3.3
3.4
3.5
Review the RBS Hardware, including RU functions, indicators, buttons and
connectors
List the main Hardware of macro, micro, pico and main-remote RBS including the
RBS 6000
Recognize the generic indicators (LEDs) and buttons of the main parts of the RBS
Identify the Buses of the RBS
Discriminate the Managed Objects hierarchy, functionalities and structure, and them
relation with the RBS hardware and the OMT software functions
Describe the MO concept
Indicate the functions of each MO and them relation with the RBS Hardware
Perform a fault analysis using the OMT software and the appropriated Manual
Examine the main processes performed from the BSC to identify faults in the PCM
Link
Identify and describe the CPI documentation used during the RBS Fault Analysis
Locate the components of the RAN interfaces: SNT, DIP and Devices
List the relation between Devices in the DIP (RBLT) and the Time Slots over the Air
Interface (RXOTS)
Describe the functions of the main SNT, DIP and device commands
Analyze the main supervision parameter related to the DTQUP command
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4
4.1
4.2
4.3
4.4
5
5.1
5.2
5.3
5.4
Analyze the main processes performed from the BSC to identify faults in the RBS
Hardware
Identify the main components of the RBS Managed Objects
Detail the command RXASP and RXMFP
Describe the functions of the commands RXMSP, RXCDP, RXTCP, RXESI, RXESE,
RXBLI, RXBLE, RXTEI, RXELP and RXCAP
Monitor the External Alarms in the RBS using the ALLIP command
Explore the main processes performed from the BSC to analyze the CELL resources
and perform a Call Tracing
Briefly explain the Cell functions and limitations and Logical Channels types
Identify the Cell parameters related to the Hardware Status
Detail the command RLCRP
Clarify the functions of the commands RLSTP, RLSTC, RLCFP, RLCPP, RLDEP and
RLSLP
Target audience
The target audience for this course is: Field Technicians, System Technician and Service
Technician.
Prerequisites
Successful completion of the following courses:
GSM System Survey
LZU 108 852
GPRS System Survey
LZU 108 876
OSS-RC Overview
LZU 108 6863
GSM BSS G10 RBS 2000 Basics
LZU 108 7484
and
GSM BSS G10 Integration for Field Maintenance
LZU108 7489
Duration and class size
The length of the course is 3 days and the maximum number of participants is 8.
Doc. No: 199/03819-FAP 130 506 Uae Rev A
Ericsson AB
Global Services
SE-164 80 Stockholm
Telephone: +46 10 719 0000
www.ericsson.com/globalservices
© Ericsson AB 2010
Learning situation
This is a task-oriented learning course based on tasks in the work process given in a
technical environment using equipment and tools.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
1
Course introduction
0.5 hour
RBS Hardware and RBS 6000
1.0 hour
RBS Hardware - Exercises
0.5 hour
MO and OMT Description
1.0 hour
MO and Fault Analyses – Exercises
1.0 hour
OMT - Exercises
2.0 hours
Digital Path Troubleshooting
1.0 hour
DIP and Device - Exercises
1.0 hour
DIP and Device Investigation - Exercises
1.5 hours
MO Troubleshooting
1.0 hour
MO Commands Review - Exercises
1.5 hours
Cell Analyses
1.5 hour
2
3
Estimated time
Cell Concept - Exercises
1.75 hours
Cell Analyses - Exercises
2.25 hours
Course Evaluation
0.5 hour
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Global Services
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Telephone: +46 10 719 0000
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© Ericsson AB 2010
Abis Over IP Abis Optimization on-site Workshop
LZU 108 6787 R4A
Description
If you want to improve your knowledge about Abis Optimization and Abis over IP features,
this workshop is for you. The GSM Radio Access Network is in constant evolution and this
course shows how to smoothly migrate to IP based transport and obtain great results with
the support of many features such as Abis Local Connectivity, provided by the Site
Integration Unit (SIU). This course is in accordance with Ericsson´s IP RAN R5 solution, new
name replacing Packet RAN (PRAN). Information regarding the new RBS 6000 family is also
included.
Learning objectives
After completing the course the student will be able to:
1
1.1
1.2
1.3
1.4
1.5
1.6
1.7
1.8
Provide the concepts of the Abis Optimization feature
Identify the transport evolution through packet Abis
Describe the Abis Optimization feature
Determine the Packet Gateway (PGW) Load Distribution feature
Define Super Channel Concept
Indicate how bandwidth savings are achieved
Identify the performance management statistics
Describe the transport characteristics
Determine the dimensioning strategy
2
Provide the functionalities of the Site Integration Unit (SIU) within the Abis over IP
feature
Identify the Abis over IP feature
Verify the New BSC IP Infrastructure (BSC NWI-E)
Describe the functions and capabilities of the SIU-01 and the new SIU-02 HW
Verify the new scenario using an RBS 6000
Determine the Abis Local Connectivity feature (ALC)
Identify how Security is accomplished
List the transport characteristics
Describe the synchronization scenarios
Describe Quality of Service
Define the Dimensioning parameters
List the AIPCM tool Capabilities
2.1
2.2
2.3
2.4
2.5
2.6
2.7
2.8
2.9
2.10
2.11
3
3.1
3.2
Provide the necessary informations to implement the features Abis Optimization and
Abis over IP
Describe the Managed Objects (MOs) concepts
Implement Abis Optimization feature in BSC
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3.3
Implement Abis Over IP feature in BSC
Target audience
The target audience for this course is: Service Planning Engineers, Service Design
Engineers, Network Design Engineers and Network Deployment Engineers.
Prerequisites
The participants should be familiar with Abis link, IP technology or successful completion of
the following courses:
IP Networking
LZU 102 397
GSM BSS G10 Signaling
LZU108 7491
GSM BSS G10 Integration for Field Maintenance
LZU108 7489
Duration and class size
The length of the course is 2 days and the maximum number of participants is 8.
Learning situation
This is a workshop based on interactive training sessions in a technical environment using
equipment and tools.
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Global Services
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Telephone: +46 10 719 0000
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© Ericsson AB 2010
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
1
Course Introduction and Pre Test
0.5 hour
Abis Optimization feature
2.5 hours
Abis over IP and SIU
2.5 hours
RBS 6000 scenario overview
0.5 hour
Abis over IP and SIU (cont.)
2.5 hour
Features Implementation
3.0 hours
Post Test and Course Evaluation
0.5 hour
2
Estimated time
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Telephone: +46 10 719 0000
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© Ericsson AB 2010
GSM BSS G10 BSC Operation and Configuration
LZU 108 7500 R2A
Description
Upon realization of this course the students will be able to perform configuration of any
boards from the BSC/TRC (such as TRHB, TRA and ETC) and understand the APZ 212 55
and APG 43 concepts. The students will also be able to perform integration of any 2000
family of Ericsson‟s RBS, configure the necessary cell parameters and RBS internal
connections. This course brings an excelent introduction of the Abis over IP feature, showing
all functions of the Site Integration Unit (SIU), in accordande with the IP RAN R5 Solution,
that was called PRAN Solution before this release. In addition, the participants will receive
good knowledge regarding of many tools, like MTR (Mobile Traffic Recording), CER (Cell
Event Recording) and FAS (Frequency Allocation Support). This course brings several new
and enhanced features used in Ericsson‟s GSM BSS G10B Release.
Learning objectives
On completion of this course the participants will be able to:
1
1.1
1.2
2
2.1
2.2
2.3
2.4
2.5
3
3.1
3.2
3.3
4
4.1
Identify the GSM/GPRS/EGPRS system using diagram in blocks of the identities and
descriptive of all the units that compose the system
List the Network Nodes of an Ericsson GSM System
Understand the purpose of GSM-ID numbers (MSISDN, IMSI, LAI, CGI, IMEI, MSRN)
Indicate the channels in the GSM/GPRS/EGPRS System explaining their purpose
using pictures and table available in student material
Explain the purpose of the logical channels used on the Air Interface for GSM and
GPRS network
Discuss the EGPRS Coding Schemes and the EGPRS interface to RBS equipment
based on network topology and interface description and definition
Clarify the measurement procedure used by GSM terminal equipment
Describe the purpose of System Information in GSM
List the basic traffic cases in BSC
Configure the BSS Subsystem using Winfiol providing the student with knowledge of
the BSC, TRC and BSC/TRC hardware as well as the different magazines available
Describe the BSC and TRC hardware
Identify the connections between GEM and GDM magazines
Integrate the Hardware and Interfaces of the BSC using MML commands and
parameters
Distinguish the Abis over IP feature and its concepts according to the IP RAN R5
solution
Determine the IP architecture in RAN
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Telephone: +46 10 719 0000
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4.2
4.3
4.4
4.5
List the Site Integration Unit functions (SIU-01 and also SIU-02 HW)
Distinguish the Abis Optimization feature
Verify the Abis Local Connectivity feature
Identify the new scenario with the RBS 6000
5
Describe the RAN interfaces used in GSM, differentiate the different RBS 2000 family
members and configure the internal connections of the RBSs
Verify the A, A-ter and Abis interfaces
Differentiate the different RBSs from the 2000 family
Configure the RBS 2000 equipment in the BSC using MML commands
5.1
5.2
5.3
6
6.1
6.2
7
7.1
8
8.1
9
9.1
9.2
10
10.1
10.2
10.3
10.4
10.5
10.6
10.7
10.8
10.9
10.10
Configure the Radio Network and define Cell Data knowing the main parameters and
procedures to execute them
Explain the purpose of basic BSC Cell parameters and the effects they have on the
GSM Radio Access Network
Configure the basic radio network in the BSC using MML commands and parameters
Execute performance measurement and supervision features that are available in
BSS using appropriate command and Winfiol
Define supervision and recording processes in the BSC
Operate and supervise the BSC using the pre-defined routines and supervision
command and tools analysis of the OSS
Handle practical fault-finding on BSC hardware using On-line documentation
Identify how to maintain BSC/TRC and BTS using the main maintenance procedures
described in the documentation
Recognize the RBS Alarm Information displayed in the BSC
Execute BTS maintenance based on node diagnosis of fault conditions using the online documentation and maintenance procedures
Describe the following features from the GSM BSS G10B release
A interface over IP Enhancements
Automatic FLP
Automatic IRC Tuning
Capacity Locks (SCC) in the BSC for All Optional Speech Codecs
GS less PGH-PGW Communication
Increased SIGTRAN Capacity
Packet Abis Load Handling Enhancements
Reduced Power Level after Handover
PCU Load Regulation
Support for 4095 TRX on All HW Configurations
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Telephone: +46 10 719 0000
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© Ericsson AB 2010
Target audience
The target audience for this course is: System Engineers and Service Engineers.
Prerequisites
Successful completion of the following course:
GSM AXE Operation
LZU 108 5024/2
Duration and class size
The length of the course is 5 days and the maximum number of participants is 8.
Learning situation
The course is based on theoretical and practical instructor-led lessons given in both
classroom and a technical environment using equipment and tools, which can be accessed
remotely.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
1
GSM/GPRS/EDGE Network Description
1.0 hour
Channel Concept GSM/GPRS/EDGE
3.0 hours
Measurement Procedure
1.0 hour
System Information
1.0 hour
BSS Configuration theory
2.0 hours
BSS Configuration Exercices
2.0 hours
Abis over IP feature and related concepts
2.0 hours
Continue BSS Configuration Exercices
4.0 hours
Radio Network, theory
2.0 hours
2
3
Estimated time
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4
5
Continue the Radio Network, theory
2.0 hours
Radio Network Exercises
4.0 hours
Performance Measurement & Supervision
1.0 hour
BSS Operation (HW Maintenance)
1.0 hour
BSC/TRC and BTS Maintenance
1.0 hour
RBS 2000 Alarm Indications in the BSC
0.5 hour
Testing and fault-finding of RBS equipment in the BSC
0.5 hour
BTS Maintenance Exercises
1.0 hour
New Features
1.0 hour
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Telephone: +46 10 719 0000
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© Ericsson AB 2010
GSM BSS G10 Cell Planning Principles
LZU 108 7493 R2A
Description
This course enables the participants to understand most aspects of cell planning including
frequency planning and traffic dimensioning. The participants will also be able to make a
nominal cell plan and get an understanding of various radio network features.
Learning objectives
On completion of this course the participants will be able to:
1
1.1
List the Cell planning process
Clarify the major steps in cell planning: Traffic and Coverage Analysis, Nominal Cell
Plan, Surveys, System Design, Implementation, and System Tuning.
2
2.1
2.2
2.3
Explain the basic function of the radio network in a GSM system
Identify the GSM system nodes
Determine the function of the three major systems - Switching System, Base Station
System, and Operation and Support System - in the GSM network
Analyze the mapping and channel concept
3
3.1
3.2
3.3
Understand the content of the Ericsson RF Guidelines
Calculate link budgets and perform a system/power balance
Derive design criteria for macro cell coverage predictions
Explain how design criteria relates to coverage prediction
4
4.1
4.2
4.3
4.4
Explain general concepts related to traffic
Define the term “traffic”
Document and describe the term “Grade of Service” (GoS)
Use Erlang‟s B-table to dimension the number of channels needed in the system
Discuss about channel utilization
5
5.1
5.2
Clarify the dimensioning of logical channels
Perform a dimensioning of the SDCCH channels
Dimension the LA size based on paging capacity
6
6.1
Print the concepts of frequency planning
Discuss different frequency planning strategies
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6.2
6.3
6.4
Establish the concepts MRP and FLP
Explain Automatic FLP
Show the usage of BSIC
7
7.1
7.2
7.3
Discuss some central aspects of antennas
Interpret concepts such as gain, beam width, down tilt and null fill-in
Differentiate between space- and polarization diversity
Locate the meaning of intermodulation
8
8.1
Explain the function and usage of some antenna near products
Recognize scenarios where a repeater solution may be advantageous and discuss
possible repeater configurations
Illustrate the function and the usage of TMAs and power splitters
8.2
9
9.1
9.2
10
10.1
10.2
Discuss the content of a site survey
Give in own words why a radio network survey is done and what factors to consider
during a survey
Debate three types of radio measurements: path loss parameters, time dispersion and
interfering transmitters
10.5
Demonstrate use of some tools provided by Ericsson
List the main functions of NWS tool.
Clarify how the RNO in OSS can be used as implementation help and performance
monitoring
Express the use of CNA is OSS for the purpose of viewing, reconfiguring, and
implementing cells
Explore the Ericsson‟s TEMS product portfolio for optimization, network design and
quality assurance
Look at some functions of TEMS Investigation
11
11.1
11.2
11.3
Explain how to handle an increased capacity demand in a network
List the different ways of increasing the capacity in a radio network
Describe how to plan MAIO/HSN values in an FLP (1/1 and 1/3) network
Discuss different scenarios where MRP or FLP might be advantageous
12
Indicate the basic functionality of some radio network features related to planning
10.3
10.4
Target audience
The target audience for this course is: Service Design Engineers, Network Design
Engineers.
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Telephone: +46 10 719 0000
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Prerequisites
Successful completion of the following course:
GSM System Survey
LZU 108 852
Duration and class size
The length of the course is 5 days and the maximum number of participants is 16.
Learning situation
This course is based on theoretical instructor-led lessons given in a classroom environment.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
1
Cell Planning Introduction
System description
Radio Frequency Guidelines
Estimated time
0.5 hour
2 hours
3.5 hours
2
Traffic
Dimensioning of logical channels
Frequency planning
1 hour
3 hours
2 hours
3
4
Antennas and antenna near products
Design case
3 hours
Design case
Site survey
Tools
Network Expansion
2 hours
3 hours
1 hour
1 hour
2 hours
5
Network Expansion
Radio Network Features
1 hours
5 hours
Doc. No: 199/03819-FAP 130 506 Uae Rev A
Ericsson AB
Global Services
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Telephone: +46 10 719 0000
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© Ericsson AB 2010
GSM BSS G10 Cell Planning Workshop
LZU 108 7494 R2A
Description
This course is intended for radio network engineers involved in planning of the GSM radio
network. The purpose of the course is to provide the participants with extensive theory about
cell planning and practical experience from radio network design by using a cell-planning
tool.
Learning objectives
On completion of this course the participants will be able to:
1
1.1
1.2
Perform macro/micro cell predictions
Derive design criteria for macro cell coverage predictions
Explain how design criteria relates to coverage predictions and field measurements
2
Select a frequency planning strategy based on installed hardware and available
bandwidth
Discuss different frequency planning strategies
Describe BSIC planning
Discuss some different ways of introducing packet data into the network
Discuss the tools within OSS related to radio planning
2.1
2.2
2.3
2.4
3
3.1
3.2
3.3
3.4
Explain the principles behind the Ericsson propagation algorithms
Explain the principles behind Ericsson‟s macro cell propagation prediction algorithm
9999 and list the different type of input data required by the algorithm.
Explain the principles behind Ericsson‟s urban model and list the different type of
input data required by the algorithm.
Handle the Automatic Tuning process of model 9999 implemented in TCPU
Have some basic knowledge in how to evaluate results from the automatic tuning
process
4
4.1
4.2
GPRS/EGPRS Introduction
Explain the system parts specific to GPRS/EGPRS
Describe the radio resource handling
5
5.1
5.2
Understand the GPRS/EGPRS impact on the radio network
Explain the GPRS/EGPRS radio interface
Perform GPRS/EGPRS radio dimensioning
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6
6.1
6.2
Understand some basics related to STS (Statistics and measurement Sub System)
Understand some counters related to general traffic information
Have basic knowledge of some counters related to GPRS/EGPRS dimensioning
7
7.1
7.2
Explain situations where co-existence of cellular systems might generate problems
Discuss potential problems related to Co-existing systems
Discuss basic problems related to intermediation
8
8.1
8.2
8.3
8.4
8.5
8.6
Explain a number of radio network features related to network planning
Synchronized Radio Network
OL/UL Sub Cell
Multi Band Cell
Hierarchical Cell Structures
Adaptive Multi Rate
Antenna Hopping
Target audience
The target audience for this course is radio network engineers working with cell planning
issues.
Prerequisites
Successful completion of the following courses:
GSM BSS G10 Cell Planning Principles
LZU 108 7493
GSM BSS G10 GPRS/EDGE Radio Network Dimensioning LZU 108 7487
Duration and class size
The length of the course is 5 days and the maximum number of participants is 16.
Learning situation
This is a workshop based on interactive training sessions in a technical environment using
equipment and tools.
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Global Services
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Telephone: +46 10 719 0000
www.ericsson.com/globalservices
© Ericsson AB 2010
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as an estimate.
Day
Topics in the course
Estimated time
1
Introduction
0.5 hour
RF-Guidelines
1.5 hours
Frequency planning strategies
3 hours
Ericsson Propagation Algorithms
1 hour
2
Design Case 1 (Macro cell planning)
6 hours
3
Design Case 1 continued
2 hours
GPRS/EGPRS Introduction
1 hour
GPRS/EGPRS Dimensioning
3 hours
Radio Network Statistics
1 hour
Design Case 2 (FLP planning)
3 hours
Design Case 3 (Model tuning)
2 hours
Co-existence of cellular systems
1 hour
Radio Network Features
2 hours
Design Case 4 (Micro cell planning)
3 hours
4
5
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Telephone: +46 10 719 0000
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GSM BSS G10 Delta
LZU 108 7725 R2A
Description
If you already have the competence in Ericsson GSM BSS 09A but would like to extend your
competence to BSS G10B this course is intended for you. It will cover descriptions of new
features and also changes between BSS 09A and BSS G10B.
Learning objectives
On completion of this course the participants will be able to:
1
1.1
1.2
1.3
1.4
1.5
1.6
1.7
1.8
1.9
1.10
1.11
1.12
1.13
2
2.1
2.2
2.3
2.4
2.5
2.6
2.7
2.8
2.9
2.10
2.11
2.12
2.13
Provide an overview of the GSM BSS G10A new and improved features including
new/modified commands, parameters and counters
Describe the A-interface over IP
Explain Time Slot Power Savings
Clarify the EDGE Evolution - Dual Carrier
Demonstrate the GSM - LTE Cell Reselection
Provide GSM-UMTS Cell Reselection and Handover Improvements
Analyze the Multiple CCCH
Provide the AMR Wide Band Improvements
Show the Dynamic Half Rate for AMR-WB
List the BTS Power Savings Improvements
Check the Abis Local Connectivity – Satellite and Terrestrial Improvements
Underline the AMR Half Rate Improvements
Set the Real Time Trace Improvements
Identify the BSS System Improvements
Provide an overview of the GSM BSS G10B new and improved features including
new/modified commands, parameters and counters
Describe the general BSS Impact
Show the enhancements of A over IP in G10B
Clarify the feature Automatic FLP
Show the BSS Support for RBS 600 family
Analyze the IMSI Handover
Describe the increased SIGTRAN Capacity
Provide the Packet A bis Load Handling Enhancements
Show PCU Load Regulation
List the Reduced Power level after handover
Check the Support for 4095 TRX on all HW Configurations
Underline the Antenna Control – Standard TMA
Set the BSC System Improvements
Identify the BSS System Improvements
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2.14
Express the BTS System Improvements
Target audience
The target audience for this course is: Service Planning Engineers, Service Design
Engineers, Network Design Engineers, Network Deployment Engineers, Service Deployment
Engineers, System Technicians, Service Technicians, System Engineers, Service
Engineers, Field Technicians, System Administrators, Application Developers, Business
Developers, Customer Care Administrators.
Prerequisites
The participants should be familiar with the operation of the Ericsson GSM Radio and
Transport Networks of the previous GSM BSS versions.
Duration and class size
The length of the course is 1 day and the maximum number of participants is 16.
Learning situation
The course is based on theoretical instructor-led lessons given in a classroom environment.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
Estimated time
1
Introduction
0.5 hour
Pre-Test
0.5 hour
GSM BSS G10 Features
4.5 hours
Post-Test
0.5 hour
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Global Services
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Telephone: +46 10 719 0000
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© Ericsson AB 2010
Find Faulty Antenna On-Site Workshop
LZU 108 6786 R4A
Description
If you are spending a lot of money and time with drive tests, analysing TEMS and/or MRR
reports in order to find several spreading faulty antennas in the netowrk and you would like
to reduce this, be in this workshop. It explains how to use Find Faulty Antenna Data and Find
Faulty Transmit Antenna Data features to find the problems related with antennas
misaligned, feeder degradation, swaped feeders and other transmission problems.
Learning objectives
On completion of this course the participants will be able to:
1
1.1
1.2
1.3
1.4
Recognize system architecture
Understand FFAD and FFTAD concepts
Show the Hardware Compatibility
Use the OSS Tool
List the minimal configuration
2
2.1
2.2
2.3
2.4
2.5
2.6
Implement the FFAD and FFTAD
Set the FFAD and FFTAD parameter in the BSC
Configure cells for FFAD and FFTAD
Monitor the FFAD and FFTAD feature.
Show the algorithm for FFAX and FFAX-BLR tools
Evaluate the FFAX and FFAX-BLR tools
Explain when start the FFAX and FFAX-BLR
3
3.1
3.2
3.3
Execute FFAX analysis
Generate reports
Analyze reports
Recognize Faulty Antenna Identification
4
4.1
4.2
4.3
Establish the FFAX-BLR analysis
Create reports
Analyze reports
Show the OMT antenna troubleshooting
Target audience
The target audience for this course is: Service Planning Engineers, Service Design
Engineers, Network Design Engineers, and Network Deployment Engineers.
Doc. No: 199/03819-FAP 130 506 Uae Rev A
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Telephone: +46 10 719 0000
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Prerequisites
The participants should be familiar with Antennas concepts or working experience with GSM
BSS G10.
Duration and class size
The length of the course is 2 days and the maximum number of participants is 8.
Learning situation
This is a workshop based on interactive training sessions in a technical environment using
equipment and tools.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
1
Introduction and Prerequisite Test
0.5 hour
System Architecture
0.5 hour
FFAD and FFTAD Concepts
2.5 hours
Implement the FFAD and FFTAD
2.5 hours
2
Estimated time
FFAX Analyses
1 hour
FFAX-BLR Analyses
1 hour
Exercises
3.5 hours
Test
0.5 hour
Doc. No: 199/03819-FAP 130 506 Uae Rev A
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Global Services
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Telephone: +46 10 719 0000
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© Ericsson AB 2010
GSM BSS G10 GPRS/EDGE Radio Network Dimensioning
LZU 108 7487 R2A
Description
Do you need to plan and dimension your radio network to meet the future needs of GPRS
and/or EDGE data services?
This course is intended for RF engineers involved in planning and dimensioning activities of
GPRS and/or EDGE radio networks. The purpose of the course is to provide the RF
engineers with both theoretical and practical competence of planning and dimensioning
issues. After attending this course the participants will be able to handle various planning
and dimensioning activities for a GPRS/EDGE radio network.
Learning objectives
On completion of this course the participants will be able to:
1
1.1
1.2
1.3
1.4
1.5
1.6
1.7
List and describe the GPRS/EDGE network
List the functionality of the main GPRS nodes
List the network changes and differences when using EDGE
Understand the EDGE Evolution
Describe the BSS Support for RBS 6000.
Explain GSM/WCDMA Cell reselection
Explain GSM/LTE Cell reselection
Understand the radio network features related to dimensioning
2
Explain how to collect data used as input for planning and dimensioning of the
GPRS/EDGE radio network
Explain how and which parameters to collect for the dimensioning procedure
Explain how to gather information about the traffic load
Explain how to collect information about interference
Explain how to get information regarding coverage
2.1
2.2
2.3
2.4
3
3.1
3.2
3.3
Dimension the GPRS radio network, measure the performance and analyze the
results to improve the performance
Apply Ericsson‟s GPRS/EDGE Radio network dimensioning methodology
Dimension a GPRS network for CS1-CS4 traffic
Dimension a EGPRS network for EDGE traffic
Doc. No: 199/03819-FAP 130 506 Uae Rev A
Ericsson AB
Global Services
SE-164 80 Stockholm
Telephone: +46 10 719 0000
www.ericsson.com/globalservices
© Ericsson AB 2010
Target audience
The target audience for this course is: Network Design Engineers and System Engineers.
This audience is responsible for planning and dimensioning of GPRS and/or EDGE radio
networks.
Prerequisites
Successful completion of the following course:
GSM BSS G10 Cell Planning Principles
LZU 108 7493
Duration and class size
The length of the course is 2 days and the maximum number of participants is 16
Learning situation
This course is based on theoretical instructor-led lessons given in a classroom environment.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
1
2
Topics in the course
Estimated time
Introduction
4 hours
Data Collection
2 hours
Radio Network Dimensioning
4 hours
Cases - Dimensioning and bandwidth calculations
2 hours
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Telephone: +46 10 719 0000
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GSM BSS G10 GPRS/EDGE Radio Optimization Workshop
LZU 108 7497 R2A
Description
This course is intended for RF engineers involved in performance activities of GPRS and
EGPRS radio networks. The purpose of the course is to provide optimization engineers with
both theoretical and practical competence of parameter settings and optimization activities.
After attending this course the participants will be able to handle various optimization.
Learning objectives
On completion of this course the participants will be able to:
1
1.1
1.2
Explain the GPRS/EDGE Performance evaluation and the impact of the TCP over
Wireless Networks
List the main radio KPIs measured in a GPRS/EGPRS radio network
Explain how the TCP protocol might influence the performance in the radio network
2
2.1
2.2
2.3
2.4
2.5
2.6
2.7
2.8
2.9
2.10
2.11
2.12
2.13
2.14
2.15
2.16
2.17
2.18
2.19
2.20
2.21
2.22
2.23
2.24
List the basic and optional radio network features available in Ericsson BSS
Explain GPRS coding scheme 3 and 4
Explain how EGPRS is implemented
Explain PS paging procedures
Explain the MPDCH Configuration
Explain PCCCH Capacity
Explain Flexible Channel Allocation
Explain Semi-Dedicated PDCH
Explain Flexible Abis
Explain GPRS/EDGE in OL subcell
Explain Flexible Priority Handling of Packet Data Channels
Explain Loss free Pre-emption
Explain Increased throughput in extended range cells
Explain Extended Dynamic Allocation
Explain Five Downlink Time Slots
Explain GPRS/EGPRS End-user Performance
Explain Network assisted cell change
Explain Optimized throughput at Inter BSC Cell Change
Explain Optimized throughput at GSM to WCDMA Cell Change
Explain Application Aware Timeslot Allocation
Explain Persistent Scheduling
Explain GPRS/EDGE Load Optimization
Explain Active Queue Management
Explain EDGE Evolution and EDGE Evolution Dual Carrier
Explain the advantage with MCPA in EDGE using the RBS 6000 family.
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2.25
2.26
2.27
2.28
2.29
Explain the RBS 6000 family
Explain the Cell reselection GSM to WCMDA
Explain the Cell reselection GSM to LTE
Explain the Automatic FLP.
Explain the PCU load regulation
3
3.1
3.3
3.4
Explain the major BSS KPI:s/PI:s measured with STS
Explain how the tree major KPIs IP Throughput, IP Latency and IP Buffer Discards,
are measured with STS
Explain the Performance Indicators measured with STS that are related to
Interference
Explain the Performance Indicators measured with STS that are related to Capacity
Explain the Performance Indicators measured with STS that are related to Mobility
4
4.1
4.2
Identify how to optimize a GPRS/EDGE radio network
Use TEMS Investigation for optimization tasks
Use STS for optimization tasks
3.2
Target audience
The target audience for this course is: Network Design Engineers.
The target audience is engineers actively involved in GPRS/EDGE Radio optimization and
others who would like to take a deep look into GPRS/EDGE radio functionalities and
optimization activities
Prerequisites
Successful completion of the following courses:
GSM BSS G10 Cell Planning Principles
LZU 108 7493
GSM BSS G10 Radio Network Features
LZU 108 7496
GSM BSS G10 Radio Network Tuning
LZU 108 7498
Duration and class size
The length of the course is 3 days and the maximum number of participants is 8
Learning situation
This is a workshop based on interactive training sessions in a classroom environment.
It includes exercises and practical GRPS/EDGE optimization cases.
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Telephone: +46 10 719 0000
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Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
Estimated time
1
Performance Monitoring
1 hour
1&2
Radio Network Features
8 hours
2
Performance monitoring using STS
3 hours
3
Optimization
6 hours
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Telephone: +46 10 719 0000
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GSM BSS G10 GPRS EDGE Signaling
LZU 108 7492 R2A
Description
This course handles the protocols and the signaling in the GPRS, EDGE System. It also
handles mapping and allocation of the GPRS channels and the main features of the air
interface. The course includes traffic case handling in both the core network and the air
interface.
The course together with the practical exercises, is a complement to the “GPRS System
Survey”, extending the areas described within that course.
Learning objectives
On completion of this course the participants will be able to
1
1.1
1.2
1.3
1.4
Identify the architecture of the General Packet Radio Service (GPRS) System
List the various GPRS services
State the functionality of the nodes comprising the GPRS system
Explain the Packet Network Evolution 3G-WCDMA and 4G-LTE/SAE
Explain the BSS G10B support for RBS 6000 family.
2
2.1
2.2
2.3
Detail the signaling protocols and connectivity between the various GPRS nodes
List the GPRS Logical interfaces
List the protocols used on the GPRS interfaces
Explain GPRS Link Adaptation and Link Quality Control
3
3.1
3.2
3.3
3.4
3.5
3.6
Understand the GPRS logical channels and the messages sent on these channels
List the messages sent on the logical channels
Understand the structure of the logical channels
Interpret the mapping of logical channels
Explain EDGE Evolution – Dual Carrier
Explain Multiple CCCH
Explain the Channel allocation
4
Understand the architecture and identities of the Gb interface, Gb over IP and Abis
over IP
Explain the BSS Architecture
Identify the BSSGP, NS, Link Layer and Physical Layer protocols
Explain the BSSGP over IP and SGSN Pool
Explain Dedicated, Flexible and IP Abis-Interface
4.1
4.2
4.3
4.4
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5
5.1
5.2
List the different types of interfaces in core network
List and explain the GPRS logical interfaces.
Describe the use of GPRS tunneling protocol
6
6.1
Understand and explain how different traffic cases are handled by the system
Explain the GPRS attach Paging co-ordination, PDP context activation, SMS Receive
and Sent, SGSN Routing Area Update, Cell Reselection, Dual Transfer Mode, GPRS
Connection and Transfer and combined procedures, GSM-WCDMA Cell Reselection,
GSM-LTE Cell Reselection.
Follow the signaling process during these traffic cases.
List nodes involved in traffic cases
6.2
6.3
Target audience
The target audience for this course is: Network Design Engineers, Network Deployment
Engineers, System Technicians, System Engineers and Field Technicians.
This audience is technical personel in need of a global understanding of GPRS Network.
Prerequisites
Successful completion of the following courses:
GSM System Survey
LZU 108 852
GPRS System Survey
LZU 108 876
OSS-RC Overview
LZU 108 6863
GSM BSS G10 RBS 2000 Basics
LZU 108 7484
GSM BSS G10 Radio Network Features
LZU 108 7496
GSM BSS G10 Signaling
LZU 108 7491
Duration and class size
The length of the course is 3 days and the maximum number of participants is 16.
Learning situation
This course is based on theoretical instructor led lessons given in a classroom environment.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
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© Ericsson AB 2010
Day
Topics in the course
1
Introduction of GPRS nodes and interfaces
4 hours
Um Interface
2 hours
Logical channels
3 hours
Channel Administration
3 hours
Gb, Gb over IP and Abis over IP
3 hours
Traffic cases
3 hours
2
3
Estimated time
Doc. No: 199/03819-FAP 130 506 Uae Rev A
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GSM BSS G10 GPRS Operation
LZU 108 7488 R2A
Description
If you need to perform hardware configuration and operation of your GPRS network then this
course is for you. The main focus of this learning product is to build up competence to
perform operational procedures in the BSS of a GPRS Network.
Learning objectives
On completion of this course the participants will be able to:
1
1.1
1.2
Understand the impact of GPRS on the GSM network and the capabilities of the BSS
system in relation to Core Network (CN)
List and describe the GPRS in the BSS
Describe the connection of the BSS to the GPRS network
2
2.1
2.2
Understand the hardware structure of the PCU and its capacity
Describe the BSC hardware structure and PCU
List the PCU capacity
3
3.1
3.2
3.3
3.4
Understand and put the hardware structure of the GPRS in service
Describe the GPRS hardware in the BSC
Describe the PCU Hardware using RPP board
Describe the PCU Hardware using GARP-2 board
Put the hardware in service
4
4.1
4.2
4.3
4.4
4.5
4.6
Configure and Manage the interface between the BSC and the SGSN
Describe the Gb interface over FR
Configure the Gb interface over FR
Describe Gb interface over IP
Configure the Gb interface over IP
Describe the PCU load distribution
Describe GS Less GPH PGW connection
5
5.1
5.2
5.3
5.4
Explain the basic Air Interfaces concepts related to the GPRS network
Know the air interface of the GPRS network
Describe the concept of channels in GSM and GPRS
Know the PCU channel allocation
Describe Multiple CCCH
6
Describe the EDGE
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6.1
6.2
6.3
6.4
6.5
6.6
6.7
Describe the EDGE solution
Describe EDGE Evolution Reduced Latency
Describe EDGE Evolution 16/32QAM
Describe EDGE Evolution – Dual Carrier
Describe GSM/WCDMA Cell Reselection
Describe GSM/LTE Cell Reselection
Describe BSS G10B support for RBS 6000 family
7
7.1
7.2
7.3
Describe the GPRS/EDGE traffic flow
Understand the call setup using the concept of pipes
Know the generation of processes in the PCU
Describe the call setup in PCU
8
8.1
8.2
8.3
8.4
Understand and handle the main categories and exchange properties in the GPRS
part of BSC
Describe the BSC Exchange properties for GPRS/EDGE
Describe the GPRS coding schemes
Describe the EDGE coding schemes
Understand the main GPRS/EDGE exchange parameters
9
9.1
9.2
Understand the use of the OSS-RC to handle the BSS part
Understand the purpose of OSS-RC
List and briefly describe the common components of OSS-RC
Target audience
The target audience for this course is: Service Design Engineers, Network Design
Engineers, Service Engineers and System Engineers.
The target audience for this course is personnel providing second line O&M support in an
OSS environment. It is suitable for configuration management personnel, GSN and BSS
support engineers
Prerequisites
Successful completion of the following courses:
GSM AXE Operation
LZU 108 5024/2
GSM BSS G10 BSC Operation and Configuration
LZU 108 7500
BSC IP Infrastructure Operation and Configuration
LZU 108 7766
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Duration and class size
The length of the course is 3 days and the maximum number of participants is 8.
Learning situation
The course is based on theoretical and practical instructor-led lessons given in both
classroom and a technical environment using equipment and tools, which can be accessed
remotely.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
1
Introduction of GPRS on the GSM network
1.0 hour
Understand the hardware and capacity PCU
0.5 hour
Describe the GPRS Hardware
0.5 hour
2
Estimated time
Describe the PCU boards and put the hardware in service
1 hour
Describe and configure Gb interface over FR
Describe and configure Gb interface over IP
2 hours
1 hour
Describe and configure the Gb interface over IP
1.5 hours
Describe GS Less GPF PGW
0.5 hour
Know the GSM/GPRS air interface
0.5 hour
Describe the GSM/GPRS logical channels
0.5 hour
Describe EDGE Solution
0.5 hour
Describe EDGE Evolution
0.5 hour
Describe GSM/WCDMA Cell reselection
0.5 hour
Describe GSM/LTE Cell reselection
0.5 hour
Describe BSS G10B Support for RBS 6000
0.5 hour
Describe GPRS/EDGE Traffic Flow
0.5 hour
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3
Understand the main BSC/GPRS/EDGE parameters
1 hour
Understand the use of the OSS-RC to handle the BSS part
0.5 hour
Practical cases
4.5 hours
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GSM BSS G10 Integration for Field Maintenance
LZU 108 7489 R2A
Description
The purpose of this course is to provide both theoretical and practical competence of
parameter settings used to integrate the RBS and BSC. You will learn about the definition of
a new cell in a BSC and the meaning of the cell parameters. You will also learn about
hardware definition, MOs, the meaning of its parameters as well as how to find faults
regarding cells and MOs. In the last chapter, you will see step by step the whole integration
process. The participants will also be introducted to the RBS 6000 family concepts and
characteristics.
Learning objectives
On completion of this course the participants will be able to:
1
1.1
1.2
1.3
2
2.1
2.2
2.3
2.4
3
3.1
3.2
3.3
3.4
3.5
3.6
Determine where the RAN Integration process – as part of the entire Cell Planning
Process – comes in and the general steps to be taken for integration
Discuss the Cell Planning Process
Determine the Network Implementation Process
Apply the RAN Integration Test
Discriminate the GSM RAN system and unit interworking identifying the individual
components in the RAN system, both in the BSC and RBS, using student material
and instructor explanation
List the GSM Switching System components
List GSM Radio Access Network (RAN) components
Identify the two parts of the Operation Support System – Radio and Core (OSS-RC)
Explain the BSC and TRC functional units
Recognize the various interfaces and protocols for those interfaces, studying the GSM
topology and differentiating each other
Identify and Explain the A, Ater and Abis interfaces
Understand the Abis optimization concept
Identify the characteristics of Abis over IP configuration
Understand the concept of Abis local connectivity
Explain the characteristics of the Air Interface
List the various Air Interface channels
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4
4.1
4.2
4.3
4.4
4.5
5
5.1
5.2
5.3
5.4
5.5
5.6
5.7
6
6.1
6.2
6.3
7
7.1
7.2
7.3
7.4
8
8.1
8.2
8.3
8.4
8.5
Identify the RBS 2000 series nodes, their functionalities, capabilities and structure,
using the student material and checking physically in the available BTS
Explain the RBS architecture and functional blocks
Differentiate various RBS 2000 family units
List the Replaceable Units (RUs) in the RBS 2000
Explain the concept of remote OMT and OMT over IP
Verify characteristics of the RBS 6000
Apply the command structure used in RBS/BSC communication, using the Winfiol
software and command documentation
Define the purpose of Man-Machine Language (MML) commands
List various command parameters
Interpret the format of commands
Use ALEX to search for a given command
Differentiate between CODs, PODs, and OPIs
Explain the difference between “RL” and “RX” commands
Given a list of commands, match a command with its function
Discuss cell-related concepts, obtaining cell definition, neighbor cell set-up,
measurement reports, locating, and handovers entering commands and parameters,
in practical exercises
Express a high-level description of the cell/site integration process
Identify cell-related parameters and data
Create the necessary command file to define a cell
Define the Managed Object concept and the RBS in a functional-oriented way in the
BSC point of view and create command files defining MOs
Define the Managed Object (MO) concept
Identify the logical model for RBS 2000
Explain the purpose of TEIs and DCPs
Create the necessary command file to define a TG and its related MOs
Finish MO and Cell integration, using Winfiol and correspondent commands
connected in the BSC
Define the purpose of an RBLT device
Identify the commands to bring an MO into service and to unblock it
Execute the process of connecting a cell to a site
Use the process of loading software into an RBS
List various RBS maintenance commands
Target audience
The target audience for this course is: System Engineer and Field Technicians.
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Prerequisites
Successful completion of the following courses:
GSM System Survey
LZU 108 852
GPRS System Survey
LZU 108 876
OSS-RC Overview
LZU 108 6863
GSM BSS G10 RBS 2000 Basics
LZU 108 7484
Duration and class size
The length of the course is three 3 days and the maximum number of participants is 8.
Learning situation
This course is based on theoretical and practical instructor-led lessons given in both
classroom and in a technical environment using equipment and tools.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Short description of the topics in the course
Estimated time
1
Course Introduction
1.0 hour
Chapter 1: Cell Planning Process
1.0 hour
Chapter 2: GSM RAN Overview
2.0 hours
Chapter 3: GSM RAN Interfaces
2.0 hours
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2
3
Chapter 3 GSM RAN Interfaces (continued)
1.0 hour
Chapter 4: RBS 2000 Functionality Overview
1.0 hour
Chapter 5: Command Handling
1.0 hour
Exercise 1: MML Commands
0.5 hour
Chapter 6: Cell-Related Concepts
1.0 hour
Exercise 2: Cell Definition
1.5 hours
Chapter 7: Managed Objects
1.5 hours
Exercise 3: Managed Objects Definition
1.5 hours
Chapter 8: Cell/Site Integration
1.0 hour
Exercise 4: Cell/Site Integration
1.5 hours
Test and Evaluation
0.5 hour
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Telephone: +46 10 719 0000
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IP in GSM Radio Access Network
LZU 108 7035 R4A
Description
This course covers the new Ericsson IP RAN R5 (PRAN) solution used by GSM, WCDMA
and LTE systems. The focus is the GSM RAN and its new and enhanced features. This is a
full IP connectivity solution aimed to enable a smooth and future proof introduction and
deployment of IP transport in RAN. If you are looking for more information about this
solution, this course is for you. It will provide you with knowledge about the new architecture
and equipments, Security, Quality of Service, Operation & Maintenance, Synchronization
and Virtual Local Area Network (VLAN) concepts. One of the advantages of using IP as a
choice for transmission is that it opens the door for key points: higher bit rates and lower
operational costs. BSS G10B supports the new SIU-02 as well as this course. RBS 6000
informations are also included in the material.
Learning objectives
On completion of this course the participants will be able to:
1
1.1
1.2
1.3
1.4
1.5
1.6
1.7
1.8
1.9
2
2.1
2.2
2.3
2.4
2.5
2.6
3
Provide concepts of the BSS IP Radio Access Network, identify the Ericsson IP RAN
R5 Solution besides the Site Integration Unit (SIU) functions
Describe the Abis, A and Gb interfaces over IP
Identify the IP RAN R5 Solution
Explain all the envolved hardware
Briefly describe the RBS 6000 family
List the functions of the Site Integration Unit
Determine the Abis Local Connectivity feature (ALC)
Describe the signaling exchanged between the STN and PGW (Packet Gateway)
Identify the Transmission and Synchronization characteristics
List the functions of the Abis over IP Configuration Management tool (AIPCM)
Provide concepts, techniques and configuration information related to the BSC IP
Infrastructure (IIS)
List the IP terminating network elements in BSC
Describe the Virtual Router Redundancy (VRRP) protocol
Verify the different concepts for the BSC LAN Switch and new BSC NWI-E
Identify the BSC IP addressing requisites
Determine the different IP Applications
Understand the IP Services configuration
Verify inside the IP RAN R5 Solution the different proposed scenarios for the
transmission
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3.1
3.2
3.3
3.4
Identify the general scenarios of the solution
Describe the Scenario 1a: BSC/RNC site with Dual RAN Switches/Routers
Describe the Scenario 1b: BSC/RNC site with Single RAN Switches/Router
Verify the RBS site physical and logical connectivity
4
4.1
4.2
4.3
4.4
4.5
Identify Security Architecture in IP RAN R5
Identify why security is needed and what needs to be protected
Describe the Scenario 2: IP RAN with RAN switches, and Security Gateways
List the equipment used for Security
Verify the physical and logical connectivity of the BSC/RNC site
Verify the physical and logical connectivity of the RBS site
5
5.1
5.2
5.3
5.4
5.5
Identify Quality of Service in IP RAN R5
Briefly explain QoS concept
Determine QoS Applied in IP RAN R5 Solution
Identify different traffic types to be protected
Indicate a recommended QoS Solution
Verify the different equipments and how they act when performing traffic priorization
6
6.1
6.2
6.3
6.4
Describe the Synchronization concepts
Identify the basic concepts about synchronization
Define GPS Synchronization
Determine Synchronization using NTP
List the synchronization equipments
7
7.1
7.2
7.3
Explain the Operation and Maintenance concepts
Understand the operation and maintenance in IP RAN R5
Describe ROMT/IP
Verify the protocol stack
Target audience
The target audience for this course is: Service Planning Engineers, Service Design
Engineers, Network Design Engineers, System Engineers, Service Engineers and
Application Developers.
Prerequisites
Successful completion of the following courses:
IP Networking
LZU 102 397
GSM System Survey
LZU 108 852
GPRS System Survey
LZU 108 876
OSS-RC Overview
LZU 108 6863
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Telephone: +46 10 719 0000
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GSM BSS G10 RBS 2000 Basics
LZU 108 7484
Duration and class size
The length of the course is 3 days and the maximum number of participants is 16.
Learning situation
The course is based on theoretical instructor-led lessons given in a classroom environment.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
1
Course introduction
0.5 hour
Pre-test
0.5 hour
RAN Overview and Evolution
2.5 hours
BSC IP Infrastructure (IIS)
2.5 hours
VLAN and Subnets concepts
1.5 hours
IP RAN Transport Networks
2.0 hours
Security Architecture
2.5 hours
QoS in IP RAN R5 Solution
1.0 hour
Synchronization Architecture
2.0 hours
Operation and Maintenance
2.0 hours
Post test
0.5 hour
Course Evaluation
0.5 hour
2
3
Estimated time
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GSM Network Surveillance
LZU 108 5471/2 R6A
Description
When you finish this course, your network surveillance skills will include basic alarm
supervision, handling and escalating core and radio network specific alarms, trigger node
backups, and supervise statistics recordings. When you receive a work-order, you will be
able to execute a script on a node using Job Manager and Operation Procedure Support.
Learning objectives
On completion of this course the participants will be able to:
1
1.1
1.2
1.3
Documentation and Sub-network Manager
Briefly describe the nodes in the GSM network
Describe ALEX and how it is used
Describe the Sub-network Manager OSS-RC
2
2.1
2.2
Management in the GSM Network
Describe the MML command structure
Explain the CHA and WinFIOL tools available in OSS-RC for MML communication
with AXE network elements.
Explore the functionality of the AXE Element Management tools: Command Log
Search, Spontaneous Reports Manager and Element Manager Activity Manager.
Describe the Operations Support Procedure (OPS) tool and explore the OPS
Scripting language for script development for AXE network elements.
2.3
2.4
3
3.1
Fault Management in the GSM Network
Illustrate the Alarm Handling process in GSM
4
4.1
4.2
System Protection in GSM Network
Describe the backup functionality in GSM
Perform backup on the nodes using the relevant Element Manager or OSS-RC
5
5.1
5.2
Performance Management in the GSM Network
Describe briefly how performance management data is collect and used in GSM
Perform basic performance management
Target audience
The target audience for this course is: System Engineer and Service Engineer.
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Global Services
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Telephone: +46 10 719 0000
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© Ericsson AB 2010
Prerequisites
Successful completion of the following courses:
GSM System Survey
LZU 108 852
GPRS System Survey
LZU 108 876
OSS-RC Overview
LZU 108 6863
GSM BSS G10 RBS 2000 Basics
LZU 108 7484
RBS 6000 Overview
LZU 108 7503
Duration and class size
The length of the course is 3 days and the maximum number of participants is 8.
Learning situation
This is a task-oriented learning course based on tasks in the work process given in a
technical environment using equipment and tools.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
1



Estimated time
Introduction
Documentation and Sub-network Manager
Management in the GSM Network
1 hour
1 hour
4 hours
2
3


Fault Management in the GSM Network
System Protection Management in the GSM Network
3 hours

Performance Management in the GSM Network
6 hours
3 hours
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GSM BSS G10 Radio Network Features
LZU 108 7496 R2A
Description
Get a grip on GSM Radio Network Features. We will explain the idle mode behavior, the
purpose and use of hierarchical cell structures (HCS), Frequency hopping and MAIO
Management. You will see how the GPRS/EGPRS features are influencing the GSM
network.
Learning objectives
On completion of this course the participants will be able to:
Module 1
1
1.1
1.2
1.3
1.4
1.5
1.6
Understand the Idle Mode behavior of the GSM network
Evaluate Cell Selection and Reselection
Explain GSM-LTE Cell Reselection
Present the feature Multiple CCCH
Identify paging procedures
Acknowledge registration
Demonstrate interaction with ACLC feature
2
2.1
2.2
2.3
Describe the Locating Process
Discriminate handover procedure
Demonstrate Ericsson1 and Ericsson 3 algorithms
Interpret Measurement Report Procedure
3
3.1
3.2
3.3
Understand the Channel Allocation process
List general Channel Allocation algorithm
Explain CHAP parameter
Clarify the ICM feature
Module 2
4
4.1
4.2
4.3
Explain the Hierarchical Cell Structure (HCS)
Understand general HCS algorithm
Describe prioritized list for HCS
Explain BAND and Layer Criteria
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5
5.1
5.2
Describe the Assignment to Other Cell (ASSOC)
Define Assignment to Better Cell
Explain Assignment to Worst Cell
6
6.1
6.2
6.3
Describe Intra Cell Handover (IHO)
Understand FQSS Table
Discriminate Channel Allocation during Intra cell Handover
Identify IHO Timers and parameters
7
7.1
7.2
Define Cell Load Sharing Procedures
Check main differences between “normal” handover and CLS
Classify possible parameters configurations
8
8.1
8.2
8.3
Understand how Underlaid/Overlaid Works
Explain DTCB parameters
Describe LOL and TAOL parameters
Detect SCLD functionalities
9
9.1
9.2
Define the Multi Band Cell
Determine the advantage for the feature Multi Band Cell
List how this feature can improve the traffic capacity and optimize neighbor list
10
10.1
10.2
Describe the GSM to UMTS Cell Reselection and Handover
List usage of QSC and QSI parameters
Explain IRATCC procedure
Module 3
11
11.1
11.2
11.3
Describe the Frequency Hopping, MAIO Management & Synchronized Radio Network
Clarify MAIO
Plan MAIO numbers
Identify Synchronized Networks
12
12.1
12.2
12.3
Understand the Adaptive Multi Rate (AMR)
Create a self Codec Set
Choose between different codec sets
Describe AMR WideBand
13
13.1
Define the Dynamic Power Control
List different power control strategies
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14
14.1
14.2
14.3
14.4
Clarify the Channel Allocation Optimization
Discuss Dynamic HR Allocation
Define Dynamic HR Allocation on Abis
Analyze Dynamic FR/HR Mode Adaptation
Explain Dynamic Half rate for AMR-WB
Module 4
15
15.1
15.2
15.3
Explain the GPRS/EGPRS Idle Mode Behavior
Show MPDCH
Discriminate PS and CS Paging
List GRPS States
16
16.1
16.2
Understand the GPRS/EGPRS Channel Administration
Show the (E)GPRS channel allocation
Explain concepts as channels, PSET and TBF
17
17.1
17.2
Explain the GPRS/EGPRS Cell Selection and Reselection
Show NACC
List functions of PSCELLPLAN
18
18.1
Simulate GPRS Link Adaptation
List parameters LA, CHCODING, CHCSDL and EITHIGHCS
19
19.1
19.2
Explain the EGPRS Link Quality Control (LQC)
Differentiate between LA and IR algorithms
List LA and IR parameters
20
20.1
20.2
20.3
20.4
Show the GPRS/EGPRS Quality of Service (QoS)
Identify QoS Profiles
Differentiate Among R97/98 and R99
Demonstrate Scheduling
Show PDCH Reservation
21
21.1
Explain the GPRS/EGPRS Dynamic (MS) Power Control
List Gamma and Alpha values
22
22.1
Edge Evolution – Dual Carrier and Reduced Latency
List the characteristics for this feature
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Target audience
The target audience for this course is: Network Design Engineers, System Engineers.
Prerequisites
Successful completion of the course:
GSM BSS G10 Cell Planning Principles
LZU 108 7493
Duration and class size
The length of the course is 5 days and the maximum number of participants is 16.
The delivery of this course is based on the modules combination as listed below. The
proposal of the modules combination is to offer the necessary training in agreement with the
nodes acquired by the customer.
Options of modules combination:
Module 1 – 1,5 days
Module 1 + 2 – 3 days
Module 1 + 2 +3 – 3,5 days
Module 1 + 2 + 3 + 4 – 5 days
Learning situation
This course is based on theoretical instructor-led lessons given in a classroom environment.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
Estimated time
1

Introduction
0.5 hour

Idle mode
3 hours

Locating
2.5 hours
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2
3
4
5

Locating
1.5 hours

Channel Administration
2.5 hours

Hierarchical Cell Structure
1 hours

Assignment to Other Cell
1 hour

Intra Cell Handover
1 hour

Cell Load Sharing
1 hour

OL/UL Subcells
1 hour

Multi Band Cell
0.5 hour

GSM-UMTS Cell reselection and Handover

Adaptive Multi Rate (AMR)

Frequency Hopping, MAIO Management & Synchronized
Radio Network

Dynamic Power Control

Channel Allocation Optimization

GPRS/EGPRS Idle Mode

GPRS/EGPRS Channel Administration
1 hour

GPRS/EGPRS Cell Reselection
1 hour

GPRS Link Adaptation
1 hour

EGPRS Link Quality Control
1 hour

GPRS/EGPRS Quality of Service
1 hour

GPRS/EGPRS Dynamic MS Power Control
0.5 hour

Edge Evolution – Dual Carrier and Reduced Latency
0.5 hour

Test
1 hour
1.5 hours
1 hour
1 hour
2 hours
1 hour
1 hour
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GSM BSS G10 Radio Network Tuning
LZU 108 7498 R2A
Description
If you need to understand the methods and tools used to perform the tuning of a GSM Radio
Network, this is the course for you. The purpose of the course is to provide RF engineers
with both theoretical and practical competence of parameter settings and tuning activities.
After attending this course the participants will be able to handle various tuning activities for
GSM radio networks.
Learning objectives
On completion of this course the participants will be able to:
1
1.1
1.2
1.3
Detail the general tuning processes and performance indicators in a GSM network
List different views of quality and which parts generally are considered
Detail some key performance Indicators for accessibility, retainability and service
integrity
Define quality in a GSM/GPRS network
2
2.1
2.2
2.3
2.4
Plan and dimension a GSM radio network
Understand the design criteria for cell coverage predictions
Explain how design criteria relate to coverage predictions
Show the link budget function
Explain how to make coverage measurements
3
3.1
3.2
3.3
3.4
3.5
Tune radio networks
Analyze the MS in Idle Mode and Active mode
Explain PAGING radio parameters
Perform change of cell borders, hysteresis and offsets
Describe the thresholds for HCS, ICHO, CLS and other features
Analyze paging performance and perform parameter adjustments related to paging
capacity
List the feature Multiple CCCH
Show the parameters related to GSM to UMTS handover
Perform tuning of Multi-band cell parameters
Define of BTS/MS power control and other quality related features
3.6
3.7
3.8
3.9
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4
4.1
4.2
4.3
Interpret statistics and some key performance indicators
Explain some of the counters that can be retrieved from STS
Calculate some user formulas for the key performance indicators
Analyze and evaluate a number of key performance indicators
5
5.1
Briefly explain the GPRS/EGPRS network
Explain basic concepts and characteristics of the GPRS network
6
6.1
6.2
6.3
6.4
6.5
GPRS/EGPRS Tuning & Optimization
Perform GPRS/EGPRS STS and field measurements
Define level one and level two performance indicators related to GPRS/EGPRS
Analyze performance indicators related to GPRS/EGPRS
Perform changes of GPRS related parameters
Clarify the EDGE Evolution - Dual Carrier
7
7.1
7.2
7.3
7.4
Discuss how to use some of the Ericsson tools used for tuning and optimization
Explain how and when to use PMR (MTR, CTR, CER)
Describe the RNO tool (MRR, FAS, FOX, NCS, NOX, TET, SYROX)
Interpret the Event Based Applications for GSM (EBA).
Demonstrate use of the tools in the TEMS portfolio
Target audience
The target audience for this course is: Network Design Engineers, System Engineers and
Service Engineers.
Prerequisites
Successful completion of the following courses:
GSM BSS G10 Cell Planning Principles
LZU 108 7493
GSM BSS G10 Radio Network Features
LZU 108 7496
Duration and class size
The length of the course is 5 days and the maximum number of participants is 8.
Doc. No: 199/03819-FAP 130 506 Uae Rev A
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Global Services
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Telephone: +46 10 719 0000
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© Ericsson AB 2010
Learning situation
This course is based on theoretical and practical instructor-led lessons given in both
classroom and in a technical environment using equipment and tools.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
1

Introduction
0.5 hour

Managing the Quality of a Radio Network
2 hours

Coverage

Radio Network Features
1 hour

Radio Network Features – Up to OL/UL feature
5 hours

Tuning case I
1 hour

Radio Network Features – Up to the end of this chapter
4 hours

Tuning case II
1 hour

Tuning case III
1 hour

BSC STS User Formulas and Counters
3 hours

Tuning Case IV
1 hour

Tuning Case V
1 hour

GPRS/EGPRS Introduction
1 hour

GPRS/EGPRS tuning & optimization
3 hours

OSS tools
2 hours

Case VI TEMS Investigation
0.5 hour

Case VII TEMS Visualization
0.5 hour
2
3
4
5
Estimated time
2.5 hours
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GSM BSS G10 Signaling
LZU 108 7491 R2A
Description
If you need ability to explain and describe the signaling taking place between nodes within
the GSM Radio Access Network (RAN), this course is for you. You learn overall function of
signaling in the Base Station System part of GSM and basic additional information for
personnel also needing the knowledge of signaling in the Switching System part of GSM.
This includes, understand the relationships about the terms MM, CM, RR, the protocols
structure in GPRS and the protocols that responsible to carrier the informations between the
nodes in the GSM network.
Learning objectives
On completion of this course the participants will be able to:
1
List the nodes in the GSM system and the protocols used in GSM
2
2.1
2.2
2.3
Explain Channel Concept, and analyze the contents of control channels
Understand the mapping of the logical channels in the Multi-Frame structure
Calculate the paging group of the mobile
Define the Time Slot Power Savings feature
3
Differentiate signaling during different types of location updating and when location
updating is performed in the system
List nodes involved in setting up mobile originating calls
Define the nodes involved in setting up mobile terminating calls
Demonstrate signaling during handover
Identify nodes involved in the transfer of mobile originating short messages
Explain the nodes involved in the transfer of mobile terminating short messages
3.1
3.2
3.3
3.4
3.5
4
4.1
4.2
4.3
Explain System Information messages and how they are transmitted to the mobile
List the contents and the different system information messages
Identify the general format of layer 3 messages on the radio and the message format
in the air interface
Explain AMR-WB for full-rate and half-rate
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5
5.1
5.2
5.3
5.4
5.5
6
Identify when messages of different groups: MM, RR and CM, are used
Define the format of the data link layer protocol (LAPDm) messages used on the Um
interface
Explain how the layer 1 functions on the radio are implemented
Describe the contents of the control channels like SCH, RACH and FCCH
List the activities performed by MS:
- In idle mode - cell selection and reselection
- In active mode - providing measurement report
Show the contents of the measurement report
6.3
Discriminate how the information carried between the BSC and the BTS is mapped
onto the time slots of the PCM lines between them
Explain the AMR and DTX functions
Describe the general format of the layer 2 protocol (LAPD) messages used on the Abis interface.
Identify the ABIS over IP Structure
7
Explain briefly about Signaling System No.7 - SS7
8
Recognize when the BSSAP protocol (MSC-BSC) is used on the A interface
9
Explain about the Call Set-up and Location Updating
10
10.1
10.2
Identify the GPRS Network structure
List the Protocols used in GPRS
Explain NACC
6.1
6.2
Target audience
The target audience for this course is: Service Planning Engineers, Service Design
Engineers, Network Design Engineers, Network Deployment Engineers, Service Deployment
Engineers.
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Prerequisites
Successful completion of the following courses:
GSM AXE Operation
LZU 108 5024/2
GSM BSS G10 BSC Operation and Configuration
LZU 108 7500
BSC IP Infrastructure Operation and Configuration
LZU 108 7766
GSM BSS G10 GPRS Operation
LZU 108 7488
GSM RAN Configuration Management using OSS-RC 6
LZU 108 2133
Duration and class size
The length of the course is 4 days and the maximum number of participants is 16.
Learning situation
This course is based on theoretical instructor-led lessons given in a classroom environment.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
Estimated time
1
Introduction to GSM nodes and protocols.
1.5 hour
Channel concept and contents of logical channels
1.5 hour
Mapping of logical channels in the multiframe structure.
1.5 hour
TDMA frame up to Hyperframe structure
0.5 hour
Paging group
1.0 hour
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2
3
4
Traffic cases in GSM
2.0 hours
What is System information and how is it transmitted to the
mobile
0.5 hour
Contents of the system Information messages
1.0 hour
Description of CM, MM and RR messages
0.5 hour
Layer 3 format of CM, MM and RR messages
0.5 hour
Understand what is done in Layer 2 or LAPDm
1.0 hour
Understand what is done in Layer 1 and contests of SCH,
RACH and FCCH
0.5 hour
Idle mode behavior
0.5 hour
Measurement report in Active mode
0.5 hour
Format of a measurement report and measurement result
0.5 hour
Describe AMR, AMR-WB and DTX functions
0.5 hour
Describe Abis Interface
0.5 hour
Describe the general format of LAPD used in Abis Layer 2
0.5 hour
Introduction to SS7
1.0 hour
The Message transfer Part
0.5 hour
SCCP
0.5 hour
Describe BSSAP and BTAP Protocol
1.0 hour
Call set-up in GSM
1.0 hour
Location updating in GSM
1.0 hour
Describe GPRS network structure
2.0 hours
Describe the protocols used in GPRS
1.0 hour
NACC
1.0 hour
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Telephone: +46 10 719 0000
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GSM BSS G10 Statistics Introduction
LZU 108 7495 R2A
Description
If you need to understand and perform basics Statistics in the GSM Radio Access Network
(RAN), this course is for you. You learn overall function of STS. This includes, understand
the relationships about the terms “Object Types”, “Objects” and “Counters”, access the
different ways to monitor the GSM radio network performance in the areas of accessibility,
retainability and speech quality, and identify the Statistics Recording Tools.
Learning objectives
On completion of this course the participants will be able to:
1
Describe basic traffic theory and engineering concepts
2
2.1
Discuss the overall function of STS
Define the terms “Object Types”, “Objects”, and “Counters” and the relationships
between each one
Discriminate the process of stepping counters in the BSC
Explain the process of counter values collection from the different program blocks and
storage in STS
2.2
2.3
3
3.1
3.2
3.3
3.4
3.5
3.6
4
4.1
4.2
4.3
4.4
4.5
4.6
Relate some of the counter that can be retrieved from STS
Clear the relation between several object types and their respective counters
Define and briefly describe the three performance monitor indicators in the radio
network
Demonstrate the different ways how important statistical elements – such as
congestion, dropped calls, and availability – can be derived from the counter values,
and describe the characteristics of these results
List some of the specific radio network features which STS addresses
Calculate some user formulas for the key performance indicators
Analyze and evaluate a number of Key performance indicators
Analyze how OSS can be used for statistics recording and list the various tools
available
Explain the purpose of Mobile Traffic Recording (MTR)
Discriminate the purpose of Cell Traffic Recording (CTR)
Discuss the purpose of Channel Event Recording (CER)
Show the NWS Structure
Express the purpose of Measurement Result Recording (MRR)
Tell the purpose of Radio Interference Recording (RIR)
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4.7
4.8
4.9
Describe the purpose of the Active BA-list Recording (ABAL)
Identify the purpose of the Real-Time Performance Monitoring (R-PMO)
Clear the purpose of the TEMS Visualization
Target audience
The target audience for this course is: Service Planning Engineers, Service Design
Engineers and Network Design Engineers.
Prerequisites
Successful completion of the following courses:
GSM System Survey
LZU 108 852
GPRS System Survey
LZU 108 876
OSS-RC Overview
LZU 108 6863
GSM BSS G10 RBS 2000 Basics
LZU 108 7484
Duration and class size
The length of the course is 3 days and the maximum number of participants is 8.
Learning situation
This course is based on instructor-led theoretical lessons and practical exercises in a
classroom environment.
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Telephone: +46 10 719 0000
www.ericsson.com/globalservices
© Ericsson AB 2010
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
1
Course Introduction
1.0 hour
Pre test
1.0 hour
Traffic Theory
1.0 hour
Exercises 1 and 2
1.0 hour
STS Functionality
2.0 hours
2
GSM Advanced Radio Statistics
6.0 hours
3
Exercise 3 and 4
1.0 hour
Exercise 5 or 6
1.5 hour
Statistics Recording Tools
2.5 hours
Pos test
1.0 hour
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Telephone: +46 10 719 0000
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GSM System Survey
LZU 108 852 R11A
Description
Are you lost when discussing GSM network basic concepts? If you are starting working in
different areas of GSM system and need a general concept this is the course you were
looking for. It will provide you with knowledge about Ericsson‟s GSM based systems and
GSM 800/900/1800/1900. It will focus on GSM terminology, wireless concepts, functions of
network nodes, and the Ericsson implementation of those network nodes. Completing this
training you will have all the initial knowledge you need to proceed in competence
development in other areas.
Learning objectives
On completion of this course the participants will be able to:
1
1.1
1.2
1.3
1.4
2
2.1
2.2
2.3
3
3.1
3.2
3.3
4
4.1
4.2
4.3
4.4
Understand how mobile systems have evolved over the time and tell the history of
GSM development
Recognize benefits of having a standard
Describe the GSM geographical network structure and node functions
Understand the GSM frequency bands
List subscriber services provided in the GSM network
List Ericsson‟s GSM System divisions and components and perceive how Ericsson
has been involved in GSM since its inception and took an active part in the GSM
specification process
List network components and describe their functions
Describe optional additional network entities functions
Briefly present Protocols used in the GSM Access and Core Networks
Know basic concepts of wireless communications and its importance to provide a
good knowledge of how GSM Systems works
Explain Time Division Multiple Access technique (TDMA)
List the transmission problems and their solutions
Understand how Adaptive Multi-Rate (AMR) can increase capacity
List and identify GSM System mandatory concepts of air interface, their functions and
required specifications
Understand the concepts of physical channel and a logical channel
List one important piece of information sent on each of 3 different logical channels
Briefly explain the idea of mapping
Show the time slot power saving feature
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Telephone: +46 10 719 0000
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5
5.1
5.2
5.3
5.4
5.5
5.6
5.7
6
6.1
6.2
6.3
6.4
7
7.1
7.2
7.3
7.4
7.5
7.6
8
8.1
8.2
8.3
9
9.1
9.2
9.3
Differentiate the platforms that provide the network nodes and functionalities that are
basis to provide Circuit and Packet switching, including AXE and CPP platform
principles, list the main components and outline the main features
Understand the function of APT and APZ
Differentiate functions that can be implemented using AXE platform modularity
Explain how the group switch switches calls
Discriminate the AXE 810 hardware structure
Discriminate the CPP Hardware Platform
Show CPP Interconnection Structure
Clarify functions that can be implemented using CPP platform
Explain how Ericsson implements the functions and nodes of the GSM switching
system
Name the nodes in the Switching System
Know Ericsson‟s Mobile Softswitch Solution
List which nodes that are contracted for the security procedure in the GSM system
Briefly explain the purpose of Authentication, Ciphering and Equipment Check
List and identify Radio Access Network system nodes, its functions and required
specifications
Outline the main functions of a BSC, TRC and RBS
Describe the Abis over IP and Abis Optimization solution
Briefly Explain A-Interface over IP
List the Ericsson‟s RBS 2000 configurations
Explain the RBS architecture and functional blocks
Understand the benefits with new BSC BSS 08
Recognize different mobile stations types, including their components, functions,
features and required specifications
Outline the information stored on the SIM-card.
Explain the advantage of having a separation between mobile equipment (ME) and
subscription (SIM-card).
List the product categories of Mobile Stations (MS).
Clarify the GSM traffic cases to consolidate all the GSM Network concepts using
basic traffic cases examples
Explain the purpose of GSM ID-number (MSISDN, IMSI, TMSI, MSRN and LAI)
Understand the handover, locating and location updating concepts
Briefly describe how a traffic case works
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Telephone: +46 10 719 0000
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10
10.1
10.2
10.3
10.4
10.5
10.6
11
11.1
11.2
11.3
11.4
12
12.1
12.2
12.3
12.4
12.5
13
13.1
13.2
13.3
13.4
14
14.1
14.2
14.3
14.4
14.5
Explain the basic concepts and difficulties of planning a cellular network based on
text examples and explanations
List the stages in the cell planning process
Explain the terms Grade of Service (GOS) and „Erlang‟
Name 2 types of Interference
Describe briefly the feature „Re-Use of Frequencies within a Cell‟
Understand what is meant by the term „Hierarchical Cell Structure‟
Describe briefly the feature „BCCH in Overlaid Sub cell‟
Recognize Ericsson‟s Operation and Support System – OSS as an important tool for
operation and maintenance in GSM network describing its features and functions
Explain the functions of the Operations and Support System
Describe the architecture of the Operations and Support System
Outline the implementation of the Multi Mediation
Understand the implementation of the Ericsson Multi Activation
List the most common and main subscriber services, explaining their functions,
features, and specifications
Define the different types of services available in the network
Indicate one of each of the following service types in the network: teleservices, bearer
services and supplementary services
Identify one of the Ericsson innovative services in the network.
Briefly describe the mobile intelligent network services available with Ericsson GSM
systems
Understand the need and advantages of the CAMEL system
Understand charging and accounting concepts
Identify their functions, features and required specifications
Explain the fact that the charging concept is changing due to the introduction of new
technologies such as GPRS, UMTS
List three call components
Explain the future of billing
Discriminate how data calls are initiated in the GSM network and cite examples of
how a data call is handled in a GSM network through a traffic case analysis
Explain the data transmission services which GSM offers
Describe a GSM data traffic case
List the data transmission services which GPRS offers
List the things that can lead to improved GPRS end-user performance
Describe a GPRS data traffic case
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Telephone: +46 10 719 0000
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15
15.1
15.2
15.3
Have an overview of the possible future functionality of GSM-based systems.
Describe the evolution of GSM to WCDMA systems
List the technologies that will bridge these two systems including HSCSD, EDGE,
GPRS, WCDMA and HSPA
Explain the 3G system and feature Adaptive Traffic Control
Target audience
The target audience for this course is: Service Planning Engineers, Service Design
Engineers, Network Design Engineers, Network Deployment Engineers, Service Deployment
Engineers, System Technicians, Service Technicians, System Engineers, Service
Engineers, Field Technicians, System Administrators, Application Developers, Business
Developers, Customer Care Administrators.
Prerequisites
The participants should be familiar with telecommunication basics.
Duration and class size
The length of the course is 4 days and the maximum number of participants is 16
Learning situation
This course is based on theoretical instructor-led lessons given in a classroom environment.
Doc. No: 199/03819-FAP 130 506 Uae Rev A
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Telephone: +46 10 719 0000
www.ericsson.com/globalservices
© Ericsson AB 2010
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
1
Course Introduction & pre-course test
1.0 hour
Introduction to Mobile Telecommunications and GSM
1.5 hours
Overview of Ericsson‟s GSM Systems
0.5 hour
Wireless Concepts
2.0 hours
Channel Concepts
1.0 hour
Channel Concepts Continuation
1.0 hour
Introduction to AXE and CPP
1.5 hours
Switching System
1.5 hours
Radio Access Network
1.5 hours
Mobile Station
0.5 hour
Traffic Cases
2.5 hours
Cell Planning
1.5 hour
Operation and Maintenance tools
1.0 hour
Mobile IN and Subscriber Services
1.0 hour
Charging and accounting
0.5 hour
Data Services
2.0 hours
The future of GSM
2.0 hours
Post-course Test
1.5 hours
2
3
4
Estimated time
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GSM BSS G10 RBS 2409 Implementation and Maintenance
LZU 108 7490 R2A
Description
If you need to perform hardware fault localization and replacement in the new RBS 2409,
then this course is for you. The main focus of this Implementation and Maintenance course is
maintenance procedures including the usage of the necessary documentation to handle
each process.
Learning objectives
On completion of this course the participants will be able to:
1
1.1
1.2
1.3
1.4
1.5
1.6
1.7
1.8
1.9
2
2.1
2.2
2.3
2.4
3
3.1
3.2
3.3
3.4
3.5
3.6
3.7
Describe the functionalities, capabilities and structure of each part of the RBS
2409
Review the GSM/BSS structure
Explain the RBS 2409 product
Detail the optional products
Identify the radio configuration
Identify the technical specification
Detail the interfaces (RBS and PSU-AC-41)
Identify the Antenna System
Identify the Power System
Briefly explain the RBS 6000
Describe the radio site and RBS 2409 installation information and the OMT
software
Briefly explain the preconditions for installing
Identify the installation Procedure
Set the IDB Parameters
Detail the reconfiguration for RBS, EBB-11 and External Antenna
Perform the maintenance procedures properly and analyze Faults based in the
CPI for RBS 2409
Identify the Fault Mapping
Describe the Logical RUs
Monitor the fault status of the RBS using the OMT
Perform fault localization on RBS equipment with effective results
Perform simple hardware replace procedure in a properly way (including BSU, EBB11 and PSU-AC-41)
Identify the optical indicators
Identify troubleshooting for RBS 2409
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Telephone: +46 10 719 0000
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4
4.1
4.2
4.3
4.4
4.5
4.6
4.7
Understand STN function, commands and parameters
Describe STN equipment
Identify Abis Transport
Identify the STN Synchronization
Describe the Physical interfaces
List the commands used in STN
Describe the some parameters used in STN
Describe Alarm Handling
Target audience
The target audience for this course is: Field Technicians.
Prerequisites
Successful completion of the following courses:
GSM System Survey
LZU 108 852
GPRS System Survey
LZU 108 876
OSS-RC Overview
LZU 108 6863
GSM BSS G10 RBS 2000 Basics
LZU 108 7484
Duration and class size
The length of the course is 1 day and the maximum number of participants is 8.
Learning situation
This course is based on theoretical and practical instructor-led lessons given in both
classroom and in a technical environment using equipment and tools.
Doc. No: 199/03819-FAP 130 506 Uae Rev A
Ericsson AB
Global Services
SE-164 80 Stockholm
Telephone: +46 10 719 0000
www.ericsson.com/globalservices
© Ericsson AB 2010
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
Estimated time
1
Product Overview
1.0 hour
Installation and Configuration
0.5 hour
Operation and Maintenance
1.0 hour
Site Transport Node (STN) Concepts
1.5 hours
Exercises
2.0 hours
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Telephone: +46 10 719 0000
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© Ericsson AB 2010
GSM BSS G10 RBS 2X06 Maintenance
LZU 108 7486 R2A
Description
If you need to perform hardware fault localization, replacement, expansion and
reconfiguration in RBS 2106 and RBS 2206, then this course is for you. The main focus of
this task-based course is maintenance procedures including the usage of the necessary
documentation to handle each process introduced by a high level theory about GSM RAN as
well as IP RAN and the RBS 6000.
Learning objectives
On completion of this course the participants will be able to:
1
1.1
1.2
1.3
1.4
1.5
1.6
1.7
2
2.1
2.2
2.3
2.4
2.5
3
3.1
3.2
3.3
3.4
3.5
3.6
3.7
Recognize and identify GSM Basic System and components using student
material and instructor explanation
Identify the GSM/BSS network
Name the BSS interfaces
Explain the LAPD configurations
Understand the Abis optimization concept
Understand the concept of Abis over IP configuration supported by RBS 2X06 and
implemented by the Site Integration Unit (SIU)
State the Cascade and TG Sync configurations
List some technical characteristics of the RBS 6000
Discriminate the functionalities, capabilities and structure of each part of the
RBS 2X06, exploring student book and available RBS hardware
Identify the different RBS cabinets and the main characteristics
List the functions of the RBS 2X06 sub-racks
Recognize boards and modules, including connections, indicators (LEDs) and buttons
Identify the optional RUs
Detail the Climate System and Power System of each RBS
Perform radio site installation, connections and external Battery Backups,
using the information with the Installation Manual and Product Description for
each RBS
Briefly explain the radio site installation
List some BBS 2000i, and PBC 6500 for indoor RBSs
Identify the BBU 9500 for outdoor RBSs
List some technical structural information of RBS
Recognize the Power System of each RBS
Review information about the Connection Field, Antenna Connection and EPC Bus
Analyze the BBS 2000, data of the RBSs
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Telephone: +46 10 719 0000
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4
4.1
4.2
4.3
4.4
5
5.1
5.2
5.3
5.4
6
6.1
6.2
6.3
6.4
7
7.1
7.2
7.3
7.4
7.5
7.6
7.7
7.8
Configure or reconfigure a RBS 2x06 for RF connections, activate the TG Sync
feature, use some optional equipments, and execute basic connections in the
DXU, CDU, CXU, ASU and HCU using user guide and appropriate procedure
List basic RBS antenna configurations for different CDUs
Determine when and how to implement ASU and HCU
Identify the Dual Band Configuration in the RBS 2X06
Implement TG-Sync configuration
Measure Distance To Fault (DTF) and Standing Wave Ratio (SWR), used to
verify the antenna system installation and also feeder measure, based on
instructions in the Installation Manual of each RBS operating Anritsu Site
Master
Configure the ANRITSU Site Master properly
Understand and perform the DTF Test
Understand the SWR test and its importance, and perform it
Perform preventive maintenance on the antenna system
Operate RBS 2000 series, using a graphical software OMT following
instructions to perform the mains functions of this software in “off line” and
“online” state
Identify and navigate on the OMT application
Configure and install correct Installation Data Base, IDB, using the OMT
Use the functions available in the OMT
Perform VSWR, temperature, voltage and current measurements
Examine the maintenance process and perform the correct maintenance
procedures based in the Maintenance Manual
Perform fault localization on RBS equipment with effective results
Perform simple repair procedures and replace faulty hardware units successfully
Monitor the fault status of the RBS using the OMT
Work according to the RBS maintenance process
Perform preventive maintenance on the RBS
Monitor internal and external alarms using the OMT
Fill in a Repair Delivery Note, Blue Tag, and a trouble report
Handle replaced units in a proper manner
Target audience
The target audience for this course is: Field Technicians.
Doc. No: 199/03819-FAP 130 506 Uae Rev A
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Global Services
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Telephone: +46 10 719 0000
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© Ericsson AB 2010
Prerequisites
Successful completion of the following courses:
GSM System Survey
LZU 108 852
GPRS System Survey
LZU 108 876
OSS-RC Overview
LZU 108 6863
GSM BSS G10 RBS 2000 Basics
LZU 108 7484
Duration and class size
The length of the course is 3 days and the maximum number of participants is 8.
Learning situation
This course is based on theoretical and practical instructor-led lessons given in both
classroom and in a technical environment using equipment and tools.
Doc. No: 199/03819-FAP 130 506 Uae Rev A
Ericsson AB
Global Services
SE-164 80 Stockholm
Telephone: +46 10 719 0000
www.ericsson.com/globalservices
© Ericsson AB 2010
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
1
Course Introduction
0.5 hour
RBS 2000 Library
0.5 hour
GSM/BSS Overview
1.5 hours
RBS Functional Overview
2.0 hours
Exercises
1.5 hours
Site Equipment Technical Data
1.0 hour
RBS Configurations
2.5 hours
Antenna System Test
0.5 hour
OMT Introduction
1.0 hour
Exercises
1.0 hour
Maintenance Procedures
2.0 hours
OMT and RBS Maintenance Exercises
4.0 hours
2
3
Estimated time
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GSM BSS G10 RBS 2X16 Maintenance
LZU 108 7485 R2A
Description
If you need to perform hardware fault localization and replacement in RBS 2116 and RBS
2216, this course is for you. The main focus of this task-based course are maintenance
procedures including the usage of necessary documentation to handle each process
introduced by a high level theory about GSM RAN as well as IP RAN and the RBS 6000.
Learning objectives
On completion of this course the participants will be able to:
1
1.1
1.2
1.3
1.4
1.5
1.6
1.7
1.8
2
Recognize and identify GSM Basic System and components using student
material and instructor explanation
Identify the GSM/BSS network
Name the BSS interfaces
Explain the LAPD configurations
Understand the concept of Abis over IP configuration supported by RBS 2X16
Understand the Abis optimization concept
State the Cascade and TG Sync configurations
Identify and describe the Site Integration Unit – SIU-02
Verify briefly technical characteristics of the RBS 6000
2.1
2.2
2.3
2.4
2.5
2.6
Discriminate the functionalities, capabilities and structure of each part of the
RBS 2x16, exploring student book and available RBS hardware
Identify the different RBSs cabinet and the main characteristics
List the functions of the RBS 2X16 sub racks
Recognize boards and modules, including connections, indicators (LEDs) and buttons
Identify the optional RUs
Detail the Climate System and Power System of each RBS
Identify the BBS 2X16 data
3
3.1
3.2
3.3
3.4
3.5
Review the radio site and RBS 2X16 installation information
Briefly Explain the Radio Site Installation
List some technical structural information of RBS
Describe the Power System of the RBS 2X16
Review the Antenna System and Internal Alarm connections
Implement GPS Synchronization configuration
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Telephone: +46 10 719 0000
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4
4.1
4.2
4.3
4.4
5
5.1
5.2
5.3
6
6.1
6.2
6.3
7
7.1
7.2
7.3
7.4
7.5
7.6
7.7
7.8
Understand the main antenna configurations
Understand the Site Cell Configuration concepts
Check the DRU basic Topologies
Describe the main RBS Antenna Configurations, including Transmission and
Reception paths
Explain the TG-Sync configuration and how to install the ESB cable
Measure Distance To Fault (DTF) and Standing Wave Ratio (SWR), used to
verify the antenna system installation and also feeder measure, based on
instructions in the Installation Manual of each RBS operating Anritsu Site
Master
Briefly describe and configure the ANRITSU Site Master
Understand and perform the DTF and SWR Tests
Perform preventive maintenance on the antenna system
Operate RBS 2000 series, using the graphical software OMT following
instructions to perform the mains functions of this software in “off line” and
“online” state
Give an overview of the OMT application
Configure and install correct Installation Data Base, IDB, using the OMT
Use the functions available in the OMT
Examine the maintenance process and perform the correct maintenance
procedures based in the Maintenance Manual
Perform fault localization on RBS equipment with effective results
Perform simple repair procedures and replace faulty hardware units successfully
Monitor the fault status of the RBS using the OMT
Work according to the RBS maintenance process
Perform preventive maintenance on the RBS
Monitor internal and external alarms using the OMT
Fill in a Repair Delivery Note, Blue Tag, and a trouble report
Handle replaced units in a proper manner
Target audience
The target audience for this course is: Field Technicians.
Prerequisites
Successful completion of the following courses:
GSM System Survey
LZU 108 852
GPRS System Survey
LZU 108 876
OSS-RC Overview
LZU 108 6863
GSM BSS G10 RBS 2000 Basics
LZU 108 7484
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Duration and class size
The length of the course is 2 days and the maximum number of participants is 8.
Learning situation
This course is based on theoretical and practical instructor-led lessons given in both
classroom and in a technical environment using equipment and tools.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
1
Course Introduction
0.5 hour
RBS 2000 Library
0.5 hour
GSM System Overview
2.0 hours
RBS 2X16 Hardware Description
3.0 hours
Site Equipment Technical Data
1.0 hour
RBS Configurations
1.0 hour
Antenna System Test
0.5 hour
OMT Introduction
1.0 hour
RBS Maintenance
2.5 hours
2
Estimated time
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GSM BSS G10 RBS 2X16 Maintenance Delta
LZU 108 7733 R2A
Description
If you need to know the new concept and units of the RBS 2X16 and to perform hardware
fault localization and replacement in RBS 2X16, then this course is for you. The main focus
of this task-based course is fault repair and maintenance procedures including the usage of
the necessary documentation to handle each process. Also, you will see the new hardware
concept implemented in the RBS to improve the capacity using the same footprint of the
RBS 2206.
Learning objectives
After the course the participants will be able to:
1
1.1
1.2
1.3
1.4
1.5
1.6
1.7
Discriminate the functionalities, capabilities and structure of each part of the
RBS 2X16
Identify the different RBSs cabinet and the main characteristics
List the functions of the RBS 2X16 sub racks
Recognize boards and modules, including connections, indicators (LEDs) and buttons
Identify the optional RUs
Identify and describe the Site Integration Unit
Detail the Climate System and Power System of each RBS
Identify the BBS 2X16 data
2
2.1
2.2
2.3
2.4
2.5
Review the radio site and RBS 2X16 installation information
Briefly Explain the Radio Site Installation
List some technical structural information of RBS
Describe the Power System of the RBS 2X16
Review the Antenna System and Internal Alarm connections
Determine GPS Synchronization configuration
3
Describe RBS 2X16 Radio Configuration and different Antenna Configurations
using user guide and appropriate procedure
List the basic RBS considerations about Radio Configurations
Explain the Frequency Bands used to the RBS 2X16
Describe the RX Path configurations and their different variants
Describe the TX Path configurations
Explain the Site Cell Configurations (SCC) and do an example using the ALEX
documentation
3.1
3.2
3.3
3.4
3.5
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4
4.1
4.2
4.3
4.4
4.5
4.6
4.7
Examine the maintenance process and perform the correct maintenance
procedures based in the Maintenance Manual
Perform fault localization on RBS equipment with effective results
Perform simple repair procedures and replace faulty hardware units successfully
Monitor the fault status of the RBS using the OMT
Work according to the RBS maintenance process
Perform preventive maintenance on the RBS
Monitor internal and external alarms using the OMT
Handle replaced units in a proper manner
Target audience
The target audience for this course is: Field Technicians.
Prerequisites
Successful completion of the following courses:
GSM System Survey
LZU 108 852
GPRS System Survey
LZU 108 876
OSS-RC Overview
LZU 108 6863
GSM BSS G10 RBS 2000 Basics
LZU 108 7484
GSM BSS G10 RBS 2X06 Maintenance
LZU 108 7486
Duration and class size
The length of the course is 1 day and the maximum number of participants is 8.
Learning situation
This course is based on theoretical and practical instructor-led lessons given in both
classroom and in a technical environment using equipment and tools.
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Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
1
Course introduction
0.25 hour
Pre Requisite Test and Pre Test
0.5 hour
RBS Hardware Description
1.5 hours
Hardware Installation
0.5 hour
RBS Configurations
0.5 hour
RBS Maintenance
Course Conclusion and Evaluation
Estimated time
2.25 hours
0.5 hour
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GSM BSS G10 RBS 2111 Maintenance
LZU 108 7499 R2A
Description
If you need to perform hardware fault localization and replacement in RBS 2111, then this
course is for you. The main focus of this task-based course are maintenance procedures
including the usage of the necessary documentation to handle each process. It is also
included information regarding the RBS 2111 Second Generation. Ericsson‟s IP RAN
solution is also presented focused on the newst version of the Site Integration Unit, the SIU02. The RBS 6000 family is also presented in included in this scenario.
Learning objectives
On completion of this course the participants will be able to:
1
1.1
1.2
1.3
1.4
1.5
1.6
1.7
1.8
2
2.1
2.2
2.3
3
3.1
3.2
3.3
3.4
3.5
3.6
By the end of this chapter the students will be able to describe the
functionalities, capabilities and structure of each part of the RBS 2111 as well
as new features in the Base Station System (BSS)
Indicate the GSM/BSS structure and its interfaces
Explain the main LAPD configurations supported by RBS 2111
Indicate the Abis Optimization feature
Describe the Abis over IP feature
Identify the main characteristics of the RBS 2111
Detail the units, including connections, indicators (LEDs) and buttons
Determine the RBS 2111 Second Generation
Briefly verify the RBS 6000 family
Determine the installation steps and technical structure of the RBS 2111 and
RBS 2111 Second Generation
Determine the radio site installation process
Describe technical structural information of RBS 2111
Perform installation of the RRU-N from the RBS 2111 Second Generation
Provide configuration information of the RBS 2111 for RF connections and
optional equipments
Determine the RBS radio configurations
Perform the PCM settings in the MU
Set the RRU-N address
Describe the TG-Sync configuration and connections
Identify how to replace flash card from RBS 2111 Second Generation
Indicate how to define transmission interface from RBS 2111 Second Generation
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4
4.1
4.2
4.3
4.4
4.5
4.6
4.7
Examine the maintenance process and perform the correct maintenance
procedures based in the CPI for RBS 2111
Perform fault localization on RBS equipment with effective results
Perform simple repair procedures and replace faulty hardware units successfully
Monitor the fault status of the RBS using the OMT
Work according to the RBS maintenance process
Perform preventive maintenance on the RBS
Monitor internal and external alarms using the OMT
Perform tests on the RBS and antenna system
Target audience
The target audience for this course is: Field Technicians.
Prerequisites
Successful completion of the following courses:
GSM System Survey
LZU 108 852
GPRS System Survey
LZU 108 876
OSS-RC Overview
LZU 108 6863
GSM BSS G10 RBS 2000 Basics
LZU 108 7484
Duration and class size
The length of the course is 2 days and the maximum number of participants is 8.
Learning situation
This course is based on theoretical and practical instructor-led lessons given in both
classroom and in a technical environment using equipment and tools.
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Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
1
Course Introduction and Pre Test
0.5 hour
RBS Functional Overview
2.0 hours
RBS Functional Overview Exercise
0.5 hour
Site Equipment Technical Data
1.5 hour
RBS Configuration
1.5 hours
RBS Configuration Exercises
1.5 hours
Maintenance Procedures
1.0 hour
Maintenance Procedures Exercises
3.0 hours
Course post test and evaluation
0.5 hour
2
Estimated time
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GSM BSS G10 RBS 2000 Basics
LZU 108 7484 R2A
Description
This course covers the GSM Radio Access Network principles and presents all RBS models
used by Ericsson in the current market. If you are looking for this information and also the
RBS internal units, block diagrams, technical specifications and optional units then this
course is for you. Installation, operation and maintenance procedures will be briefly
described. The RAN is continuosly changing, and to keep up to date, this course also
presents concepts about the Site Integration Unit (SIU), used to implement the Abis over IP
feature. So this is a one-day course that could be used as introduction to any other RAN
course.
Learning objectives
On completion of this course the participants will be able to:
1
1.1
1.2
1.3
1.4
1.5
1.6
1.7
Recognize and identify the main components of GSM Radio Access Network
and RBS basic functions
Identify the GSM/RAN Network
Name the GSM Radio Access Network Interfaces
Explain the LAPD configuration
Briefly verify the Site Integration Unit-02 and its features
Understand the GSM Air Interface structure
Outline the RBS main functions
List some auxiliary equipment used
2
2.1
2.2
2.3
2.4
List and explain each model of the RBS currently used in Ericsson Networks
List the RBS 2000 family members
Identify the similarities and differences between the RBSs
Define the Technical Specification of each RBS
Determine the speech/data Traffic Flow through the RBS, from the incoming PCM(s)
to the antenna outlet and vice versa
3
Identify radio site installation and RBS Site Solutions. The information is
complemented with the Installation Manual and Product Description for each
RBS
Briefly explain the radio site installation
Briefly describe the RBS Site Solutions: Antenna, TMA, Site Transmission and Power
Backup System for different RBSs
Understand the Power Supply, external cables and antenna connections for the RBS
2206, RBS 2106, RBS 2111, RBS 2308 and RBS 2409.
List the main characteristics of the integrated and high capacity RBS 6000 Overview
3.1
3.2
3.3
3.4
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4
4.1
4.2
To operate any RBS 2000 series, the operator uses graphical software called
OMT. This chapter consists of an overview of the OMT software
Provide the student with an overview of the OMT software
Outline the main Operation and Maintenance procedures that should be executed
Target audience
The target audience for this course is: Service Technician, System Technician, Service
Engineer and System Engineer.
This course is intended for personnel who need an overview of the RBS 2000. Typical
participants would be managers or anyone desiring an overall understanding of the RBS
2000 family, without doing any hands-on RBS operation and maintenance tasks.
Prerequisites
Successful completion of the following courses:
GSM System Survey
LZU 108 852
GPRS System Survey
LZU 108 876
OSS-RC Overview
LZU 108 6863
Duration and class size
The length of the course is 1 day and the maximum number of participants is 16.
Learning situation
This course is based on theoretical instructor-led lessons given in a classroom environment.
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Time schedule
The time required always depends on the knowledge of the attending participants, and the
hours stated below can be used as an estimate.
Day
Topics in the course
Estimated time
1
Introduction
0.4 hour
System and RBS Overview
2.0 hours
RBS 2000 Family
2.5 hours
RBS 2000 Installation
0.5 hour
Operation and Maintenance
0.6 hour
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APG 40 Operation and Maintenance (Windows 2003)
LZU 108 6567 R1C
Description
This course will introduce students to operational as well as maintenance issues on the
APG40 platform (APG40C/2 and APG40C/4). After attending the course the students will be
able to work practically with common APG40 handling tasks.
Learning objectives
On completion of this course the participants will be able to:
1
Describe the APG40 hardware and software on an overview level
1.1 List the characteristics of all hardware boards and connections
1.2 Explain how the APG40 is built up
2
Be able to use different interfaces to connect to the APG40 platform
2.1 Connect to the APG40 using Telnet, WinFiol or Terminal Server
3
Describe the Alarm System on an overview level
3.1 Describe how the AEH, ALH, and PRC co-operate to raise alarms
4
Define GOH data for the transfer of file and block outputs to remote destinations
4.1 Configure CDH, AFP and DBO functions for the transfer of data to remote systems
5
Collect statistics using STS
5.1 Configure the STS on APG40 to request, store and output counter data from the CP
6
Describe the concept AD-devices
6.1 Configure an AD-devices for command input and for routing of printouts
7
Load the CP from the APG40
8
Complete a backup and restore of the APG40 platform
8.1 Handle the burbackup and burrestore commands according to the OPIs
8.2 Use Hard Function Change and Soft Function Change to install new software and/or
update parameters
Target audience
The target audience for this course is: System Technicians, System Engineers.
This audience are personnel working with Network Maintenance, Network Operation and
System Administration.
Prerequisites
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The participants should preferably have some knowledge of Windows 2003 Server and have
AXE knowledge equal to the course LZU 108 6145 AXE Operation and Configuration or at
least equal to the course: LZU 108775 AXE Survey
Duration and class size
The length of the course is 4 days and the maximum number of participants is 9.
Learning situation
This course is based on theoretical and practical instructor-led lessons given in both
classroom and in a technical environment using equipment and tools, which are accessed
remotely
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
1




Introduction
Accessing the APG40 Network
APG40 Hardware
APG40 Software
Estimated time
30
50
70
40
2
3
4








APG40 Software
APG40 Alarm System
File Management Subsystem
File Management Subsystem
Man-Machine Communication Subsystem
APG40 Backup,
APG40 Restore and Function Change
STS
60
40
30
30
50
50
90
50
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APG 40 Installation and Configuration (Windows 2003)
LZU 108 6568 R1A
Description
This course will prepare participants for installation and configurational tasks on the APG40.
After the course the students will be able to install and put an APG40 into operation
Learning objectives
On completion of this course the participants will be able to:
1
Start up and Test the APG40
1.1 Follow the Test Instruction, Factory Start up and Test of APG40 – Windows Server
2003 to install and configure the APG40 for operation
1.2 Change the site parameters
1.3 Configure the DHCP Server on the APG40 if necessary
2
Understand the domain concept and know how a MUD can be set up and used
2.1 Use the User Manager for Domains to add trusts between domains
3
Add user accounts to the system
3.1 Add users with different access rights to the APG40 and to the CP
4
Define a configuration with two APG40s
5
Migrate to APG40 from IOG20
5.1 Understand the main migration steps from IOG20 to APG40
6
Configure the Antivirus for APG40
6.1 Schedule virus scans and update the antivirus software definitions
Target audience
The target audience for this course is: System Technicians, System Engineers.
This audience are personnel working with Network Maintenance, Network Operation,
Network Development and System Administration.
Prerequisites
The participants should be familiar with Windows NT and have fulfillled the course LZU 108
6567 APG40 Operation and Maintenance (Windows 2003) and have AXE knowledge equal
to the following course: LZU 108775 AXE Survey
Duration and class size
The length of the course is 2 days and the maximum number of participants is 8
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Learning situation
This course is based on theoretical and practical instructor-led lessons given in both
classroom and in a technical environment using equipment and tools, which are accessed
both locally and remotely.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
Estimated time
1
Start Up, Configuration and Test of APG40
2
Authority System and User Account Management
70
2
Configuration of two APG40s connected to the CP
30
2
Migration of IOG20 to APG40
30
2
Antivirus Configuration
50
120 (mins)
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APG 40 Recovery Procedures (Windows 2003 C/4)
LZU 108 6726 R1B
Description
The APG40 is a very important part of the AXE switching solutions, especially in MSC, HLR
and Telephony Softswitch applications. It is therefore important that the maintenance and
support staff can recover APG40 nodes if problems arise.
This course will introduce students to the different recovery procedures available on the
APG40. These procedures will be described in detail and performed practically on APG40
hardware.
After attending this course the students will know how to make a proper backup of the
APG40C/4 system to different media and to be able to use the different backups to recover
the APG40C/4 in a fast and correct manner.
Learning objectives
On completion of this course the participants will be able to:
1. Decide which Recovery Procedure to use and how faults are reported to Ericsson
1.1. Choose between the existing methods for restoring an APG40 system.
1.2. Describe the different types of Trouble Reports.
1.3. Collect suitable information to be included in a Trouble Report
2. Make a proper backup of the APG40
2.1. Make a backup of the APG and transfer it to an LCT to be used for disaster recovery
3. Perform Restore on the APG40 system
3.1. Perform both single node and cluster node restore
4. Perform the AP, System Disaster Recovery OPI to restore an APG40C/4
(Windows 2003) System
4.1. Recover one or both system disks on the APG40C/4 from an LCT
5. Do a Quorum Restore on the APG40C/4 System
5.1. Restore the cluster quorum
6. Initiate a data disk restore on the APG40C/4 System
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6.1. Repair failed disks and get them up in an optimal state
7. Perform a node restore on the APG40C/4 System
7.1. Follow the OPI: APG40, Node, Change, APG40 C/4 to change a node in the APG40.
Target audience
The target audience for this course is: System Technicians, Service Technicians, System
Engineers, Service Engineers, Field Technicians, System Administrators and all staff
working both for Ericsson and for external companies with maintenance and support of
APG40 systems
Prerequisites
Successful completion of the following course or equivalent knowledge:
 LZU108 6567, APG40 Operation and Maintenance (Windows 2003)
Duration and class size
The length of the course is 3 days and the maximum number of participants is 9.
Learning situation
This course is run only as instructor-led training (ILT).
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
1




Health Check
Different recovery methods
Trouble Reports
The backup procedure
Estimated time
30 mins
15
30
40
2
3

Recovery procedures: Restore
40

Recovery procedures: Disaster Recovery
40

Recovery procedures: Quorum Log Restore
30

Recovery Procedures: Data Disk Recovery
40

Recovery Procedures: Node Change
40

Other methods
20

Course Termination
20
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APG 43 Delta
LZU 108 6867 R2A
Description
The Adjunct Processor Group 43 (APG43) is the IO system of the APZ control system in
AXE 10 and AXE 810 with focus on board size footprint and integration in the evolved
Generic Ericsson Magazine (eGEM). The APG 43 is housed on blades (eGEM boards) in
eGEM magazine, utilizing the eGEM infrastructure.
This course will cover aspects in the new APG release. The students will retain knowledge
regarding the architecture and the functionality of the APG43. The differences to the
previous APGs will be covered.
Learning objectives
At the end of this course, the students will be able to:
1
Describe the APG features on an overview level
1.1 Be introduced to the main components of the APG 43
1.2 Describe the APZ versions used with APG 43
1.3 Observe the capacity differences between different IO systems
2
2.1
2.2
2.3
2.4
Describe the APG Hardware
Describe the layout of the eGEM subrack housing the APG 43
Explain the Ethernet star connections in the backplane
Describe the different boards used in APG 43
Describe the front cabling connections in APG 43
3
3.1
3.2
3.3
3.4
Describe the APG Software
Describe the new software structure used in APG43
Describe the new sub-systems introduced in APG 43
Explain the VERITAS software RAID function in APG 43
Describe the quota based protection feature
4
4.1
4.2
4.3
4.4
4.5
Discuss other improvements in APG 43
Understand the new Configuration and Hardening feature in APOS
Describe the different user interfaces towards the APG 43
Explain the changes to the Disaster Recovery procedure in APG 43
Briefly describe the procedure to change a GED disk board
Describe the command differences between APG40 and APG43
Target audience
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The primary target audience for this course: System Technicians and other staff working with
APG43.
Prerequisites
The participants should be familiar with the previous APG40 releases.
Duration and class size
The length of the course is 6 hours and the maximum number of participants is 16.
.
Learning situation
This course is based on theoretical instructor-led lessons.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
Estimated time
1

Introduction

APG 43 Hardware and Interfaces
60 min
120 min

APG 43 Sofware and 3 party midlleware
60 min

Other Improvements
100 min
rd
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APG43 Operation and Maintenance
LZU 108 7177 R1A
Description
Do you want to know how the APG43 works? Are you required to perform Operation and
Maintenance activities on the APG43 such as backups, creating new user accounts, or
configuring statistical measurement programs?
This course describes the hardware and software structure of the APG43. It also explains
many of the features in APG43 while describing the procedures and commands used to
configure them.
The participants will gain experience in handling the APG43 by performing a series of
practical exercises designed to re-enforce the theoretical components of the course. The
exercises include fault handling, trouble report creation, file transfer definitions, backup
procedures and more.
Learning objectives
On completion of this course the participants will be able to:
1
Describe the APG features on an overview level
1.1
1.2
Introduce the APG43 product and its main features
Compare the performance and hardware characteristics of APG43 to previous IO
systems
2
Describe the APG43 hardware components
2.1
2.2
2.3
2.4
Explain the layout of the EGEM magazine including APG43
Describe each board which makes up the APG43 and their functions
Understand the front cabling used in APG43, and be familiar with the connections
Be familiar with the APG43 data disk directory structure, and describe the contents
3
Use different interfaces to connect to the APG43 platform
3.1
3.2
Connect to the APG43 using Telnet, WinFiol or Terminal Server
Describe the serial console port in APG43, and when it is used
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4
Explain the APG43 software structure
4.1
Provide a basic understanding of the software architecture, and describe the major
components APHW, APOS, ACS on an overview level
Describe some of the commonly used applications such as Microsoft Cluster Server
and other 3rd Party products
Describe the functions of ACS and AES subsystems used in APG43
Perform exercises to define file transfer destinations in the AP, and generate files to
observe the file transfer process.
4.2
4.3
4.4
5
Describe the principles of the alarm system in APG43
5.1
5.2
Explain the principles of the alarm system on the APG43
Describe the functions of PRC, USA and SSU
6
Describe the file management system implemented in APG43
6.1
6.2
6.3
6.4
Understand the main file handling functions used in FMS
Perform exercises to create, rename, copy and remove files in FMS
Explain the CP backup functions supported in APG43
Understand how to transfer a CP backup file into the AP to be loaded into the CP
7
Describe the Man-Machine Subsystem in APG43
7.1
7.2
7.3
7.4
Describe the hardware components in MCS
Understand how users can be defined in APG43 with different levels of access to AP
and CP functions
Explain the alarm display function used in APG43
Define the data for an external alarm in APG43
8
Describe the APG43 System Backup, Restore and Function Change procedures
8.1
Describe the principles of the APG43 backup function, and perform a backup of the
APG43
Explain the APG43 system restore procedure, and perform a single Node restore
Describe the Function change principles, and perform a soft function change in APG43
8.2
8.3
9
Describe the principles of the Statistics and Traffic Measurement subsystem
STS in APG43
9.1
9.2
9.3
9.4
Have a basic understanding of STS concepts and their implementation in APG43
Explain the counters, objects and object types used in STS
Understand the output of files and the different formats used in STS
Perform and exercise to define measurement reports to produce statistical data to be
output to a destination defined in APG43
Target audience
The target audience for this course is: System Technicians, System Engineers.
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This audience is responsible for Network Maintenance, Network Operation and System
administration
Prerequisites
The participants should be familiar with previous version of APG 40 systems.
Successful completion of the following courses:
APG43 Delta
FAB 102 2130 R1A
Duration and class size
The length of the course is 4 days and the maximum number of participants is 8.
Learning situation
This course is based on theoretical and practical instructor-led lessons given in both a
classroom and in a technical environment, using equipment and tools.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
1












2
3
4
Estimated time
APG43 Introduction
APG43 Hardware
Accessing the APG43 Network
APG43 Software
APG43 Software
APG43 Alarm System
APG43 File Management Subsystem
APG43 File Management Subsystem
APG43 Man-Machine Communication Subsystem
APG43 Backup
APG43 Restore and Function Change
APG43 STS
30
70
50
40
60
40
30
30
50
50
90
50
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APG43 Installation and Configuration
LZU 108 7178 R1A
Description
This course will prepare participants for installation and configurational tasks on the APG43
by engaging in theoretical and practical sessions with the trainer. Participants will have the
opportunity to explore the APG43 functionalities in installation and configuration procedures
After the course the students will be able to install, configure and put an APG43 into
operation.
Learning objectives
On completion of this course the participants will be able to:
1
Describe the subsystem structure of the APG43 and the hardware layout in the eGEM. It also describes the main hardware and functionality changes from the APG40.
1.1 Describe the subsystems in the APG43
1.2 Recognize the hardware configuration of the APG43
1.3 Explain the main hardware and functionality differences from the APG40
1.4 Describe the structure of the Data Disk in APG43
2
2.1
2.2
2.3
2.4
2.5
2.6
2.7
Describe the hardware layout and cable connections of the APG43. It also describes
the procedure to install and test an APG43.
Describe the APG43 hardware and cable connections
Make and verify an AP System backup
Perform Hardware Configuration (HWC) changes
Prepare for Site Parameter Change
Perform a Start Up and Test procedure on an APG43
Configure the APG43 for APZ
Perform Test APG43
3
3.1
3.2
3.3
3.4
Understand the administration of the different security functions in the APG43.
Describe the User management in APG43
How to define different user groups and their Authorities in APG43 and CP
APG43 Domain handling
Master User Domain (MUD)
4
4.1
4.2
4.3
4.4
4.5
Understand the Anti Virus software that is installed on the APG43.
Describe the eTrust Antivirus software
Know how to avoid getting virus on the APG43
Configure the antivirus software
Update the virus definitions
Create a scheduled scan job
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Target audience
The target audience for this course is: System Technicians, System Engineers.
This audience are personnel working with Network Maintenance, Network Operation,
Network Development and System Administration.
Prerequisites
The participants should be familiar with Windows 2003 and have fulfillled the course:
APG43 Operation and Maintenance, LZU 108 7177
And
APG43 Delta, LZU 1086867
Paricipants should also have some AXE knowledge equal to the following course:
AXE Survey, LZU 108775
Duration and class size
The length of the course is 2 days and the maximum number of participants is 8.
Learning situation
This course is based on theoretical and practical instructor-led lessons given in both
classroom and in a technical environment using equipment and tools, which are accessed
both locally and remotely.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
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Day
Topics in the course
Estimated time
(Minutes)
1
Course Introduction
15
1
Chapter 1 - Introduction to APG43
30
1
Chapter 2 - Start Up, Configuration and Test of APG43
120
1
Exercises for Chapter 1 and 2
195
2
Chapter 3 - Authority System and User Account Management
90
2
Chapter 4 - Antivirus Configuration
70
2
Exercises for Chapter 3 and 4
200
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APG43 Recovery Procedures
LZU 108 7179 R1A
Description
Do you want to know how to recover the APG43 when it is not working normally? Do you
how to reconnect the APG43 in the network? This course will bring you all these answers by
engaging in theoretical and practical sessions with the trainer, you will have the opportunity
to explore the APG43 functionalities with recovery procedures.
After attending this course the students will know how to make a proper backup of the
APG43 system to different media and to be able to use the different backups to recover the
APG43 in a fast and correct manner.
Learning objectives
On completion of this course the participants will be able to:
1
Decide which Recovery Procedure to use and how faults are reported to
Ericsson
1.1
1.2
1.3
Choose between the existing methods for restoring an APG43 system.
Describe the different types of Trouble Reports.
Collect suitable information to be included in a Trouble Report.
2
Make a proper backup of the APG43
2.1
3
3.1
4
4.1
5
5.1
Follow OPI to make a backup of the APG and transfer it to an LCT to be used for
disaster recovery.
Perform System Restore on the APG43
Follow OPI to perform both single node and double node restore.
Perform Disaster Recovery to restore an APG43 System
Follow OPI to Recover one or both system disks on the APG43.
Do a Quorum Restore on the APG43 System
Restore the cluster quorum following the OPI.
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6
Replace a faulty GED data disk on the APG43 System
6.1
Follow OPI to replace a failed datadisk and return RAID to an optimal state.
7
Perform a replacement of a GEP APUB board in APG43
7.1
Follow the OPI to replace a faulty APUB board and restore the APG43 system.
Target audience
The target audience for this course is: Network Deployment Engineers, System Technicians,
Service Technicians, System Engineers, Service Engineers, Field Technicians and System
Administrators.
These audiences can also include all staff working both for Ericsson and for external
companies with maintenance and support of APG43 systems.
Prerequisites
The participants should be familiar with the previous APG40 releases.
Successful completion of the following training flow:
 APG43 Delta

APG43 Node Operation & Configuration
FAB 102 2130 R1A
FAB 102 2249 R1A
Duration and class size
The length of the course is 3 days and the maximum number of participants is 8.
Learning situation
This course is based on theoretical and practical instructor-led lessons given in both
classroom and in technical environment using equipment and tools.
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Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate. (This paragraph is mandatory).
Day
Topics in the course
1



Different recovery methods
Trouble Reports
The backup procedure
Estimated time
30 mins
15
30
2
3

Recovery procedures: Restore
40

Recovery procedures: Disaster Recovery
40

Recovery procedures: Quorum Log Restore
30

Recovery Procedures: Data Disk Recovery
40

Recovery Procedures: Node Change
40

Other methods
20

Course Termination
20
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APZ 212 55 Operation and Maintenance
LZU 108 6847 R2A
Description
The APZ 212 55 is an essential part of the AXE system, especially as a new platform for the
BSCs, in MSC-servers, Telephony Softswich applications and as the SPX (Signalig Proxy)
part for the MSC-S Blade Cluster system. It is though very advisable that the operation staff
can identify any deviation from the normal working state conditions as soon as it happens,
and act in a fast and correct manner.
After finishing this course the students will be able to Operate and Maintain the APZ 212 55.
The course contains a balanced description of the classical APZs delivered by Ericsson and
the new cost, capacity and size optimized APZ 212 55.
Through practical exercises the participants will gain experience in handling the APZ 212 55
by checking its operational states, feeling how the APZ 212 55 reacts in different situations
like a system backup or reloading procedures, and extracting of system logs that can be
further used for troubleshooting.
Learning objectives
On completion of this course the participants will be able to:
1
Describe the evolution of the APZ 212 series
1.1 APZ Evolution
1.2 Explain the basic APZ concepts
1.3 Indicate the capacity and characteristics of different APZ versions
1.4 Discuss the key features of the APZ 212 55
1.5 Explain the APZ 212 55 architecture
1.6 Recognize the APZ subsystems and functions
2
2.1
2.2
2.3
2.4
2.5
2.6
2.7
2.8
2.9
Demonstrate use of the APZ 212 55 Hardware
Identify the hardware structure of the APZ 212 55 on cabinet level
Describe the APZ 212 55 on subrack level
Distinguish the major physical, logical interfaces and manageability functions in the
APZ 212 55
Recognize the APZ 212 55 from the functional point of view
State the functions of the APZ 212 55 boards CPUB, MAUB and RPBI-S
Describe the RPH concept
State the functions of the eGEM magazine, SCB-RP/4 board and Fan Unit
Explain the CDU panel indications
Operate the Ethernet RP Bus, RPB-E
3
3.1
3.2
3.3
Discriminate the key features in the software structure of APZ 212 55
Describe the APZ 212 55 software structure.
Describe the Program Control in AXE
Explain the PlexEngine in APZ 212 55
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3.4
3.5
3.6
Explain how the ASA Compiler operates within PlexEngine
State the functionality and components of APZ-VM
Examine the memory lay out of APZ 212 55
4
4.1
4.2
4.3
4.4
4.5
4.6
4.7
4.8
Demonstrate use of the Operation handling concepts of APZ 212 55
Describe the main system differences affecting handling
State the normal system operation
Utilize the backup procedure in the APZ 212 55
Describe the handling of APZ 212 55 run modes
Handle of Middleware and Firmware
Describe the booting procedure of the CPU
Execute System Load-Reload
Explain the Function Change of Middleware and Firmware
5
5.1
5.2
5.3
5.4
5.5
5.6
Demonstrate use of the Fault handling concepts of the APZ 212 55
List the hardware fault recovery processes
Repair faults in APZ 212 55 Hardware
List the Software Fault recovery process
Extract restart information in case of CP Software faults
Differentiate between PLEX Engine fault recovery and PLEX fault recovery
Use the Central Log Handler in APZ 212 55
Target audience
The primary target audience for this course is : System Technicians and System Engineers.
Prerequisites
Successful completion of the following courses:
WCDMA AXE Operation LZU 108 5024/1 R4A or
GSM AXE Operation LZU 108 5024/2 R5A or
AXE Operation and Configuration LZU 108 6145 R2A
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Duration and class size
The length of the course is 3 days and the maximum number of participants is 8.
Learning situation
This course is based on theoretical and practical instructor-led lessons given in both
classroom and in a technical environment using APZ 212 55 equipment and tools (WinFiol,
ALEX), which can also be accessed remotely.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
1
2
3
Topics in the course
 Course introduction
 Describe the evolution of APZ 212 series
 Identify the APZ 212 55 hardware and the major interfaces
 Detail the APZ 212 55 hardware : CPUB, MAUB, RPBIS
and SCB-RP4 boards
 Discriminate the key features in the software structure of
APZ 212 55
 Explain PlexEngine, the APZ VM, the ASA compiler, and
the commercial Operating System for the APZ 212 55
 Demonstrate use of the Operation handling concepts of
APZ 212 55
 Reload, maintain and dump the APZ 212 55
 Demonstrate use of the Operation handling concepts of
APZ 212 55 (continuation)
 Demonstrate use of Fault Handling concepts of APZ
21255
 Extract restart information and error logs in case of CP
Software faults
 Theoretical exercises : summarization of the main
concepts
 Practical exercises
 Practical exercises (continuation)
 Course Summary
Estimated time
1,5 hour
2,5 hours
1 hour
1hour
1 hour
2 hours
1 hour
2 hours
5,5 hours
0,5 hour
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Automated O&M using Operation Procedure Support (OPS)
LZU1085149 R5A
Description
Do you want to reduce the time needed for frequent O&M tasks? This course introduces
Operations Procedure Support (OPS) and helps to identify O&M procedures that are suitable
for being scripted.
The course covers the development and run-time control of MML command files. The
student will debug faulty command files and analysis complex scripts, for example AC-A
packages used in SMO. The students will use SMO to upgrade AXE nodes, or will use
repetitive MML commands.
The implementation of available subroutines and functions is described and deepened
knowledge is gained with the use of practical exercises. To utilize the advantages of OPS
scripting in UNIX shell scripts the non-graphical OPS interface is covered as well.
Learning objectives
On completion of this course the participants will be able to:
1
Handle the graphical and non-graphical OPS User Interface
1.1 Start OPS and create command files
1.2 Explain and use the different OPS modes
2
Analyze, troubleshoot and write OPS scripts
2.1 Implement OPS commands and functions in scripts
2.2 Debug faulty command files
2.3 Use OPS error handling
3
Describe the structure of subroutines
3.1 Analyze and write basic subroutines
3.2 Explain where scripts fit in the structure of an AC-A package
Target audience
The target audience for this course is: Network Deployment Engineers, System Technicians,
System Engineers.
Prerequisites
The participants should be familiar with AXE (MML commands, ALEX) and basic UNIX
command handling.
Duration and class size
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The length of the course is 12 hours and the maximum number of participants is 8.
Learning situation
This course is based on theoretical and practical instructor-led lessons given in both
classroom and in a technical environment using equipment and tools, which can also be
accessed remotely.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
1

OPS graphical and non-graphical user interface
1,0 h

OPS scripting elements
2,0 h

Exercises
3,0 h

OPS Subroutines
1, 0 h

OPS in AC-A Packages
1,0 h

Exercises
4,0 h
2
Estimated time
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AXE810 Maintenance
LZU1086750 R2A
Description
Do you have questions about faults, alarms? Do you feel afraid of recovering urgent alarms?
Don‟t you know how to use the tools provided by Ericcson? Some people have the same
questions and concerns. Then you should attend this course.
Through case studies, the maintenance of all supported hardware configurations will be
covered in this modular course. Each case covers one or more related events and builds on
the knowledge learned from previous cases.
Learning objectives
On completion of this course the participants will be able to:
1
Replace plug-in units for various subordinate hardware elements (e.g. RPs,
EMs), and execute the repair procedures using local O&M tools.
2
Generate printouts according to a Work Order, using local Operation and
Maintenance (O&M) tools and on-line system documentation.
Log and save printouts, using local O&M tools
2.1
3
3.1
3.2
Locate and identify GSM hardware units, using online documentation.
Determine the order number and release revision of hardware elements, using the
Alex library
Exchange subordinate hardware elements, using online documentation
4
Perform repair sequences on various hardware elements (e.g. RPs, EMs), using
WinFIOL / OSS-RC, online documentation, and data from a Work Order.
5
Determine the order and release revision of AXE central elements, using online
documentation.
Exchange hardware units in AXE central elements, using online documentation
Perform repair sequences on AXE central hardware elements, using WinFIOL/ OSSRC, online documentation, and data from a Work Order
Generate status printouts of AXE central elements in accordance with a Work Order,
using local O&M tools and online documentation
Determine APZ system status, using visible hardware indicators
5.1
5.2
5.3
5.4
6
6.1
7
7.1
8
Locate and identify APG 40 / APG 43 hardware units, using online
documentation.
Generate printouts of APG 40 / APG43 system status and hardware elements, using
local O&M tools and online documentation
Save a system backup copy on removable media, using online documentation
and Work Order data.
Transfer a file from removable media to hard disk, using online documentation and
Work Order data
Test load a system backup copy, using online documentation and Work Order
data.
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9
Perform routine preventive maintenance on the AXE, using online
documentation.
10
Perform repair on Sigtran hardware (GARP).
11
Perform repair sequences on BSC-specific hardware elements (TRAU), using
WinFIOL/OSS-RC, online documentation, and data from a Work Order.
12
Replace plug-in units for various subordinate hardware elements (e.g. RPs,
EMs), and execute the repair procedures using local O&M tools.
13
Replace plug-in units for various central hardware elements (APZ, APG and
GPB), and execute the repair procedures using O&M tools.
Target audience
The target audience for this course is:
Field Technicians, System Technicians
Prerequisites
Successful completion of the following stream:
AXE Operation and Configuration
LZU 108 6145
GSM / WCDMA AXE Operation
LZU 108 5024
APG 40 O&M
LZU 108 5870
APG 43 O&M
LZU 108 7177
Duration and class size
The length of the standard course (only one APZ model) is 5 days and for all relevant APZ
models is 7 days. The maximum number of participants is 8.
Learning situation
This is a task-oriented learning course based on tasks in the work process given in a
technical environment using equipment and tools. Working in groups of two for most events,
students are issued various Work Orders to resolve hardware faults, perform hardware
replacement, and follow simple non-fault related maintenance routines using the system
documentation.
The instructor acts as facilitator, helping students to obtain the required competency and
may present theorectical material to support and enhance skills learnt from performing the
cases.
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Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
1





2
3
4
5



or

or






Estimated time
Win Fiol and ALEX
Hardware handling and Structure (hardware presentation)
AXE Hardware Faults – Control Path (RP, EM Fault)
GS Fault
AXE Hardware Fault – Speech Fault (DIP, SNT, SDIP
Fault)
CP Status and Basic CP Fault Repair
CP Status and Basic CP Fault Repair
MSC Specific (Optional)
120 min
100 min
100 min
Telephony Service Specific (Optional)
120 min
BSC Specific (Optional)
CP Stoppage
IO Status and Basic IO Fault Repair
IO Restart and Reload
Backup Handling and Routine Maintenance
Final tests / summary
120 min
120 min
120 min
120 min
240 min
120 min
120 min
120 min
120 min
1 Day
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AXE Emergency Handling
LZU 108 094 R3A
Description
Are you prepared for an emergency situation?
This course provides the students with the knowledge required to recover the AXE from fault
situations in critical parts, including stoppages in the Central Processor.
Learning objectives
On completion of this course the participants will be able to:
1
1.1
1.2
1.3
1.4
1.5
1.6
Handle a CP stoppage
Restart / Reload the CP with normal commands
Restart / Reload the CP with CPT commands
Reload the CP without using commands
Test and repair the CP using CPT commands
Give 2 examples of a cause for a stoppage
Interpret an Error Interrupt Printout
2
2.1
2.2
2.3
2.4
Handle RPB-S and RPB-E faults
Find an RP using branch, magazine and slot number
Find the equipment controlled by an RP
Repair an RPB-S fault
Disconnect the RPB-S from an APT magazine without causing disturbances for other
magazines
Repair an RPB-E fault
Disconnect the RPB-E from an APT magazine without causing disturbances for other
magazines
2.5
2.6
3
3.1
3.2
3.3
3.4
Handle GS faults for AXE 10
Find the TSM, SPM, CLM boards
Distinguish between DL3, RP and EM Bus cables
Calculate the number of traffic channels in a TSM
Repair a GS fault without disturbing the traffic
4
4.1
4.2
4.3
4.4
Handle GS faults for AXE 810
Find the XDB, DLEB and DLHB boards
Locate the DL2, DL3,DL34, and DL5 links
Calculate the number of traffic channels in XM-0-0
Repair a GS fault without disturbing the traffic
5
Handle problems in the APG 40
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5.1
5.2
5.3
Perform a backup of the APG software
Follow the OPI to make a trouble report
Perform a Restore on the APG
Target audience
The target audience for this course is: System Engineer.
Prerequisites
The participants should be familiar with Operation and Maintenance of nodes based on AXE.
Successful completion of the following courses:
 AXE 810 Maintenance – LZU 108 6750

WCDMA AXE Operation – LZU 108 5024/1 or
GSM AXE Operation – LZU 108 5024/2

WCDMA Maintenance MSC Extended – LZU 108 5031/1 or
GSM Maintenance MSC/BSC Extended – LZU 108 5031/2

APG40 Operation and Maintenance – LZU 108 6567
Duration and class size
The length of the course is 5 hours and the maximum number of participants is 8
Learning situation
The course is intructor led Training (ILT). The main time is spent on practical group work
exercises, using AXE exchanges and tools.
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Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate. (This paragraph is mandatory).
Day
1
2
3
4
5
Topics in the course
Lesson: CP HW units and buses
Lesson: Manual recovery procedures
Lesson: RPB-S & RPB-E
Exercise: Serial RP Bus
Lesson: CP HW fault handling
Exercise: Error Interrupt printout
Exercise: CP stoppage
Lesson: CP SW fault handling
Exercise: CP stoppage
Exercise: Ethernet RP Bus
Exercise: CP stoppage
Exercise: GS HW layout & fault handling
Exercise: AP Backup
Exercise: AP Trouble Report
Exercise: AP Restore
Estimated time
3 hours
1 hour
1 hour
1 hour
1 hour
1 hour
4 hours
1 hour
3 hours
2 hours
2 hours
4 hours
2 hours
1 hour
3 hours
Page 114
GSM AXE Operation
LZU 108 5024/2 R6A
Description
How the AXE system structure knowledge can facilitate your daily activities? Don´t you know
how to configure routes and devices because you are not familiar with operational routines?
Many customers do face this situation too.
This course will teach you how to operate the functions of the AXE 810 switch common to
all AXE810 applications of a network. When finishing the course the students will have a
deeper understanding of operation and configuration activities in AXE810 exchanges in an
efficient way.
The practical parts will be performed either in a real exchange, on SEA environment or in a
Remote Lab (RTL) with realistic exercises.
Learning objectives
On completion of this course the participants will be able to:
1
1.1
1.2
1.3
1.4
1.5
1.6
1.7
1.8
Recognize the AXE 810 product structure and the documentation used
Identify the market position for AXE.
Recognize the product structure of AXE.
Recognize the BYB 501 building practice on an overview level.
Identify the main parts of the command code.
Use different parameter variants of standard AXE commands.
Interpret different printouts generated by the system.
Handle WinFIOL to communicate with AXE.
Handle the AXE library as an aid.
2
2.1
2.2
2.3
2.4
Demonstrate use of the basic APG functions
Recognize the APG Functions
Access the AXE system through the APG
Identify the APG HW Layout
Utilize the File Management Subsystem
3
3.1
3.2
3.3
Differentiate between the RPs types used in the system
Handle the RPs on a basic level.
Define EMs controlled by the RPs.
Configure the databases used when defining RPs.
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4
4.1
4.2
4.3
4.4
4.5
4.6
Identify the structure of the Group Switch GS890
Operate the Group Switch GS890.
Configure the different parts of the group switch.
Administer the clock function.
Discuss how the network synchronization is dealt with in AXE.
Explain the SNT, DIP and SDIP concepts.
Configure SNTs, DIPs and SDIPs.
5
5.1
5.2
5.3
5.4
Implement the necessary exchange data to connect routes and devices
Configure hardware for new routes.
Define routes and devices.
Connect and disconnect devices.
Modify Size Alteration Events on request from a work order.
6
6.1
6.2
6.3
6.4
Manage Signaling in AXE810 systems
Identify basic signaling concepts.
Explain the differences between CAS and CCS signaling systems.
State the structure of the CCS.
Define a signaling system no. 7 (SS7) in AXE up to the MTP.
7
7.1
7.2
Make use of CPs in the APZ 212 family regarding their structure and
functionalities
Handle the CPs on a basic level.
Operate the System Backup functions.
8
8.1
8.2
8.3
8.4
Correlate the main Analysis tables in AXE
Define data in the (Pre) B-Number Analysis table and check the result.
Define data in the Route Analysis table and check the result.
Analyze End-of-Selection Analysis table using commands.
Check data in Charging Analysis.
9
9.1
9.2
9.3
9.4
9.5
Operate BSC Operation functions on basic level
Describe the BSC specific hardware.
Recognize BSC specific data.
Understand the Managed Object (MO) in BSC.
Analyze the OSS Interface.
Send some BSC commands.
Target audience
The target audience for this course is:
System Technicians, System Engineers.
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Prerequisites
Successful completion of the following training flow:
GSM Network Fundamentals, Blended Training
FAB 102 1465 R1A
Duration and class size
The length of the course is 9 days and the maximum number of participants is 8.
Learning situation
This is a task-oriented learning course based on tasks in the work process given in a
technical environment using equipment and tools, which can also be accessed remotely.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
1
2
3
4
5
6
7
8
9
10
Topics in the course
 Introduction and Pre-Test
 MML , WinFIOL , AXE Library
 Understand the I/O system
 Define RP/EMs and SAEs
 Group Switch, SNT & DIP, Clock and Synchronization
 Route and Device Data
 Signaling in AXE
 APZ 212 + Backup Handling
 Analysis in AXE : B-number, Route
 Analysis in AXE : EOS, Charging
 BSC Basic Operations
Estimated time
6 hs
4 hs
5 hs
6 hs
6 hs
6 hs
5 hs
6 hs
4 hs
6 hs
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GPRS System Survey
LZU 108 876 R8A
LZU 108 876 R8A
Description
If you want to gain knowledge about the main principles around the mobile packet network
(GPRS and EDGE), this course is for you. You will understant the basic concepts about
GSM (including EDGE) and WCDMA air interface (including HSPA) and the main Ericsson
procducts envolved in the GPRS core network.
Learning objectives
On completion of this course the participants will be able to:
1
Explain the purpose of implementing packet switching in the existing
GSM/WCDMA systems
1.1 Understand the differences between Circuit switching and Packet switching
1.2 Describe few GPRS Applications
1.3 Describe the GSM/GPRS/WCDMA network Architecture
1.4 List and explain GPRS system architecture
1.5 Introduce 3GDT features
1.6 List GPRS terminal features
1.7 Explain briefly the network evolution of GSM/WCDMA into EPC
2
2.1
2.2
2.3
3
3.1
3.2
3.3
3.4
3.5
Explain on overview level the air interface in GPRS covering the GSM network,
including EDGE
Explain GPRS Radio resource management
Understand GPRS throughput announcement, Coding schemes, Number of timeslots
allocated, Protocol headers added to payload and Cell charging in GPRS
Describe EDGE enhancement compared to GSM
Explain on overview level the air interface covering the WCDMA networks
including HSPA
Briefly understand the QoS concept
Describe the Radio Resource control states
Describe the User plane bearers for WCDMA systems
Understand how the bandwidth is managed across the air Interface
Briefly understand HSPA.
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4
4.1
4.2
4.3
4.4
4.5
Understand and briefly describe the GPRS/WCDMA traffic cases
Show the GPRS transport architecture
Explain the mobility management states
State how the session management is handled
List the Gb Concepts
Explain on an overview level SGSN Pool Proxy functionality
5
5.1
5.2
5.3
List the functions and hardware for the WPP based SGSN for both GSM and
WCDMA Systems as well as GGSN based on J20
List the main hardware components in the GPRS network
Explain the GPRS connectivity
List the protocol stack in the GPRS interfaces
6
6.1
6.2
Describe the BSS and RAN architecture for GPRS in GSM/WCDMA
Understand the configuration for Gb over IP connected to the PCU
List the interfaces on the WCDMA RAN architecture
7
7.1
7.2
7.3
7.4
7.5
7.6
Explain on an overview level the packet switching network in Mobile-PBN
Understand architectural and function overview of Mobile-PBN
Describe the Mobile Softswitch Network Structure
List the interfaces on the WCDMA RAN architecture
Understand IP transport as in GP and IP
Briefly understand DNS and Roaming
Briefly understand Corporate Connectivity
Target audience
The target audience for this course is:
Field Technician, System Technician, System Engineer, Service Engineer, Network Design
Egineer, Network Deployment Engineer, Service Design Engineer, Service Deployment
Engineer.
This audience includes personnel in charge of the operation or engineering of Ericsson GSM
SGSN and/or WCDMA SGSN nodes.
Prerequisites
The participants should have successfully completed the following courses:
Ericsson WCDMA System overview (2 days ILT or VCT)
LZU108 5418
GSM System Survey (4 days ILT)
LZU 108 852
Duration and class size
Duration and class size depend on the course being delivered in either version:
1. Instructor Led Training (ILT) Version:
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The length of the course is 2 days and the maximum number of participants is 16.
2. Virtual Classroom Training (VCT) Version:
The length of the course is 2 days and no more than 16 students participating in the VCT
Sessions are recommended. Ericsson does not recommend Centra Sessions longer than 3
hours a day.
Learning situation
This course is based on theoretical instructor-led lessons given in a classroom environment,
or given in a virtual classroom over the net by an instructor.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate. (This paragraph is mandatory).
Day
1
2
Topics in the course
 Introduction
Estimated time
0,5h



GSM/WCDMA Network Overview for GPRS
GSM Air Interface for GPRS
WCDMA Air Interface for GPRS
1.0h
2.0h
2.5h


Transport and Traffic Management
SGSN and GGSN Hardware
2,5h
1h

BSS and WRAN Architecture for GPRS
1h

Mobile-PBN
1h

Conclusion
0.5
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GSM Maintenance MSC/BSC Extended
LZU 108 5031 R6A/2
Description
This course is essential for those wishing to practice implementing their hardware
maintenance skills and knowledge on the AXE nodes of the GSM R12/R13 MSC/BSC.
Having attended previous courses and acquired the prerequisite knowledge, students on this
course, work full-time hands-on in a guided environment to put their prerequisite skills into
practice.
Upon completion, you will be able to deal with hardware faults on the central elements of the
AXE, like Central Processor, Group Switch and APG 40 or APG43, and follow maintenance
routines using system documentation and local operation and maintenance (O&M) tools.
Learning objectives
On completion of this course the participants will be able to:
1
Identify hardware components and interconnections of the relevant Group
Switch using online and exchange documentation.
2
Identify the hardware components and interconnections of the Input / Output
(IO) configuration, using O&M tools and online documentation.
3
Detect and solve intermediate level faults in IO hardware, using O&M tools and
online documentation.
4
Access and use IO logging functions in the detection and analysis of system
faults, using O&M tools and online documentation.
5
Access and use IO file processing functions to gather and distribute essential
exchange data, using O&M tools and online documentation.
6
Determine the actions of the Maintenance Subsystem (MAS) in supervising CP
hardware and handling CP faults, using O&M tools, exchange printouts, and
online documentation.
7
Determine the MAS actions in CP software supervision and recovery, using O&M
tools, online documentation, and direct observation.
8
Handle CP software recovery alarms, using O&M tools and online
documentation.
9
Handle an intermediate level CP stoppage, using O&M tools, online
documentation, and the CP Test (CPT) system.
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Target audience
The target audience for this course is:
System Technicians, Field Technicians.
Prerequisites
Successful completion of the following courses/flows:
GSM Network Fundamentals, Blended Training
FAB 102 1465
In particular, prior attendance of the following is essential:
GSM Core Network Maintenance
LZU 108 5458/2
Duration and class size
The length of the course is 5 days and the maximum number of participants is 8.
Learning situation
This is a task-oriented learning course based on tasks in the work process given in a
technical environment using equipment and tools.
The instructor will act as a facilitator. The students work independently receiving assistance
only where necessary. Instances of pure lecturing will be limited. Hence students have an
opportunity in this course to implement concepts learned in previously attended prerequisite
courses into practical skills.
Time schedule
The time required always depends on the knowledge of the attending participants and the
plan stated below can be used as a guidance.
See following detailed Learning Product Plan:
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Day
Topics in the course
1



2


3


Estimated time
Case 1: Group Switch
- Event 1.1: GS 890 Hardware Verification
- Event 1.2: GS 890 Fault, MUX3
- Event 1.3: GS 890 Fault, CLM
- Event 1.4: GS 890 Unit Definition
Case 2: Hardware
- Event 2.1 or 2.2: APG Hardware (40 or 43)
- Event 2.3: Check Cable connection in APZ 212 55 or
60
- Event 2.4: APZ 212 55 or 60 board positions and diods
- Event 2.5: IPMI check in the SCB-RP/4
Case 3: IO and CP Board Faults
- Event 3.1 or 3.2: APG Hardware Faults (40 or 43)
- Event 3.1 or 3.2: APG Hardware Faults (40 or 43)
- Event 3.3: SCB-RP/4 Repair (for APG43)
- Event 3.4: IPMI Firmware upgrade
Case 4: IO Log Files
- Event 4.1 or 4.3: Command Log File APG (40 or 43)
- Event 4.2 or 4.4: Audit Log File APG (40 or 43)
Case 5: Storage Media and Data Collection
- Event 5.1 or 5.3: Backup of APG Software (40 or 43)
- Event 5.1 or 5.3: Backup of APG Software (40 or 43)
- Event 5.2 or 5.4: Collection Fault Data APG (40 or 43)
Case 6: File Processing
- Event 6.1 or 6.2: Transfer Queue to a Destination APG
(40 or 43)
Case 7: Recovery Actions
- Event 7.1: System Recovery
- Event 7.2: Escalation Window
- Event 7.3: Selective Restart
- Event 7.4: Error Intensity Restart
- Event 7.5: Recommended Recovery Settings
30min
30min
30min
60min
30min
30min
30min
20min
100min
20min
30min
30min
120min
120min
40min
20min
30min
120min
40min
40min
40min
40min
30min
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4


5

- Event 7.5: Recommended Recovery Settings
Case 8: Recovery Alarms
- Event 8.1: Alarm System Restart
- Event 8.2: Alarm Small Restart is Pending
- Event 8.3: Alarm Software Error (Optional)
Case 9: Forlopp Handling
- Event 9.1: Forlopp Duration Supervision
- Event 9.2: Recommended Forlopp Functions
- Event 9.3: Forlopp Duration Alarm
- Event 9.3: Forlopp Duration Alarm
- Event 9.4: Forlopp Release Alarm
Case 10: System Stoppage
- Event 10.1: System Stoppage APZ 212 33
- Event 10.2: System Stoppage APZ 212 33 (FEX)
- Event 10.3: System Stoppage APZ 212 40
- Event 10.4: System Stoppage APZ 212 40 (FEX)
- Event 10.5: System Stoppage APZ 212 50
- Event 10.6: System Stoppage APZ 212 50 (FEX)
- Event 10.5: System Stoppage APZ 212 55 or 60
- Event 10.6: System Stoppage APZ 212 55 or 60 (FEX)
10min
80min
60min
60min
60min
60min
30min
30min
60min
60min
60min
60min
60min
60min
60min
60min
60min
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GSM RAN Configuration Management using OSS-RC
LZU 1082133 R1A
Description
This course focuses on how to use the OSS-RC for GSM RAN configuration and will
introduce the processes to estabilish and maintain the performance of the GSM radio
network.
This course allows the student to gain knowledge with initial set-up, configuration and fine
tuning of the GSM network. The students will have a understanding in how to use OSS-RC
tools appropriately to ensure more efficient network management and a higher quality
network.
Learning objectives
On completion of this course the participants will be able to:
1
Briefly introduce the GSM RAN network elements and their responsibility in the GSM
network, according to Customer Product Information
1.1 Discuss briefly the OSS-RC applications available to operators for GSM RAN
configuration, performance management and optimization
1.2 Identify the advantages of using OSS-RC for GSM RAN configuration
2
2.1
2.2
3
3.1
3.2
3.3
3.4
4
4.1
Identify the AXE Element Management tools available in OSS-RC for configuration
management of GSM RAN Network Elements
Discuss the AXE communication process and outline the MML command tools
available in OSS-RC, such as Command Handling Application (CHA) and WinFIOL, to
communicate with network elements built on the AXE platform
Explore the OSS-RC applications; Command Log Search (CLS), Spontaneous Reports
Manager (SRM) and Element Management Activity Manager (EMAM) for centralized
AXE network element management
Discuss the Cellular Network Application (CNA) available for configuration of the GSM
RAN Cellular Network and describe the workflow used in the CNA application,
according to Customer Product information
Examine the CNA application and the concepts of valid and planned area network
configurations
Utilize the CNA functions to perform information retrieval, create/delete/modify cell data
and perform checks to ensure consistent configuration.
Briefly analyze the Graphical Cell Configuration application to display cell data
Explore the use of CNAI to export or import cell data and to define neighbors relations
belonging to another OSS
Explore the Base Station Management (BSM) feature and be familiar with the OSS-RC
tools for 2G RBS configuration
Discuss the work flow used in the BCM application and perform configuration/hardware
information retrieval by adjusting RBS data from the network
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4.2
Explore the wizards for the Base Station Configuration Manager (BCM) in order to add
or remove BTSs with belonging cells, reroute BTSs with belonging cells and add or
remove TRXs
Examine the methods for creating DT scripts and performing updates to the network
when the BCM wizards conclude
Review the Base Station Hardware (BHW) function for BTS hardware management
and explore support for external hardware by manually adding hardware information
Discuss the Base Station Alarm Management (BAM) function for BTS alarm
management, explore the use of BAM to configure BTS alarms, and monitor faults in
BTS
4.3
4.4
4.5
Target audience
The target audience for this course is: Network Design Engineers, Network Deployment
Engineers, System Engineers, System Administrators. This audience is responsible for the
configuration of the GSM RAN and any BSS operation staff.
Prerequisites
Successful completion of the following courses:
 GSM RAN Network Surveillance, FAB 102 1465

GSM AXE Operation, LZU 108 5024/2

GSM BSC Operation, LZU 108 625

IP Switch Operation and Configuration, LZU 108 6650 or

GPRS BSS GPRS Operation, LZU 108 6873
Duration and class size
The length of the course is 3 days and the maximum number of participants is 8.
Learning situation
This course is based on theoretical and practical instructor-led lessons given in both
classroom and in a technical environment using equipment and tools, which can also be
accessed remotely.
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Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
1
Introduction
2 hours
Element Management Tools
4 hours
Cellular Network Administration (CNA)
4 hours
Cellular Network Administration Interface (CNAI)
2 hours
Base Station Management (BSM)
4 hours
Base Station Hardware Management (BHW)
1 hour
Base Station Alarm Management (BAM)
1 hour
2
3
Estimated time
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IP in GSM Radio Access Network
LZU 108 7035 R4A
Description
This course covers the new Ericsson IP RAN R5 (PRAN) solution used by GSM, WCDMA
and LTE systems. The focus is the GSM RAN and its new and enhanced features. This is a
full IP connectivity solution aimed to enable a smooth and future proof introduction and
deployment of IP transport in RAN. If you are looking for more information about this
solution, this course is for you. It will provide you with knowledge about the new architecture
and equipments, Security, Quality of Service, Operation & Maintenance, Synchronization
and Virtual Local Area Network (VLAN) concepts. One of the advantages of using IP as a
choice for transmission is that it opens the door for key points: higher bit rates and lower
operational costs. BSS G10B supports the new SIU-02 as well as this course. RBS 6000
informations are also included in the material.
Learning objectives
On completion of this course the participants will be able to:
1
1.1
1.2
1.3
1.4
1.5
1.6
1.7
1.8
1.9
2
2.1
2.2
2.3
2.4
2.5
2.6
3
3.1
3.2
Provide concepts of the BSS IP Radio Access Network, identify the Ericsson IP RAN
R5 Solution besides the Site Integration Unit (SIU) functions
Describe the Abis, A and Gb interfaces over IP
Identify the IP RAN R5 Solution
Explain all the envolved hardware
Briefly describe the RBS 6000 family
List the functions of the Site Integration Unit
Determine the Abis Local Connectivity feature (ALC)
Describe the signaling exchanged between the STN and PGW (Packet Gateway)
Identify the Transmission and Synchronization characteristics
List the functions of the Abis over IP Configuration Management tool (AIPCM)
Provide concepts, techniques and configuration information related to the BSC IP
Infrastructure (IIS)
List the IP terminating network elements in BSC
Describe the Virtual Router Redundancy (VRRP) protocol
Verify the different concepts for the BSC LAN Switch and new BSC NWI-E
Identify the BSC IP addressing requisites
Determine the different IP Applications
Understand the IP Services configuration
Verify inside the IP RAN R5 Solution the different proposed scenarios for the
transmission
Identify the general scenarios of the solution
Describe the Scenario 1a: BSC/RNC site with Dual RAN Switches/Routers
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3.3
3.4
Describe the Scenario 1b: BSC/RNC site with Single RAN Switches/Router
Verify the RBS site physical and logical connectivity
4
4.1
4.2
4.3
4.4
4.5
Identify Security Architecture in IP RAN R5
Identify why security is needed and what needs to be protected
Describe the Scenario 2: IP RAN with RAN switches, and Security Gateways
List the equipment used for Security
Verify the physical and logical connectivity of the BSC/RNC site
Verify the physical and logical connectivity of the RBS site
5
5.1
5.2
5.3
5.4
5.5
Identify Quality of Service in IP RAN R5
Briefly explain QoS concept
Determine QoS Applied in IP RAN R5 Solution
Identify different traffic types to be protected
Indicate a recommended QoS Solution
Verify the different equipments and how they act when performing traffic priorization
6
6.1
6.2
6.3
6.4
Describe the Synchronization concepts
Identify the basic concepts about synchronization
Define GPS Synchronization
Determine Synchronization using NTP
List the synchronization equipments
7
7.1
7.2
7.3
Explain the Operation and Maintenance concepts
Understand the operation and maintenance in IP RAN R5
Describe ROMT/IP
Verify the protocol stack
Target audience
The target audience for this course is: Service Planning Engineers, Service Design
Engineers, Network Design Engineers, System Engineers, Service Engineers and
Application Developers.
Prerequisites
Successful completion of the following courses:
IP Networking
LZU 102 397
GSM System Survey
LZU 108 852
GPRS System Survey
LZU 108 876
OSS-RC Overview
LZU 108 6863
GSM BSS G10 RBS 2000 Basics
LZU 108 7484
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Duration and class size
The length of the course is 3 days and the maximum number of participants is 16.
Learning situation
The course is based on theoretical instructor-led lessons given in a classroom environment.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
1
Course introduction
0.5 hour
Pre-test
0.5 hour
RAN Overview and Evolution
2.5 hours
BSC IP Infrastructure (IIS)
2.5 hours
VLAN and Subnets concepts
1.5 hours
IP RAN Transport Networks
2.0 hours
Security Architecture
2.5 hours
QoS in IP RAN R5 Solution
1.0 hour
Synchronization Architecture
2.0 hours
Operation and Maintenance
2.0 hours
Post test
0.5 hour
Course Evaluation
0.5 hour
2
3
Estimated time
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IP Quality of Service and MPLS
LZU 108 7716 R1A
Description
This course will give the students an insight and understanding of QoS. The students will
learn the operation of QoS supporting IP Protocols and MPLS. The hands-on exercises are
used to facilitate the understanding of theory sessions.
Learning objectives
On completion of this course the participants will be able to:
1
1.1
1.2
1.3
1.4
1.5
1.6
1.7
1.8
1.9
1.10
1.11
Understand how Quality of Service (QoS) works
Explain QoS Fundamentals and QoS related Protocols
Analyze the enhancement of the IP networks to support transmission of Real Time
data
Describe QoS Basic Concepts
Describe QoS Architectures
Describe QoS Mechanisms
Explain Resource Reservation Protocol (RSVP) – RFC 2205
Explain Basic MPLS Concepts
Describe MPLS Labels and Label Stack
Explain MPLS Applications
Describe Generalized Multiprotocols Label Switching – GMPLS
Perform practical exercises covering Class Based Marking (CBM) using IP
Precedence, DSCP and basic MPLS setup
Target audience
The target audience for this course is: Network Design Engineers, Network Deployment
Engineers, System Technicians, Service Technicians, System Engineers and Service
Engineers.
Prerequisites
Successful completion of the following course:
IP Networking
LZU 102 397 R5A
Duration and class size
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The length of the course is 2 days and the maximum number of participants is 8.
Learning situation
This course is based on theoretical and practical instructor-led lessons given in both
classroom and in a technical environment using equipment and tools, which are accessed
remotely.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Short description of the topics in the course
1
Explain QoS Fundamentals and QoS related Protocols
0.5 hour
Analyze the enhancement of the IP networks to support
transmission of Real Time data
0.5 hour
Describe QoS Basic Concepts
0.5 hour
Describe QoS Architectures
0.5 hour
Describe QoS Mechanisms
1.0 hour
Explain Resource Reservation Protocol (RSVP)
1.0 hour
Explain Label Distribution Systems (LDP, RSVP-TE, BGP)
2.0 hours
Explain Basic MPLS Concepts
1.0 hour
Describe MPLS Labels and Label Stack
1.0 hour
Explain MPLS Applications
1.0 hour
Describe Generalized Multiprotocols Label Switching GMPLS
1.0 hour
Perform practical exercises covering Class Based Marking
(CBM) using IP Precedence, DSCP and MPLS
2.0 hours
2
Estimated time
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IP Security
LZU 108 7717 R1A
Description
This course will give the students an insight and understanding of Security issues. The
students will learn the operation of Security topics such as authentication, confidentiality, and
integrity. The hands-on exercises are used to facilitate the understanding of theory sessions.
Learning objectives
On completion of this course the participants will be able to:
1
1.1
1.2
1.3
1.4
1.5
1.6
1.7
1.8
1.9
1.10
1.11
1.12
Understand how IP Security (IP Sec) works
Analyze the existing security threats types
Explain Access control lists (ACL)
Explain the purpose and use of Firewalls
Explain Encryption techniques
Identify different Security Services
Explain how Virtual Private Networks (VPN) operate
Explain IP Security (IPSec) – RFC 4301
Explain Authentication Header (AH) – RFC 4302
Explain Encapsulating Security Payload (ESP) – RFC 4303
Explain Internet Key Exchange (IKE) – RFC 2409 v1/RFC 4306 v2
Show some Transport Layer Security Protocols (SSL and TLS) – RFC 2246v1/RFC
4346 v1.1
Perform practical exercises covering the configuration of an IPSec VPN tunnel (Phase
I and Phase II negotiation)
Target audience
The target audience for this course is: Network Design Engineers, Network Deployment
Engineers, System Technicians, Service Technicians, System Engineers and Service
Engineers.
Prerequisites
Successful completion of the following course:
IP Networking
LZU 102 397 R5A
Duration and class size
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The length of the course is 2 days and the maximum number of participants is 8.
Learning situation
This course is based on theoretical and practical instructor-led lessons given in both
classroom and in a technical environment using equipment and tools, which are accessed
remotely.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Short description of the topics in the course
1






Estimated time
Analyze the existing security threats types
Explain Access control lists (ACL)
Explain the purpose and use of Firewalls
Explain Encryption techniques
Identify different Security Services
Explain how virtual Private Networks (VPN) operate
1.0 hour
1.0 hour
1.0 hour
1.0 hour
1.0 hour
1.0 hour
2






Explain IP Security (IPSec)
Explain Authentication Header (AH)
Explain Encapsulating Security Payload (ESP)
Explain Internet Key Exchange (IKE)
Show some Transport Layer Security Protocols (SSL and
TLS)
Perform practical exercises covering the configuration of an
IPSec VPN tunnel (Phase I and Phase II negotiation)
1.0 hour
1.0 hour
1.0 hour
1.0 hour
1.0 hour
1.0 hour
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OSS-RC Overview
LZU 108 6863 R3A
Description
Today operators manage extremely large networks, varying from Wireline, GSM, CORE to
3G networks. This could mean that up to 30,000 cells may need to be configured,
troubleshooted and monitored. Do you know how operators manage their network elements?
Ericsson‟s Operation Support System for Radio & Core (OSS-RC) is designed to manage,
configure, monitor, troubleshoot and upgrade all the various networks available i.e: wireline
Core, 2G and 3G.
Participants attending the OSS Overview course will be given a basic introduction to the
OSS-RC R10 system. They will learn how OSS-RC R10 is used for centralized Operation
and Maintenance of mobile networks, the nodes specific to each network as well as service
layer equipment. Participants are introduced to the Sub-Network Management Platform and
learn how its components and applications provide comprehensive configuration,
management and optimization applications. They also learn about the benefits associated
with these applications.
Learning objectives
On completion of this course the participants will be able to:
1
Explain why network management is necessary, and outline the role of OSS-RC
as a network management system
1.1 Briefly describe the overall functionality offered by OSS-RC.
1.2 Identify the OSS-RC components that support two or more network types.
1.3 Briefly describe the structure of the Active Library Explorer, ALEX for OSS-RC.
1.4 Overview the functionality offered by the common integration framework CIF.
2
2.1
2.2
2.3
Discuss the OSS-RC Common Components
Outline the functionality of one or more common component
Recognize that components that support more than one network type.
Understand their basic functionality
3
3.1
Identify the OSS-RC Core Network Component
Understand and recognise each of the following:
3.2 MMCM
3.3 GCM: Relate GPRS-CM to GPRS Test and Monitoring
Core Network Status Monitor
Call Path Tracing application
Number Analysis Manager application
Interactive Messaging Manager application
IMS Configuration Manager application
MSC Feature Inventory
3.4
3.5
3.6
3.7
3.8
3.9
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3.10 Review the new support for SAE
4
4.1
4.2
4.3
Identify the OSS-RC WCDMA and LTE RAN components
Be familiar with the Common Explorer and its functionality
List the benefits and basic functionality of the OSS-RC WCDMA and LTE components.
5
5.1
Identify the GSM RAN components.
Understand the functionality of the Cellular Network Administration application and
interface.
Describe the Base Station Management applications.
Outline IP support and IP configuration for GSM RAN.
Recognise the benefit of Multipe Core Network Support
5.2
5.3
5.4
Target audience
The target audience for this course is: Network Design Engineers, Network Deployment
Engineers, Service Technicians, System Engineers, and System Administrators or anyone
who works with OSS and needs a high level overview of the product.
This audience is anyone new to OSS-RC who requires an overview of the OSS-RC product.
Prerequisites
Successful completion of the following courses:
WCDMA Network Fundamentals, WBL (FAB 102 1316 R1A)
GSM Network Fundamentals WBL (FAB 102 1947 R1A) or
GSM System Survey LZU 108 852
GPRS System Survey LZU 108 876 or
Ericsson WCDMA System Overview LZU 108 5418
The participants should be familiar with GSM network or WCDMA network.
Duration and class size
The length of the course is 1 day and the maximum number of participants is 16
Learning situation
This course is based on theoretical instructor-led lessons given in a classroom or virtual
classroom environment with remote access to equipment and tools for demonstration
purposes, where possible.
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Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
Estimated time
1
Introduction to OSS-RC and Platform Overview
1 hour
2
OSS-RC Common Components
2 hours
3
OSS-RC Core Network Components
1 hour
4
OSS-RC WCDMA and LTE RAN Components
1 hour
5
OSS-RC GSM RAN and Wireline Components
1 hour
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OSS-RC 6 Event Based Applications and TEMS
Visualization Operation for GSM
LZU1082137 R1A
Description
Are you an RF engineer? If you feel you need more information to tune, optimize and
troubleshoot GSM Radio Access Network you may benefit from this couse. The OSS-RC 6
Event Applications and TEMS Visualization Operation for GSM course will enable you to
aquire the knowledge and skillset to benefit your daily work.
This course can be delivered as a modular course so depending on your needs we can
customised this course according to the below modules.
The focus of the first module, objective one, is to give an introduction to the OSS tools RPMO (Real-time Performance Monitoring), RPDBI (Database Export Interface) and EBS
(Event-Based Statistics) and RTTM (Real Time trace Manager) and FFAX-BLR (Find Foulty
antenna- Both Links Recording) in OSS-RC R6 and TEMS Visualization 5.0 for GSM.
The focus of the second module, objective two to five, is how to use the Event Based
Applications R-PMO, RPDBI, EBS , RTTM and FFAX-BLR in OSS-RC R6.
The focus of the third module, objective six, is how to set up and use TEMS Visualization for
tuning/troubleshooting in a GSM network.
Learning objectives
On completion of this course the participants will be able to:
1. List the main functions and business drivers of EBA and TEMS Visualization for GSM
List some of the Performance Managements tools available in OSS-RC 6
Explain the benefits of using Event Based Applications
Explain the benefits of using TEMS Visualization for GSM
2. Use R-PMO – Real-Time Performance Monitoring
Activate R-PMO reports
Monitor real time events e.g. Speech Quality, Drop rate, Handover Success etc.
Initiate REDE (Raw Event Data Export)
Create IMEISV Masks
Create user defined Reports
3. Use EBS – Event Based Statistics
Describe how to collect detailed network data not collected in STS
Explain how to view event data in a well-arranged way
4. Use RPDBI – R-PMO Database Export Interface
Describe how to enable short term storage of report event data
Explain how to view event data in a well-arranged way
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5. Use RTTM - Real Time Trace Manager
Explain how to define/activate a real time trace using the RTTM
Explain how to view a real time trace log
6. Use FFAX-BLR (Find Faulty antenna- Both Links Recording)
Explain how to activate and use FFAX-BLR
Explain how to view the monitors and see the fault indications.
Use graph window for FFAX Average RXLEV Difference for some interesting cells.
7. Use TEMS Visualization (GSM Module)
Import REDE (Raw Event Data Export) files to TEMS Visualization
Explain the benefits of using TEMS Visualization for GSM
Identify problem areas in a GSM radio access network
Analyze the causes of bad performance
Search the database for certain behavior
Optimize timeslot allocation behavior
Use the Tracing Module for GSM
Generate Distribution and Scatter graphs
Explain how to create automatic report generation
Target audience
The target audience for this course is: Network Design Engineer, Network Deployment
Engineer
Prerequisites
The participants should be familiar with:
Radio access network tuning, optimization and troubleshooting, using the OSS and with the
statistics collected in their network today.
Duration and class size
The length of the course is a 1 day course and the maximum number of participants is 8.
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Learning situation
This course is based on theoretical and practical instructor-led lessons given in both
classroom and in a technical environment using equipment and tools.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day 1
5
6
7
8
9
10
11
12
13
Topics in the course
Introduction of R-PMO and TEMS Visualization
Description of R-PMO
Description of RPDBI
Description of EBS
Description of RTTM
Description of FFAX-BLR
Cases
TEMS Visualization
Cases TEMS Visualization
Estimated time
0.5 hour
1 hour
0.25 hour
0.25 hour
0.25 hour
0.5 hour
1.5 hour
1 hour
1.5 hours
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PBC 6500 Installation and Maintenance
LZU 108 6673 R1A
Description
If you need to perform Power and Battery backup Cabinet (PBC) 6500 installation and
maitenance for +24 and -48 V DC sites, then this course is for you. The main focus of this
task-based course is in the installation and operation of the PBC 6500 solution in WCDMA
and GSM networks. You'll learn about the functionality of the units involved, the handling of
alarms and the onsite installation and configuration of the solution.
Learning objectives
On completion of this course the participants will be able to:
1
Give an overview of the PBC 6500 Solution
1.1 Detail the different product variants and cabinet solutions for GSM and WCDMA
1.2 List the main benefits of the PBC 6500
2
Detail the functional units of the PBC 6500
2.1 Explain the purpose and functionality of the System Control Unit (SCU)
2.2 Explain the purpose and functionality of the Distribution Output Unit (DOU)
2.3 Explain the purpose and functionality of the Battery Fuse Unit (BFU)
2.4 Explain the purpose and functionality of the Fan unit (FU)
2.5 Explain the purpose and functionality of the Power Supply Unit (PSU)
2.6 Explain Battery Management functionality in PBC 6500
3
Install a PBC 6500
3.1 Mount the Cabinet
3.2 Install the batteries
3.3 Switch on the PBC 6500
4
Configure the PBC 6500
4.1 Set the IP address and net mask
4.2 Set user name and password
4.3 Start the Control System
5
Handle the PBC 6500 Web Interface for Operation and Maintenance
5.1 Check the battery status
5.2 Check the System Stage of Charge (SOC)
5.3 Check the total available capacity
5.4 Define Alarm thresholds and severity levels for the PBC 6500
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Target audience
The target audience for this course is: Field Technicians
Prerequisites
The participants should :
 Be an educated or experienced technician/engineer

Have basic telecom knowledge

Have basic knowledge in English

Have basic PC knowledge
And have
 Normal physical ability

No color blindness
Duration and class size
The length of the course is 2 days and the maximum number of participants is 8.
Learning situation
The course is based on instructor-led lessons in classroom and practical exercises in a lab
environment.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
1

Give an overview of the PBC 6500 Solution
0.5 h

Detail the functional units of the PBC 6500
1h

Install a PBC 6500
4.5h

Configure the PBC 6500
2h

Handle the PBC 6500 Web Interface for Operation and
Maintenance
4h
2
Estimated time
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Remote Software Handling of AXE using Software
Management Organizer (SMO)
LZU 108 6107 R4A
Description
Do you know how to upgrade an AXE using Software Management Organizer (SMO)? The
execution of software distribution and activation has become a essential task for system
engineers. This course expands the competence of personnel working in the area of
software deployment for AXE based nodes and GSM RBSs.
The course covers the upgrade procedure of these network elements, including software
adjust and comparision of network elements, software distribution from OSS RC to the
nodes and monitoring of these jobs. To utilize the advantages of SMO in UNIX shell scripts
the non-graphical SMO interfaces are covered as well.
The execution of CP and APG40 backups including Backup Retention is explained and
covered in exercises.
Learning objectives
On completion of this course the participants will be able to:
1
1.1
1.2
1.3
1.4
1.5
1.6
Handle the SMO graphical user interface
Explain the different SMO Views
Import and unpack software packages into SMO file store
Customize the software package, in the recommended limits.
Retrieve information about software installed in different supported network elements
Execute and monitor update and upgrade jobs
Handle backup administration
2
2.1
Explain and prepare the necessary steps to update a GSM RBS
Observe the downloading and activation of GSM RBS software
3
3.1
3.2
Execute the update procedure of an AXE
Explain and prepare the necessary steps to update an AXE
Perform an AXE update
Target audience
The target audience for this course is: Network Deployment Engineers, System Technicians,
System Engineers.
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Prerequisites
The participants should be familiar with RBS Software configuration, AXE SW and the
procedure for AC-A packet implementation.
Duration and class size
The length of the course is 12 hours and the maximum number of participants is 8.
Learning situation
This course is based on theoretical and practical instructor-led lessons given in both
classroom and in a technical environment using equipment and tools, which can also be
accessed remotely.
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Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
Estimated time
1

Introduction to SMO
1,0 h

Hardware and software adjust, Handling files with SMO
1,0 h

Backup handling
1,0 h

Exercises
2,5 h
1&2

RBS Upgrades (Theory and exercises)
1, 0 h
2

Introduction to updates
1,0 h

Preparation of update
1,0 h

Download and activation of software
1,0 h

Exercises
2,5 h
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Site Integration Unit Field Maintenance
LZU 108 7281 R3A
Description
If you need to know the maintenance procedures for the Site Integration Unit (SIU) used by
the GSM RBSs to provide Abis over IP, and to perform hardware fault localization and
replacement of the unit, then this course is for you. The main focus of this course is the
maintenance procedures including the usage of the necessary documentation to handle
each process. This course also includes Ericsson‟s IP RAN R5 concepts, used for both
GSM, WCDMA and LTE systems. Due to this information related to the RBS 6000 family is
also linked to this course. BSS G10B is only applicable to SIU-02 version.
Learning objectives
On completion of this course the participants will be able to:
1
1.1
1.2
1.3
1.4
1.5
1.6
1.7
1.8
1.9
1.10
1.11
2
2.1
2.2
2.3
Identify the Ericsson IP RAN (PRAN) solution and the Site Integration Unit (SIU)
Verify the IP RAN R5 solution and check the envolved equipments within different
scenarios
Explain the Transport Sharing and Flexible Ports functionalities of the SIU
Describe the IP over E1/T1 (using ML-PPP) feature
Define the Abis Optimization feature
Define the Abis over IP feature
Define the Abis Local Connectivity feature (ALC)
Determine the new IP Header Compression (IPHC) and Circuit Emulation Service
(CES) support for the SIU
Describe the VLAN support for the SIU
Verify the “Tandem Free Operation” feature concept
Explain how Synchronization over IP works
Verify briefly the SIU within the RBS 6000.
Describe the Managed Object Model used by the STN and the main classes with their
attributes
Explain the hierarchy for the Managed Objects (MOs)
Identify the dependencies relation between MOs
List the main MO classes and Attributes
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3
3.1
3.2
3.3
3.4
3.5
3.6
List the STN alarms and describe alarm signaling, alarm details and alarm handling
prerequisites. Describe some general instructions like how to read logs, and check
Operating Instructions (OPI) documents to resolve individual alarms
Activate the Alarm Subscriptions
Interpret the Alarm Lists
Retrieve Log File
Perform the Clearing Alarms
Check Alarm Details
Recognize the STN Alarm OPI Documents
4
4.1
4.2
4.3
Describe how to perform maintenance on the Site Integration Unit
Describe the Preventive Maintenance steps
Describe how to replace the SIU
Performing Concluding Routines
Target audience
The target audience for this course is: Field Technicians.
Prerequisites
Successful completion of the following courses:
GSM BSS G10 RBS 2x06 Maintenance
or
GSM BSS G10 RBS 2X16 Maintenance
or
GSM BSS G10 RBS 2X16 Maintenance Delta
or
GSM BSS G10 RBS 2111 Maintenance
LZU 108 7486
LZU 108 7485
LZU 108 7733
LZU 108 7499
Duration and class size
The length of the course is 1 day and the maximum number of participants is 8.
Learning situation
This course is based on theoretical and practical instructor-led lessons given in both
classroom and in a technical environment using equipment and tools.
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Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
Estimated time
1
Course introduction and Pre-test
0.5 hour
Provide an overview of the IP in GSM Radio Access Network
and SIU functions
2.0 hours
SIU within RBS 6000 overview
0.25 hour
Managed Objects
1.25 hours
Alarms Handling and Maintenance Procedures
1.5 hours
Post test and Course Evaluation
0.5 hour
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Site Integration Unit Operation and Configuration
LZU 108 7280 R4A
Description
This course covers the new Ericsson IP RAN R5 (PRAN) solution for GSM, WCDMA and
LTE systems. The focus is the Site Integration Unit (SIU), used to implement many features
such as the introduction of the Abis over IP and Abis Local Connectivity Function (LCF).
Through the course the participants will understand the Managed Object Model and perform
complete SIU operation and configuration, for example, to check alarms and network
integration. Its important to know that Site Transport Node, or just STN, is the logical
representation of the SIU. So the STN is physically incarnated as the PicoSTN in RBS 2409
and as the SIU in all RBS 2000 PPC Macro and RBS 2000 Main Remote base stations as
well as in RBS 2308, 2309 and 2109. BSS G10B is only applicable to SIU-02 version.
Learning objectives
On completion of this course the participants will be able to:
1
1.1
1.2
1.3
1.4
1.5
1.6
1.7
1.8
1.9
1.10
1.11
2
2.1
2.2
2.3
Identify the Ericsson IP RAN (PRAN) solution and the Site Integration Unit (SIU)
Verify the IP RAN R5 solution and check the envolved equipments within different
scenarios
Explain the Transport Sharing and Flexible Ports functionalities of the SIU
Describe the IP over E1/T1 (using ML-PPP) feature
Define the Abis Optimization feature
Define the Abis over IP feature
Define the Abis Local Connectivity feature (ALC)
Determine the new IP Header Compression (IPHC) and Circuit Emulation Service
(CES) support for the SIU
Describe the VLAN support for the SIU
Verify the “Tandem Free Operation” feature concept
Explain how Synchronization over IP works
Verify briefly the SIU within the RBS 6000.
Describe the Managed Object Model used by the STN and the main classes with their
attributes
Explain the hierarchy for the Managed Objects (MOs)
Identify the dependencies relation between MOs
List the MO classes and their attributes
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3
3.1
3.2
3.3
3.4
3.5
3.6
3.7
Define the Configuration Management Concept of the STN and perform start-up
Demonstrate how to attach the Local Terminal
Perform STN start-up
Indicate the Generic and Subscriptions commands
Describe the Basic Configuration Management (CM)
Describe the Bulk Configuration Management
Demonstrate the Performance Management (PM)
List Software Upgrade commands
4
4.1
4.2
4.3
4.4
4.5
4.6
4.7
4.8
Integrate the SIU with an established network
Attach Local Terminals (RBS 2409 also)
Configure equipments for remote operation
Describe the use of Secondary IP in the STN
Perform Network Integration for the STN
Perform configuration of IP over E1/T1 using ML-PPP
Perform QoS, Synchronization and Performance Management configurations
Perform VLAN configuration
Set the parameters for the new RoutingTable and IProute MOs
5
5.1
5.2
5.3
5.4
5.5
5.6
List the STN alarms and describe alarm signaling, alarm details and alarm handling
prerequisites. Describe some general instructions like how to read logs, and check
Operating Instructions (OPI) documents to resolve individual alarms
Activate the Alarm Subscriptions
Interpret the Alarm Lists
Retrieve Log File
Perform the Clearing Alarms
Check Alarm Details
Recognize the STN Alarm OPI Documents
6
6.1
6.2
6.3
Describe how to perform maintenance on the Site Integration Unit
Describe the Preventive Maintenance steps
Describe how to replace the SIU
Performing Concluding Routines
Target audience
The target audience for this course is: Network Deployment Engineers, System Technicians,
System Engineers.
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Prerequisites
Successful completion of the following courses:
GSM System Survey
LZU 108 852
GPRS System Survey
LZU 108 876
OSS-RC Overview
LZU 108 6863
GSM BSS G10 RBS 2000 Basics
LZU 108 7484
IP Networking
LZU 102 397
IP in GSM Radio Access Network
LZU 108 7035
Duration and class size
The length of the course is 2 days and the maximum number of participants is 8.
Learning situation
This course is based on theoretical and practical instructor-led lessons given in both
classroom and in a technical environment using equipment and tools.
Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
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Day
Topics in the course
1
Course introduction
0.25 hour
Pre test
0.25 hour
Identify the Ericsson IP RAN (PRAN) solution and the Site
Integration Unit (SIU)
3.0 hours
Describe the Managed Object Model used by the STN and the
main classes with their attributes
1 hour
Define the Configuration Management Concept of the STN and
perform start-up
1.5 hour
Integrate the SIU with an established network
3.0 hours
List the STN alarms and describe alarm signaling, alarm details
and alarm handling prerequisites. Describe some general
instructions like how to read logs, and check Operating
Instructions (OPI) documents to resolve individual alarms
1.5 hours
Describe how to perform maintenance on the Site Integration
Unit
1 hour
2
Estimated time
Post test
0.25 hour
Course Evaluation
0.25 hour
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Using the Fault Management eXpert (FMX) Tool
LZU 108 5148 R5A
Description
This course is based upon the release of OSS-RC R6.2/3 with FMX. The student will gain
knowledge about the purpose of FMX regarding the contents, functionality and the
connection to other applications in the management system.
The course will discuss the use of FMX as a tool to develop and maintain an expert system
for intelligent alarm handling, that is, to encorporate and apply expert knowledge in rules,
which are put into FMX modules. The main focus will be on how to create, develop and
administer FMX modules and rules.
In a safe training environment, the students are guided through structured exercises, where
mistakes are turned into a learning opportunity rather than creating network problems. The
course can also be delivered on site.
Learning objectives
On completion of this course the participants will be able to:
1
Describe what FMX is:
1.1 Identify where and how FMX is used in the management system and describe the
purpose of FMX
1.2 Follow the general flow of an alarm record when FMX is used
1.3 Review the concepts of module, event discriminator and rule
2
2.1
2.2
2.3
2.4
Use the FMX user interfaces to:
Create and maintain FMX modules
Create rules in the FMX Rule editor
Test FMX modules and their contents
Work according to a workflow
3
3.1
3.2
3.3
Use the FMX for rule design:
Configure the different building blocks in the Rule Editor
Design and create one‟s own FMX alarms
Describe the concept of objects and attributes used in FMX
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4
4.1
4.2
4.3
Use advanced features in FMX to:
Administer the FMX application
Execute actions and retrieve results between FMX and a network element
Interact with the UNIX environment
Target audience
The target audience for this course is: System Engineers, System Administrators. This
audience can also include anyone who will come in contact with FMX. For example, FMX
administrators and FM users, working with a system with FMX installed, can also benefit
from this course.
Prerequisites
The participants should be familiar with Fault Management.
or
Successful completion of the following courses:
GSM or WCDMA Network Fundamentals
FAB 102 1317
or equivalent knowledge
GSM or WCDMA Network Surveillance
LZU 108 5471
or OSS-RC 6 On-Site Introduction (5 days Workshop)
LZU 108 2128
Experience in object-oriented programming is an advantage
Duration and class size
The length of the course is 4 days and the maximum number of participants is 8.
The course can also be delivered as part of the FMX Starter Package service (see 3/221 03FAP 130 509), in which case the course is 3½ days
Learning situation
This course is based on theoretical and practical instructor-led lessons given in both
classroom and in a technical environment using equipment and tools, which are accessed
remotely.
Ericsson AB
Global Services
SE-164 80 Stockholm
Telephone: +46 8 757 0000
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Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
Topics in the course
Estimated time
1
What is FMX?
1 hour
Working with FMX
3 hours
Tools for Rule Design
2 hours
2
Tools for Rule Design
6 hours
3
Tools for Rule Design
6 hours
4
Features and Rule Implementation
6 hours
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BSC IP Infrastructure Operation and Configuration
LZU 108 7766 R1A
Description
This course will introduce participants to the BSC IP infrastructure and cover operational as
well as maintenance procedures. Both forms of BSC IP infrastructure are addressed; the
BSC LAN Switch which is based on the Summit 48si IP switch from Extreme Networks and
the Network Interface - Ethernet (NWI-E) GEM-board which is based on the Summit X450A,
also from Extreme Networks. This course also includes hands-on activities with common
Extreme IP switch configuration and handling tasks.
Learning objectives
On completion of this course the participants will be able to:
1
1.1
1.2
1.3
1.4
1.5
2
Identify all aspects of the BSC IP Infrastructure
Describe the BSC IP Infrastructure
Describe the IP Hosts and IP-Based Applications used within the BSC IP
Infrastructure
Describe the BSC LAN Switch and the NWI-E GEM-board.
Identify the site integration for the BSC IP Infrastructure
List the characteristics of all connections used in the IP Switch Solution
2.3
2.4
2.5
Identify IP Switch hardware and software, interface connections and perform basic
Extreme Summit switch handling tasks
List the characteristics of the Extreme Summit 48si switch and the Summit X450A
Understand the software structure and Operating System for the BSC LAN Switch
and NWI-E
Connect to the BSC LAN Switch or NWI-E using Telnet or HyperTerminal
Execute common IP Switch commands for configuration and administration
Recognize the BSC LAN Switch or NWI-E trap messages on an overview level
3
3.1
3.2
3.3
3.4
Perform BSC LAN Switch configuration and administration tasks
Understand the BSC LAN Switch configuration at a high level
Display BSC LAN Switch settings within the BSC (Extreme Switch)
Perform BSC LAN Switch configuration (Extreme Switch)
Execute BSC LAN Switch configuration backup and restore
4
4.1
4.2
4.3
4.4
Perform NWI-E Switch configuration and administration tasks
Understand the NWI-E Switch configuration at a high level
Display NWI-E Switch settings within the BSC
Perform NWI-E Switch configuration
Execute NWI-E Switch configuration backup and restore
2.1
2.2
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5
5.1
5.2
5.3
Configure BSC IP Applications using MML CLI commands
Understand the set up and support of IP Applications within the BSC
Describe IP Applications, IPS, R-PMO, GMLOG, OEN, A-Interface over IP, SS7, Gb
over IP, Abis over IP, Mobile@Home CSU, Mobile@Home PSU, Mobile@Home
SGH, and Mobile@Home SCH
Configure and confirm IP service applications
6
6.1
6.2
6.3
Identify BSC IP Addressing
Discuss the network connections for BSC IP Connectivity
Describe the VLAN structure used for BSC IP Connectivity
Describe IP addressing for the BSC IP connectivity
Target audience
The target audience for this course is: Network Deployment Engineers, System Technicians,
System Engineers, Field Technicians, System Administrators.
Prerequisites
Successful completion of the following courses:
IP Networking
LZU 102 397
GSM BSS G10 BSC Operation and Configuration
LZU 108 7500
Duration and class size
The length of the course is 2 days and the maximum number of participants is 8.
Learning situation
This course is based on theoretical and practical instructor-led lessons given in both
classroom and in a technical environment using equipment and tools, which are accessed
remotely.
Ericsson AB
Global Services
SE-164 80 Stockholm
Telephone: +46 8 757 0000
Doc. no: 212/03819-FAP 130 506 Uae Rev: A
Commercial in Confidence
Email: asq.us@ericsson.com
www.ericsson.com/globalservices
© Ericsson AB 2010
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Time schedule
The time required always depends on the knowledge of the attending participants and the
hours stated below can be used as estimate.
Day
1
1-2
2
Topics in the course
Estimated time
Module 1: BSC LAN Switch Introduction
2 hours
Module 2: IP Switch Introduction
2 hours
Module 3: BSC LAN Switch Configuration
3 hours
Module 4: BSC NWI-E Switch Configuration
1 hour
Module 5: BSC IP Application Setup
2 hours
Module 6: BSC IP Addressing
2 hours
Ericsson AB
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Telephone: +46 8 757 0000
Doc. no: 212/03819-FAP 130 506 Uae Rev: A
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