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Customer Training Catalog Course Descriptions
Customer Training Catalog
Course Descriptions
LTE Product Technical Training
HUAWEI Learning Service
2015
COMMERCIAL IN CONFIDENCE
1
Customer Training Catalog Course Descriptions
CONTENTS
1.1
Training Course Descriptions ..................................................................................................................... 4
1.2
Principle Training Course Descriptions....................................................................................................... 7
1.2.1
OEA11 LTE Industry Briefing and Network Deployment (GUL) .......................................................... 7
1.2.2
OEA03 LTE System Overview ........................................................................................................... 8
1.2.3
OEA04 LTE Air Interface .................................................................................................................... 9
1.2.4
OEA15 LTE Protocols and Procedures ............................................................................................ 11
1.2.5
OE002 LTE-A Key Technology Overview ......................................................................................... 12
1.2.6
OEA07 TCP/IP in the Mobile World ................................................................................................. 13
1.3
RNO Training Course Descriptions .......................................................................................................... 14
1.3.1
OEO51 LTE eRAN3.0 Basic Features and Algorithms ..................................................................... 15
1.3.2
OEO61 LTE eRAN6.0 Basic Features and Algorithms ..................................................................... 17
1.3.3
OEO71 LTE eRAN7.0 Basic Features and Algorithms ..................................................................... 19
1.3.4
OEO52 LTE eRAN3.0 SON Features and Algorithms ...................................................................... 21
1.3.5
OEO62 LTE eRAN6.0 SON Features and Algorithms ...................................................................... 23
1.3.6
OEO72 LTE eRAN7.0 SON Features and Algorithms ...................................................................... 25
1.3.7
OEO53 LTE eRAN3.0 TDD Specific Features and Algorithms......................................................... 27
1.3.8
OEO63 LTE eRAN6.0 TDD Specific Features and Algorithms ......................................................... 28
1.3.9
OEO73 LTE eRAN7.0 TDD Specific Features and Algorithms ......................................................... 29
1.3.10
OEO54 LTE eRAN3.0 Performance Improving Features and Algorithms ........................................ 30
1.3.11
OEO64 LTE eRAN6.0 Performance Improving Features and Algorithms ........................................ 32
1.3.12
OEO74 LTE eRAN7.0 Performance Improving Features and Algorithms ........................................ 34
1.3.13
OEO57 LTE eRAN3.0 Enhanced Features ...................................................................................... 35
1.3.14
OEO56 LTE eRAN3.0 New Features ............................................................................................... 36
1.3.15
OEO67 LTE eRAN6.0 Enhanced Features ...................................................................................... 37
1.3.16
OEO66 LTE eRAN6.0 New Features ............................................................................................... 38
1.3.17
OEO77 LTE eRAN7.0 Enhanced Features ...................................................................................... 39
1.3.18
OEO76 LTE eRAN7.0 New Features ............................................................................................... 40
1.3.19
OEO01 LTE Network Tuning ............................................................................................................ 41
1.3.20
OEO03 LTE Performance Management .......................................................................................... 42
1.3.21
OEO06 LTE Radio Network Optimize .............................................................................................. 43
1.3.22
OE025 LTE Interoperability .............................................................................................................. 44
1.4
RNP Training Course Descriptions ........................................................................................................... 45
1.4.1
OEP01 LTE Radio Network Design ................................................................................................. 45
1.4.2
OEP02 LTE Access Transport Network Dimensioning ..................................................................... 46
1.5
Product Training Course Descriptions ...................................................................................................... 48
1.5.1
OEB50 eNodeB V100R005 Product Description ............................................................................. 48
1.5.2
OEB60 eNodeB V100R006 Product Description ............................................................................. 49
1.5.3
OEB70 eNodeB V100R007 Product Description ............................................................................. 50
1.5.4
OEB51 eNodeB V100R005 Local Commissioning........................................................................... 51
1.5.5
OEB61 eNodeB V100R006 Local Commissioning........................................................................... 52
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Customer Training Catalog Course Descriptions
1.5.6
OEB71 eNodeB V100R007 Local Commissioning........................................................................... 53
1.5.7
OEB52 eNodeB V100R005 Field Maintenance ............................................................................... 54
1.5.8
OEB62 eNodeB V100R006 Field Maintenance ............................................................................... 55
1.5.9
OEB72 eNodeB V100R007 Field Maintenance ............................................................................... 56
1.5.10
OEB53 eNodeB V100R005 Remote Commissioning....................................................................... 57
1.5.11
OEB63 eNodeB V100R006 Equipment Commissioning .................................................................. 58
1.5.12
OEB73 eNodeB V100R007 Equipment Commissioning .................................................................. 59
1.5.13
OEB54 eNodeB V100R005 Operation ............................................................................................. 60
1.5.14
OEB64 eNodeB V100R006 Operation ............................................................................................. 61
1.5.15
OEB74 eNodeB V100R007 Operation ............................................................................................. 62
1.5.16
OEB55 eNodeB V100R005 Initial Configuration .............................................................................. 64
1.5.17
OEB65 eNodeB V100R006 Initial Configuration .............................................................................. 65
1.5.18
OEB75 eNodeB V100R007 Initial Configuration .............................................................................. 66
1.5.19
OEB56 eNodeB V100R005 Troubleshooting ................................................................................... 67
1.5.20
OEB66 eNodeB V100R006 Troubleshooting ................................................................................... 68
1.5.21
OEB76 eNodeB V100R007 Troubleshooting ................................................................................... 69
1.5.22
NA eNodeB LTE V100R007 Troubleshooting of Transmission ...................................................... 70
1.5.23
NA eNodeB LTE V100R007 Troubleshooting of Antenna & Feeder System ................................. 71
1.5.24
OEB57 eNodeB V100R005 Reconfiguration ................................................................................... 72
1.5.25
OEB67 eNodeB V100R006 Reconfiguration ................................................................................... 73
1.5.26
OEB77 eNodeB V100R007 Reconfiguration ................................................................................... 74
1.5.27
OEB58 LTE eRAN3.0 O&M Enhancement ...................................................................................... 75
1.5.28
OEB68 LTE eRAN6.0 Product Delta ................................................................................................ 76
1.5.29
OEB78 LTE eRAN7.0 Product Delta ................................................................................................ 77
1.5.30
OET58 LTE eRAN3.0 Transmission Features and Algorithms ......................................................... 78
1.5.31
OET68 LTE eRAN6.0 Transmission Features and Algorithms ......................................................... 79
1.5.32
OET78 LTE eRAN7.0 Transmission Features and Algorithms ......................................................... 80
1.6
WBT ......................................................................................................................................................... 81
1.6.1
OEA00 LTE SAE System Overview(WBT) ....................................................................................... 81
1.6.2
OEA01 LTE in a Nutshell (WBT) ...................................................................................................... 82
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1.1 Training Course Descriptions
LTE Product Technical Training Training Courses are designed as follows:
Duration
Code
Training
Courses
Level
(working
days)
Principle Training
Training
Class
Location
Size
Courses
OEA11
LTE Industry Briefing and Network Deployment (GUL)
Ⅱ
1
6 ~ 12
OEA03
LTE System Overview
Ⅰ
1
6 ~ 12
OEA04
LTE Air Interface
Ⅱ
2
6 ~ 12
OEA15
LTE Protocols and Procedures
Ⅱ
2
6 ~ 12
OE002
LTE-A Key Technology Overview
Ⅱ
0.5
6 ~ 12
OEA07
TCP/IP in the Mobile World
Ⅱ
1
6 ~ 12
RNO Training
Courses
OEO51
LTE eRAN3.0 Basic Features and Algorithms
Ⅲ
3.5
6 ~ 12
OEO61
LTE eRAN6.0 Basic Features and Algorithms
Ⅲ
4
6 ~ 12
OEO71
LTE eRAN7.0 Basic Features and Algorithms
Ⅲ
4
6 ~ 12
OEO52
LTE eRAN3.0 SON Features and Algorithms
Ⅲ
1
6 ~ 12
OEO62
LTE eRAN6.0 SON Features and Algorithms
Ⅲ
1
6 ~ 12
OEO72
LTE eRAN7.0 SON Features and Algorithms
Ⅲ
1
6 ~ 12
OEO53
LTE eRAN3.0 TDD Specific Features and Algorithms
Ⅲ
0.5
6 ~ 12
OEO63
LTE eRAN6.0 TDD Specific Features and Algorithms
Ⅲ
0.5
6 ~ 12
OEO73
LTE eRAN7.0 TDD Specific Features and Algorithms
Ⅲ
0.5
6 ~ 12
Ⅲ
2
6 ~ 12
Ⅲ
2
6 ~ 12
Ⅲ
2
6 ~ 12
OEO54
OEO64
OEO74
LTE eRAN3.0 Performance Improving Features and
Algorithms
LTE eRAN6.0 Performance Improving Features and
Algorithms
LTE eRAN7.0 Performance Improving Features and
Algorithms
OEO57
LTE eRAN3.0 Enhanced Features
Ⅲ
0.5
6 ~ 12
OEO56
LTE eRAN3.0 New Features
Ⅲ
0.5
6 ~ 12
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OEO67
LTE eRAN6.0 Enhanced Features
Ⅲ
0.5
6 ~ 12
OEO66
LTE eRAN6.0 New Features
Ⅲ
0.5
6 ~ 12
OEO77
LTE eRAN7.0 Enhanced Features
Ⅲ
0.5
6 ~ 12
OEO76
LTE eRAN7.0 New Features
Ⅲ
0.5
6 ~ 12
OEO01
LTE Network Tuning
Ⅲ
1
6 ~ 12
OEO03
LTE Performance Management
Ⅲ
1
6 ~ 12
OEO06
LTE Radio Network Optimize
Ⅳ
2
6 ~ 12
OE025
LTE Interoperability
Ⅳ
1
6 ~ 12
RNP Training
Courses
OEP01
LTE Radio Network Design
Ⅲ
1.67
6 ~ 12
OEP02
LTE Access Transport Network Dimensioning
Ⅲ
0.33
6 ~ 12
Product Training
Courses
OEB50
eNodeB V100R005 Product Description
Ⅰ
0.5
6 ~ 12
OEB60
eNodeB V100R006 Product Description
Ⅰ
0.5
6 ~ 12
OEB70
eNodeB V100R007 Product Description
Ⅰ
0.5
6 ~ 12
OEB51
eNodeB V100R005 Local Commissioning
Ⅰ
1
6 ~ 12
OEB61
eNodeB V100R006 Local Commissioning
Ⅰ
1
6 ~ 12
OEB71
eNodeB V100R007 Local Commissioning
Ⅰ
1
6 ~ 12
OEB52
eNodeB V100R005 Field Maintenance
Ⅰ
0.5
6 ~ 12
OEB62
eNodeB V100R006 Field Maintenance
Ⅰ
0.5
6 ~ 12
OEB72
eNodeB V100R007 Field Maintenance
Ⅰ
0.5
6 ~ 12
OEB63
eNodeB V100R006 Equipment Commissioning
Ⅱ
0.5
6 ~ 12
OEB73
eNodeB V100R007 Equipment Commissioning
Ⅱ
0.5
6 ~ 12
OEB54
eNodeB V100R005 Operation
Ⅱ
1
6 ~ 12
OEB64
eNodeB V100R006 Operation
Ⅱ
1
6 ~ 12
OEB74
eNodeB V100R007 Operation
Ⅱ
1
6 ~ 12
OEB55
eNodeB V100R005 Initial Configuration
Ⅱ
1
6 ~ 12
OEB65
eNodeB V100R006 Initial Configuration
Ⅱ
3
6 ~ 12
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OEB75
eNodeB V100R007 Initial Configuration
Ⅱ
3
6 ~ 12
OEB56
eNodeB V100R005 Troubleshooting
Ⅱ
1
6 ~ 12
OEB66
eNodeB V100R006 Troubleshooting
Ⅱ
2
6 ~ 12
OEB76
eNodeB V100R007 Troubleshooting
Ⅱ
2
6 ~ 12
eNodeB LTE V100R007 Troubleshooting of Transmission
Ⅲ
0.5
6 ~ 12
Ⅲ
1.5
6 ~ 12
NA
NA
eNodeB LTE V100R007 Troubleshooting of Antenna &
Feeder System
OEB57
eNodeB V100R005 Reconfiguration
Ⅱ
1.5
6 ~ 12
OEB67
eNodeB V100R006 Reconfiguration
Ⅱ
1
6 ~ 12
OEB77
eNodeB V100R007 Reconfiguration
Ⅱ
2
6 ~ 12
OEB58
LTE eRAN3.0 O&M Enhancement
Ⅲ
0.5
6 ~ 12
OEB68
LTE eRAN6.0 Product Delta
Ⅲ
1
6 ~ 12
OEB78
LTE eRAN7.0 Product Delta
Ⅲ
1
6 ~ 12
OET58
LTE eRAN3.0 Transmission Features and Algorithms
Ⅲ
1
6 ~ 12
OET68
LTE eRAN6.0 Transmission Features and Algorithms
Ⅲ
1
6 ~ 12
OET78
LTE eRAN7.0 Transmission Features and Algorithms
Ⅲ
1.5
6 ~ 12
OEA00
LTE SAE System Overview(WBT)
Ⅰ
4hours
6 ~ 12
OEA01
LTE in a Nutshell (WBT)
Ⅰ
0.5hour
6 ~ 12
WBT
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1.2 Principle Training Course Descriptions
1.2.1
OEA11 LTE Industry Briefing and Network Deployment (GUL)
Objectives
Content
On completion of this course, the participants will
 Incentive of LTE
be able to:
 Services of LTE
 Outline Incentive of LTE
 LTE Key Technologies
 Describe various services and trends provided
 Evolution of Radio Technologies
by LTE
 LTE Network Architecture
 Overview evolution of radio technologies
 OFDM Technologies
 Describe network architecture of
 MIMO Technologies
EPS(E-UTRAN and EPC)
 SON Technologies
 Explain key technologies of LTE, such as
OFDM/SC-FDM, MIMO
 LTE Industry Chain Development
 LTE Radio Network Evolution Deployment
 Brief LTE industry chain development
 Outline LTE overall network evolution
deployment scenario such as interoperability
strategy, voice strategy etc.
 LTE Core Network Evolution Deployment
 LTE Transmission Network Evolution
Deployment
Training Methods
Target Audience
Lectures
Business Developer
Duration
Fundamentals
1 working day
Prerequisites
 A general knowledge in cellular systems and
radio technology
Class Size
Min 6, max 12
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1.2.2
OEA03 LTE System Overview
Service Engineer
Objectives
Service Design Engineer
On completion of this course, the participants will
be able to:
 Describe the evolution of cellular networks
 Summarize the evolution of 3GPP releases
 Explain the logical architecture of EPS
Service Planning Engineer
System Engineer
Prerequisites
 A general knowledge in cellular systems and
(E-UTRAN and EPC)
radio technology
 Give an overview of the interfaces in EPS
Content
 Describe the Evolved Packet Core (EPC)
 Describe the role of the MME and the S-GW
 Describe the S1, X2 and radio-interface and
 Network Architecture
 Evolution of Cellular Networks
 3GPP Releases
their protocol stacks
 Describe the radio interface techniques used in
 E-UTRAN Architecture
 E-UTRAN Interfaces and Protocols
uplink and downlink
 Describe the channel structure of the radio
 EPC Architecture
 EPC Interfaces and Protocols
interface
 LTE Air Interface Principles
 Describe the time-domai and
Frequency-domain structure in the radio
 Radio Interface Techniques
interface in UL and DL for both FDD and TDD
 Principles of OFDM
mode
 LTE Channel Structures
 Have a good understanding of the OFDM
principle, signal generation and processing
 LTE Frame Structure
 Downlink OFDMA
 Detail the reference symbols in DL
 Uplink SC-FDMA
 Describe MIMO technology
 Multiple Input Multiple Output
 Have a good understanding of the SC-FDMA
 Multimedia Broadcast Multicast Service
principle, signal generation and processing
 eNodeB Product Overview
 Describe Huawei eNodeB Family
 The Huawei eNodeB family
 Describe Huawei LTE products and application
 Products and application scenarios
scenarios
Operation and MaintenanceTraining Methods
 Describe Huawei LTE products Operation and
Maintenance System
Target Audience
Field Technician
Service Technician
System Technician
Lectures
Duration
1 working day
Class Size
Min 6, max 12
Network Deployment Engineer
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1.2.3
OEA04 LTE Air Interface
Objectives
Target Audience
On completion of this course, the participants will
Service Engineer
be able to:
Service Design Engineer
 Describe the evolution of cellular networks
Network Design Engineer
 Summarize the evolution of 3GPP releases
Prerequisites
 Describe the radio interface techniques
 Explain the difference between the FDD and
 Attendees should have a general knowledge in
cellular systems and radio technology.
TDD mode
 Describe the flexible spectrum usage
Content
 Outline the concepts of channel coding
 The evolution of cellular networks
 Describe the principle for OFDM
 The evolution of 3GPP releases
 Have a good understanding of the
 Radio interface techniques
OFDMA/SC-FDMA principle, signal generation
 Difference between the FDD and TDD mode
and processing
 Flexible spectrum usage
 Explain the pros and cons with OFDMA and
SC-FDMA
 Outline the radio interface protocols
 Detail the time-domain and frequency-domain
structure in the radio interface in UL and DL for
both FDD and TDD mode
 Detail the channel structure of the radio
interface
 Detail the frame structure of the radio interface
 Describe the uplink/downlink physical signals
 Detail the uplink/downlink control signaling and
formats
 Detail the uplink/downlink reference symbols
 Detail the uplink/downlink transmission
technique
 Principle for OFDM
 OFDMA/SC-FDMA principle, signal generation
and processing
 Pros and cons with OFDMA and SC-FDMA
 Radio interface protocols
 Time-domain and frequency-domain structure
in the radio interface in UL and DL for both FDD
and TDD mode
 Channel structure of the radio interface
 Frame structure of the radio interface
 Uplink/downlink physical signals
 Uplink/downlink control signaling and formats
 Uplink/downlink reference symbols
 Uplink/downlink transmission technique
 Detail the paging procedures
 The paging procedure
 Explain the cell search procedure
 Detail the random access procedure
 Describe the uplink/downlink power control
 Explain HARQ
 Describe the concepts of layers, channel rank,
spatial multiplexing, open and closed loop
spatial multiplexing, TX diversity, beamforming,
SU-MIMO and MU-MIMO
 Concepts of channel coding
 The cell search procedure
 The random access procedure
 Uplink/downlink power controls
 HARQ
 Concepts of layers, channel rank, spatial
multiplexing, open and closed loop spatial
multiplexing, TX diversity, beamforming,
SU-MIMO and MU-MIMO
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Training Methods
Lectures
Class Size
Min 6, max 12
Duration
2 working days
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1.2.4
OEA15 LTE Protocols and Procedures
 EPS network element
Objectives
 EPS interfaces
On completion of this course, the participants will
be able to:
 Describe the evolution of cellular networks
 Explain the main functions of EPS network
element
 The main functions of Non Access
Stratum(NAS), Radio Resource Control (RRC),
Packet Data Convergence Protocol (PDCP)
Radio Link Control (RLC), Medium Access
Control (MAC), the physical layer and their
 List the interfaces in EPS and the protocol of
EPS interfaces
relations
 EPS Bearer Services and eUTRA Radio Bearer
 Explain how signaling takes place between the
UE and the EPC
 The concept, principle and signaling procedure
of UE access network
 Brief the main functions of Non Access
Stratum(NAS), Radio Resource Control (RRC),
Packet Data Convergence Protocol (PDCP)
Radio Link Control (RLC), Medium Access
Control (MAC), the physical layer and their
relations
 Explain the purpose of EPS Bearer Services
and eUTRA Radio Bearer
 The concept, principle and signaling procedure
of default bearer
 The concept, principle and signaling procedure
of special bearer
 The concept, principle and signaling procedure
of paging
 The concept, principle and signaling procedure
of TAU
Explain the concept, principle and signaling flow of
typical procedure, such as UE access
procedure, paging, TAU, handover etc. Target
 The concept, principle and signaling procedure
of Handover
The concept, principle and signaling procedure of
Audience
detachTraining Methods
Service Engineer
Lectures, Hands-on exerciseL, Demo
Service Design Engineer
Duration
Network Design Engineer
2 working days
Prerequisites
Class Size
 Successful completion of the following courses:
 LTE Air Interface
Min 6, max 12
Content
 The evolution of cellular networks
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1.2.5
OE002 LTE-A Key Technology Overview
Objectives
Content
On completion of this course, the participants will
 LTE-A requirements and 3GPP schedule
be able to:
 Benefit and principle of CA(Carrier
 Describe LTE Describe -A requirements and
Aggregation)
 Benefit and principle of high order MIMO
3GPP schedule
 Describe benefit and principle of LTE-A key
technology
 Benefit and principle of CoMP (Coordinated
Multi-Point transmission/reception technology)
 Huawei LTE-A cases study
 Benefit and principle of eICIC (Inter-Cell
Interference Coordination)
Target Audience
 HetNet concept introduction
Service Engineer
 LTE-A application cases
Service Design Engineer
Training Methods
Network Design Engineer
Lectures
Prerequisites
 Successful completion of the following courses:
 LTE System Overview
Duration
0.5 working day
 LTE Air Interface
Class Size
 LTE eRAN3.0 Features and Algorithms
Min 6, max 12
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1.2.6
OEA07 TCP/IP in the Mobile World
Service Planning Engineer
Objectives
Service Design Engineer
On completion of this course, the participants will
be able to:
 Learn about IP protocol release specifications
and common RFC standards
Network Design Engineer
Prerequisites
 A general knowledge in cellular systems and
 Learn about common IP RAN concepts such as
the MSTP and PTN
radio technology
Content
 Understand the TCP/IP protocol structure, and
learn common technologies such as the VLAN
 IP protocol origin
and DSCP
 IP network topology structure
 Learn the protocol stack composition on IP
 OSI model and TCP/IP protocol structure
 IP address Introduction
RAN interfaces
 Learn the IP components, and understand the
data exchange process
 IP subnet division and Exchange Foundation
IP ATM, TDM comparisonTraining Methods
 Be familiar with common IP RAN devices and
Lectures
maintenance applications
 Learn about differences among the IP, ATM,
and TDM technologies, and problems caused
by IP-based networking
Duration
1 working day
Class Size
Target Audience
Min 6, max 12
System Engineer
Service Engineer
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1.3 RNO Training Course
Descriptions
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1.3.1
OEO51 LTE eRAN3.0 Basic Features and Algorithms
 Describe PDCCH/PUCCH resource
Objectives
management feature
On completion of this course, the participants will
be able to:
 parameters
 Outline LTE voice solutions
 Outline idle mode
 Outline CS Fallback
 Describe PLMN selection
 Describe cell selection and cell reselection
 Config cell selection
 Describe CS Fallback procedure
 Draw network architecture for CS Fallback to
UTRAN/GERAN
 Config cell reselection measurement
 Describe system information reception
 Config SIB
 Describe CS Fallback to UTRAN/GERAN
 Select CS Fallback mechanisms
 Perform configuration on eNodeB for CS
 Describe tracking area registration
Fallback
 Describe paging monitoring procedure
 Outline mobility management
Target Audience
 Describe intra-frequency handover
System Engineer
 Describe inter-frequency handover
Service Engineer
 Describe inter-rat handover
Service Planning Engineer
 Set measurement configuration
Service Design Engineer
 Set handover related parameters
Network Design Engineer
Prerequisites
 Outline power control
 Describe downlink power control
 Successful completion of the following courses:
 Describe uplink power control
 LTE Air Interface
 Set initial power
 LTE Protocols and Procedures
 Outline scheduling
Content
 Describe downlink scheduling
 Describe uplink scheduling
 Idle Mode Overview
 Describe scheduling deployment strategy
 PLMN selection
 Describe basic principles of QoS management
 Cell selection
 Describe QoS management policies
 Cell reselection
 Describe QoS management methods
 System information reception
 List when to use QoS management
 Tracking area registration
 Outline MIMO feature
 Paging monitoring procedure
 Describe multiple-antenna reception/
 Mobility Management Overview
 Intra-frequency Handover
transmission MIMO
 Describe multiple-antenna transmission MIMO
 Inter-frequency Handover
 Describe adaptive mode selection and
 Inter-RAT Handover
switching of MIMO
 Set adaptive MIMO
 Power control overview
 Downlink power control
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 Uplink power control
 LTE Voice Solution
 Overview of Scheduling
 CS Fallback Procedure
 Downlink Scheduling
 Network Architecture for CS Fallback to
 Uplink Scheduling
UTRAN/GERAN
 Scheduling Deployment Strategy
 Combined EPS/IMSI Attach Procedure
 Overview of QoS Management
 CS Fallback to UTRAN
 QoS Management Policies
 CS Fallback Based on PS Redirection(UMTS)
 QoS Management Methods
 CS Fallback Based on PS Handover(UMTS)
 When to Use QoS
 CS Fallback to GERAN
 MIMO feature overview
 Decisions and Configuration of eNodeB in CS
Fallback
 Multiple-Antenna reception MIMO
 Multiple-Antenna transmission MIMO
 Adaptive mode selection and switching
 PDCCH resource management
 PDCCH symbols adaptively adjusted
 CCE aggregation adaptively adjusted
 DL/UL CCE ratio adaptively adjusted
 PUCCH resource management
 Selection of CS Fallback Mechanisms
Training Methods
Lectures
Duration
3.5 working days
Class Size
 Adaptive SR period adjustment
 Adaptive PUCCH resource adjustment
Min 6, max 12
 CS Fallback Overview
COMMERCIAL IN CONFIDENCE
16
1.3.2
OEO61 LTE eRAN6.0 Basic Features and Algorithms
 Describe PDCCH/PUCCH resource
Objectives
management feature
On completion of this course, the participants will
be able to:
 parameters
 Outline CS Fallback
 Outline idle mode
 Describe CS Fallback procedure
 Describe PLMN selection
 Describe cell selection and cell reselection
 Config cell selection
 Draw network architecture for CS Fallback to
UTRAN/GERAN
 Describe CS Fallback to UTRAN/GERAN
 Config cell reselection measurement
 Describe system information reception
 Config SIB
 Select CS Fallback mechanisms
 Perform configuration on eNodeB for CS
Fallback
 Describe tracking area registration
 Outline CA Basic Concepts and Principles
 Describe paging monitoring procedure
 Outline mobility management
 Describe CA Feature Benefit and Influence
 Perform CA Feature Deployment and
 Describe intra-frequency handover
Configuration
 Describe inter-frequency handover
 Outline DRX basic concepts
 Describe inter-rat handover
 Describe DRX realization principles
 Set measurement configuration
Target Audience
 Set handover related parameters
 Outline power control
System Engineer
 Describe downlink power control
Service Engineer
 Describe uplink power control
Service Planning Engineer
 Set initial power
Service Design Engineer
 Outline scheduling
Network Design Engineer
Prerequisites
 Describe downlink scheduling
 Describe uplink scheduling
 Successful completion of the following courses:
 Describe scheduling deployment strategy
 Describe basic principles of QoS management
 Describe QoS management policies
 Describe QoS management methods
 LTE Air Interface
 LTE Protocols and Procedures
Content
 List when to use QoS management
 Idle Mode Overview
 Outline MIMO feature
 PLMN selection
 Describe multiple-antenna reception/
 Cell selection
 Cell reselection
transmission MIMO
 Describe multiple-antenna transmission MIMO
 System information reception
 Describe adaptive mode selection and
 Tracking area registration
switching of MIMO
 Set adaptive MIMO
 Paging monitoring procedure
 Mobility Management Overview
COMMERCIAL IN CONFIDENCE
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 Intra-frequency Handover
 CS Fallback Procedure
 Inter-frequency Handover
 Network Architecture for CS Fallback to
 Inter-RAT Handover
UTRAN/GERAN
 Power control overview
 Combined EPS/IMSI Attach Procedure
 Downlink power control
 CS Fallback to UTRAN
 Uplink power control
 CS Fallback Based on PS Redirection(UMTS)
 Overview of Scheduling
 CS Fallback Based on PS Handover(UMTS)
 Downlink Scheduling
 CS Fallback to GERAN
 Uplink Scheduling
 Decisions and Configuration of eNodeB in CS
Fallback
 Scheduling Deployment Strategy
 Overview of QoS Management
 Selection of CS Fallback Mechanisms
 QoS Management Policies
 CA Basic Concepts and Principles
 QoS Management Methods
 CA Feature Benefit and Influence
 When to Use QoS
 CA Feature Deployment and Configuration
 MIMO feature overview
 DRX Basic Concepts and Principles
 Multiple-Antenna reception MIMO
 DRX Feature Benefit and Influence
 Multiple-Antenna transmission MIMO
 DRX in RRC_CONNECTED Mode
 Adaptive mode selection and switching
 Dynamic DRX
 PDCCH resource management
 High-Mobility-Triggered Idle Mode
 PDCCH symbols adaptively adjusted
 CCE aggregation adaptively adjusted
 DL/UL CCE ratio adaptively adjusted
 PUCCH resource management
 Adaptive SR period adjustment
 LTE Voice Solution
Lectures
Duration
4 working days
 Adaptive PUCCH resource adjustment
 CS Fallback Overview
Training Methods
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE
18
1.3.3
OEO71 LTE eRAN7.0 Basic Features and Algorithms
management feature
Objectives
 parameters
On completion of this course, the participants will
be able to:
 Outline CS Fallback
 Describe CS Fallback procedure
 Outline idle mode
 Draw network architecture for CS Fallback to
 Describe PLMN selection
 Describe cell selection and cell reselection
 Config cell selection
 Config cell reselection measurement
 Describe system information reception
 Config SIB
UTRAN/GERAN
 Describe CS Fallback to UTRAN/GERAN
 Select CS Fallback mechanisms
 Perform configuration on eNodeB for CS
Fallback
 Outline CA Basic Concepts and Principles
 Describe tracking area registration
 Describe CA Feature Benefit and Influence
 Describe paging monitoring procedure
 Outline mobility management
 Perform CA Feature Deployment and
Configuration
 Describe intra-frequency handover
 Outline DRX basic concepts
 Describe inter-frequency handover
 Describe DRX realization principles
 Describe inter-rat handover
Target Audience
 Set measurement configuration
 Set handover related parameters
System Engineer
 Outline power control
Service Engineer
 Describe downlink power control
Service Planning Engineer
 Describe uplink power control
Service Design Engineer
 Set initial power
Network Design Engineer
Prerequisites
 Outline scheduling
 Describe downlink scheduling
 Successful completion of the following courses:
 Describe uplink scheduling
 Describe scheduling deployment strategy
 Describe basic principles of QoS management
 Describe QoS management policies
 LTE Air Interface
 LTE Protocols and Procedures
Content
 Describe QoS management methods
 Idle Mode Overview
 List when to use QoS management
 PLMN selection
 Outline MIMO feature
 Cell selection
 Describe multiple-antenna reception/
 Cell reselection
 System information reception
transmission MIMO
 Describe multiple-antenna transmission MIMO
 Tracking area registration
 Describe adaptive mode selection and
 Paging monitoring procedure
 Mobility Management Overview
switching of MIMO
 Set adaptive MIMO
 Intra-frequency Handover
 Describe PDCCH/PUCCH resource
 Inter-frequency Handover
COMMERCIAL IN CONFIDENCE
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 Inter-RAT Handover
 Dynamic DRX
 Power control overview
 High-Mobility-Triggered Idle Mode
 Downlink power control
Training Methods
 Uplink power control
Lectures
 Overview of Scheduling
Duration
 Downlink Scheduling
 Uplink Scheduling
4 working days
 Scheduling Deployment Strategy
Class Size
 Overview of QoS Management
Min 6, max 12
 QoS Management Policies
 QoS Management Methods
 When to Use QoS
 MIMO feature overview
 Multiple-Antenna reception MIMO
 Multiple-Antenna transmission MIMO
 Adaptive mode selection and switching
 PDCCH resource management
 PDCCH symbols adaptively adjusted
 CCE aggregation adaptively adjusted
 DL/UL CCE ratio adaptively adjusted
 PUCCH resource management
 Adaptive SR period adjustment
 Adaptive PUCCH resource adjustment
 CS Fallback Overview
 LTE Voice Solution
 CS Fallback Procedure
 Network Architecture for CS Fallback to
UTRAN/GERAN
 Combined EPS/IMSI Attach Procedure
 CS Fallback to UTRAN
 CS Fallback Based on PS Redirection(UMTS)
 CS Fallback Based on PS Handover(UMTS)
 CS Fallback to GERAN
 Decisions and Configuration of eNodeB in CS
Fallback
 Selection of CS Fallback Mechanisms
 CA Basic Concepts and Principles
 CA Feature Benefit and Influence
 CA Feature Deployment and Configuration
 DRX Basic Concepts and Principles
 DRX Feature Benefit and Influence
 DRX in RRC_CONNECTED Mode
COMMERCIAL IN CONFIDENCE
20
1.3.4
OEO52 LTE eRAN3.0 SON Features and Algorithms
Objectives
Prerequisites
On completion of this course, the participants will
 Successful completion of the following courses:
be able to:
 LTE Air Interface
 Outline ANR overview
 LTE Protocols and Procedures
 Describe intra-RAT ANR management
 LTE eRAN3.0 Basic Features and Algorithms
 Describe inter-RAT ANR management
Content
 Switch on ANR
 Describe the SON benefits
 Set ANR related parameters
 Outline the SON functions
 Outline MRO processing flow
 List classification of intra-RAT MRO
 Describe intra-RAT MRO management
 Describe inter-RAT MRO management
 Check SON logs in M2000
 Intra-RAT ANR Management
 Outline PCI conflict detection
 Inter-RAT ANR Management
 self-optimization overview
 MRO Processing Flow
 Describe PCI conflict detection
 Describe PCI self-optimization in M2000
 Classification of Intra-RAT MRO
 Intra-RAT MRO Management
 Observe PCI conflict information
 Inter-RAT MRO Management
 Set PCI conflict detection
 PCI Conflict Detection
 Outline RACH optimization
 Describe prerequisites for RACH optimization
 Describe zero correlation zone configuration
 Describe contention-based vs. contention-free
 Self-Optimization Overview
 PCI Conflict Detection
 PCI Self-Optimization in M2000
 Overview of RACH Optimization
random access
 Describe RACH resource adjustment
 Perform MML to deploy RACH optimization
 Describe impact of RACH optimization
 Prerequisites for RACH Optimization
 Zero Correlation Zone Configuration
 Contention-Based vs. Contention-Free
Random Access
 Outline cell outage detection
 Describe sleeping cell detection techniques
 Describe cell outage detection techniques
Target Audience
 Enable the SON switches in M2000
 ANR Overview
 Set MRO to optimize handover
 Deploy cell outage detection
 Outline SON functions in M2000
 RACH Resource Adjustment
 Dedicated Preamble Group Adjustment
 Multiplexing of Dedicated Preambles
 PRACH Configuration Index Adjustment
 Adaptive Backoff
System Engineer
 MML screenshots
Service Engineer
 Impact of RACH Optimization
Service Planning Engineer
 Overview of Cell Outage Detection
Service Design Engineer
 Sleeping Cell Detection Techniques
Network Design Engineer
 Cell Outage Detection Techniques
COMMERCIAL IN CONFIDENCE
21
 Engineering Guidelines
Training Methods
Lectures
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE
22
1.3.5
OEO62 LTE eRAN6.0 SON Features and Algorithms
Objectives
Prerequisites
On completion of this course, the participants will
 Successful completion of the following courses:
be able to:
 LTE Air Interface
 Outline ANR overview
 LTE Protocols and Procedures
 Describe intra-RAT ANR management
 LTE eRAN6.0 Basic Features and Algorithms
 Describe inter-RAT ANR management
Content
 Switch on ANR
 Describe the SON benefits
 Set ANR related parameters
 Outline the SON functions
 Outline MRO processing flow
 List classification of intra-RAT MRO
 Describe intra-RAT MRO management
 Describe inter-RAT MRO management
 Check SON logs in M2000
 Intra-RAT ANR Management
 Outline PCI conflict detection
 Inter-RAT ANR Management
 self-optimization overview
 MRO Processing Flow
 Describe PCI conflict detection
 Describe PCI self-optimization in M2000
 Classification of Intra-RAT MRO
 Intra-RAT MRO Management
 Observe PCI conflict information
 Inter-RAT MRO Management
 Set PCI conflict detection
 PCI Conflict Detection
 Outline RACH optimization
 Describe prerequisites for RACH optimization
 Describe zero correlation zone configuration
 Describe contention-based vs. contention-free
 Self-Optimization Overview
 PCI Conflict Detection
 PCI Self-Optimization in M2000
 Overview of RACH Optimization
random access
 Describe RACH resource adjustment
 Perform MML to deploy RACH optimization
 Describe impact of RACH optimization
 Prerequisites for RACH Optimization
 Zero Correlation Zone Configuration
 Contention-Based vs. Contention-Free
Random Access
 Outline cell outage detection
 Describe sleeping cell detection techniques
 Describe cell outage detection techniques
Target Audience
 Enable the SON switches in M2000
 ANR Overview
 Set MRO to optimize handover
 Deploy cell outage detection
 Outline SON functions in M2000
 RACH Resource Adjustment
 Dedicated Preamble Group Adjustment
 Multiplexing of Dedicated Preambles
 PRACH Configuration Index Adjustment
 Adaptive Backoff
System Engineer
 MML screenshots
Service Engineer
 Impact of RACH Optimization
Service Planning Engineer
 Overview of Cell Outage Detection
Service Design Engineer
 Sleeping Cell Detection Techniques
Network Design Engineer
 Cell Outage Detection Techniques
COMMERCIAL IN CONFIDENCE
23
 Engineering Guidelines
Training Methods
Lectures
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE
24
1.3.6
OEO72 LTE eRAN7.0 SON Features and Algorithms
Objectives
Prerequisites
On completion of this course, the participants will
 Successful completion of the following courses:
be able to:
 LTE Air Interface
 Outline ANR overview
 LTE Protocols and Procedures
 Describe intra-RAT ANR management
 LTE eRAN7.0 Basic Features and Algorithms
 Describe inter-RAT ANR management
Content
 Switch on ANR
 Describe the SON benefits
 Set ANR related parameters
 Outline the SON functions
 Outline MRO processing flow
 List classification of intra-RAT MRO
 Describe intra-RAT MRO management
 Describe inter-RAT MRO management
 Check SON logs in U2000
 Intra-RAT ANR Management
 Outline PCI conflict detection
 Inter-RAT ANR Management
 self-optimization overview
 MRO Processing Flow
 Describe PCI conflict detection
 Describe PCI self-optimization in M2000
 Classification of Intra-RAT MRO
 Intra-RAT MRO Management
 Observe PCI conflict information
 Inter-RAT MRO Management
 Set PCI conflict detection
 PCI Conflict Detection
 Outline RACH optimization
 Describe prerequisites for RACH optimization
 Describe zero correlation zone configuration
 Describe contention-based vs. contention-free
 Self-Optimization Overview
 PCI Conflict Detection
 PCI Self-Optimization in U2000
 Overview of RACH Optimization
random access
 Describe RACH resource adjustment
 Perform MML to deploy RACH optimization
 Describe impact of RACH optimization
 Prerequisites for RACH Optimization
 Zero Correlation Zone Configuration
 Contention-Based vs. Contention-Free
Random Access
 Outline cell outage detection
 Describe sleeping cell detection techniques
 Describe cell outage detection techniques
Target Audience
 Enable the SON switches in U2000
 ANR Overview
 Set MRO to optimize handover
 Deploy cell outage detection
 Outline SON functions in U2000
 RACH Resource Adjustment
 Dedicated Preamble Group Adjustment
 Multiplexing of Dedicated Preambles
 PRACH Configuration Index Adjustment
 Adaptive Backoff
System Engineer
 MML screenshots
Service Engineer
 Impact of RACH Optimization
Service Planning Engineer
 Overview of Cell Outage Detection
Service Design Engineer
 Sleeping Cell Detection Techniques
Network Design Engineer
 Cell Outage Detection Techniques
COMMERCIAL IN CONFIDENCE
25
 Engineering Guidelines
Training Methods
Lectures
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE
26
1.3.7
OEO53 LTE eRAN3.0 TDD Specific Features and Algorithms
Objectives
Prerequisites
On completion of this course, the participants will
 Successful completion of the following courses:
be able to:
 LTE Air Interface
 Outline beamforming
 LTE Protocols and Procedures
 Describe beamforming-related concepts
 LTE eRAN3.0 Basic Features and Algorithms
 Describe beamforming principles and
Content
techniques
 Describe beamforming feature application
 Overview of Beamforming
 Beamforming-Related Concepts
scenarios
 Deploy beamforming
 Beamforming Principles and Techniques
 Describe concept of sector, cell and TDD
 Beamforming Feature Application Scenarios
 Beamforming Deployment
subframe configuration
 Concept of Sector, cell and TDD Subframe
 Draw TDD frame structure
 Describe uplink-downlink subframe
Configuration
 TDD Frame Structure
configurations
 Describe configurations of special subframes
 Uplink-Downlink Subframe Configurations
 Describe when to use subframe configuration
 Configurations of Special Subframes
 Perform subframe configuration
 When to Use Subframe Configuration
Target Audience
 Subframe Configuration Deployment
Training Methods
System Engineer
Service Engineer
Service Planning Engineer
Service Design Engineer
Network Design Engineer
Lectures
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE
27
1.3.8
OEO63 LTE eRAN6.0 TDD Specific Features and Algorithms
Objectives
Prerequisites
On completion of this course, the participants will
 Successful completion of the following courses:
be able to:
 LTE Air Interface
 Outline beamforming
 LTE Protocols and Procedures
 Describe beamforming-related concepts
 LTE eRAN6.0 Basic Features and Algorithms
 Describe beamforming principles and
Content
techniques
 Describe beamforming feature application
 Overview of Beamforming
 Beamforming-Related Concepts
scenarios
 Deploy beamforming
 Beamforming Principles and Techniques
 Describe concept of sector, cell and TDD
 Beamforming Feature Application Scenarios
 Beamforming Deployment
subframe configuration
 Concept of Sector, cell and TDD Subframe
 Draw TDD frame structure
 Describe uplink-downlink subframe
Configuration
 TDD Frame Structure
configurations
 Describe configurations of special subframes
 Uplink-Downlink Subframe Configurations
 Describe when to use subframe configuration
 Configurations of Special Subframes
 Perform subframe configuration
 When to Use Subframe Configuration
Target Audience
 Subframe Configuration Deployment
Training Methods
System Engineer
Service Engineer
Service Planning Engineer
Service Design Engineer
Network Design Engineer
Lectures
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE
28
1.3.9
OEO73 LTE eRAN7.0 TDD Specific Features and Algorithms
Objectives
Prerequisites
On completion of this course, the participants will
 Successful completion of the following courses:
be able to:
 LTE Air Interface
 Outline beamforming
 LTE Protocols and Procedures
 Describe beamforming-related concepts
 LTE eRAN7.0 Basic Features and Algorithms
 Describe beamforming principles and
Content
techniques
 Describe beamforming feature application
 Overview of Beamforming
 Beamforming-Related Concepts
scenarios
 Deploy beamforming
 Beamforming Principles and Techniques
 Describe concept of sector, cell and TDD
 Beamforming Feature Application Scenarios
 Beamforming Deployment
subframe configuration
 Concept of Sector, cell and TDD Subframe
 Draw TDD frame structure
 Describe uplink-downlink subframe
Configuration
 TDD Frame Structure
configurations
 Describe configurations of special subframes
 Uplink-Downlink Subframe Configurations
 Describe when to use subframe configuration
 Configurations of Special Subframes
 Perform subframe configuration
 When to Use Subframe Configuration
Target Audience
 Subframe Configuration Deployment
Training Methods
System Engineer
Service Engineer
Service Planning Engineer
Service Design Engineer
Network Design Engineer
Lectures
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE
29
1.3.10 OEO54 LTE eRAN3.0 Performance Improving Features and Algorithms
Objectives
Prerequisites
On completion of this course, the participants will
 Successful completion of the following courses:
be able to:
 LTE Air Interface
 Describe admission control
 LTE Protocols and Procedures
 Set admission control
 LTE eRAN3.0 Basic Features and Algorithms
 Describe congestion control
Content
 Outline load monitoring
 Load Monitoring
 Outline load balance
 Describe intra–frequency load balance
 Describe inter-frequency load balance
 QoS Satisfaction Rate Based Admission
 Outline compact bandwidth
 Describe key technologies of compact
bandwidth
Control
 Congestion Control
 Load Balance Overview
 Describe related physical resource
 Intra–frequency Load Balance
management
 Inter-frequency Load Balance
 Deploy compact bandwidth
 Inter–RAT Load Balance
 Outline UL CoMP
 Describe application scenarios of UL CoMP
 Describe key techniques for UL CoMP
 Describe related features of UL CoMP
 Overview of Compact Bandwidth
 Key Technologies of Compact Bandwidth
 Related Physical Resource Management
 Benefit of UL CoMP
 Deploy UL CoMP
 Principle for UL CoMP
 Outline ICIC
 Application scenario of UL CoMP
 Describe downlink ICIC
 Engineering Guidelines of UL CoMP
 Describe uplink ICIC
 Describe ICIC deployment strategy
 Overview of ICIC
 Downlink ICIC
 Deploy ICIC
 Outline principle and algorithm of RAN
Target Audience
 Non-GBR Service Admission Control
 GBR Service Admission Flow
 Describe inter-RAT load balance
Sharing(Optinal)
 Admission Control
 Uplink ICIC
 ICIC Deployment Strategy
 Overview of RAN Sharing
 RAN Sharing with Common Carriers
System Engineer
 RAN Sharing with Dedicated Carriers
Service Engineer
 Engineering Guidelines of RAN Sharing
Service Planning Engineer
Training Methods
Service Design Engineer
Network Design Engineer
Lectures
Duration
2 working days
COMMERCIAL IN CONFIDENCE
30
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE
31
1.3.11 OEO64 LTE eRAN6.0 Performance Improving Features and Algorithms
Objectives
Prerequisites
On completion of this course, the participants will
 Successful completion of the following courses:
be able to:
 LTE Air Interface
 Describe admission control
 LTE Protocols and Procedures
 Set admission control
 LTE eRAN6.0 Basic Features and Algorithms
 Describe congestion control
Content
 Outline load monitoring
 Load Monitoring
 Outline load balance
 Describe intra–frequency load balance
 Describe inter-frequency load balance
 QoS Satisfaction Rate Based Admission
 Outline compact bandwidth
 Describe key technologies of compact
bandwidth
Control
 Congestion Control
 Load Balance Overview
 Describe related physical resource
 Intra–frequency Load Balance
management
 Inter-frequency Load Balance
 Deploy compact bandwidth
 Inter–RAT Load Balance
 Outline UL CoMP
 Describe application scenarios of UL CoMP
 Describe key techniques for UL CoMP
 Describe related features of UL CoMP
 Overview of Compact Bandwidth
 Key Technologies of Compact Bandwidth
 Related Physical Resource Management
 Benefit of UL CoMP
 Deploy UL CoMP
 Principle for UL CoMP
 Outline ICIC
 Application scenario of UL CoMP
 Describe downlink ICIC
 Engineering Guidelines of UL CoMP
 Describe uplink ICIC
 Describe ICIC deployment strategy
 Overview of ICIC
 Downlink ICIC
 Deploy ICIC
 Outline principle and algorithm of RAN
Target Audience
 Non-GBR Service Admission Control
 GBR Service Admission Flow
 Describe inter-RAT load balance
Sharing(Optinal)
 Admission Control
 Uplink ICIC
 ICIC Deployment Strategy
 Overview of RAN Sharing
 RAN Sharing with Common Carriers
System Engineer
 RAN Sharing with Dedicated Carriers
Service Engineer
 Engineering Guidelines of RAN Sharing
Service Planning Engineer
Training Methods
Service Design Engineer
Network Design Engineer
Lectures
Duration
2 working days
COMMERCIAL IN CONFIDENCE
32
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE
33
1.3.12 OEO74 LTE eRAN7.0 Performance Improving Features and Algorithms
 LTE Air Interface
Objectives
 LTE Protocols and Procedures
On completion of this course, the participants will
be able to:
 LTE eRAN7.0 Basic Features and Algorithms
Content
 Describe admission control
 Set admission control
 Load Monitoring
 Describe congestion control
 Admission Control
 Outline load monitoring
 Non-GBR Service Admission Control
 Outline load balance
 GBR Service Admission Flow
 Describe intra–frequency load balance
 QoS Satisfaction Rate Based Admission
 Describe inter-frequency load balance
Control
 Describe inter-RAT load balance
 Congestion Control
 Outline compact bandwidth
 Load Balance Overview
 Describe key technologies of compact
 Intra–frequency Load Balance
 Inter-frequency Load Balance
bandwidth
 Describe related physical resource
 Inter–RAT Load Balance
management
 Overview of Compact Bandwidth
 Deploy compact bandwidth
 Key Technologies of Compact Bandwidth
 Outline UL CoMP
 Related Physical Resource Management
 Describe application scenarios of UL CoMP
 Benefit of UL CoMP
 Describe key techniques for UL CoMP
 Principle for UL CoMP
 Describe related features of UL CoMP
 Application scenario of UL CoMP
 Deploy UL CoMP
 Engineering Guidelines of UL CoMP
 Outline ICIC
 Overview of ICIC
 Describe downlink ICIC
 Downlink ICIC
 Describe uplink ICIC
 Uplink ICIC
 Describe ICIC deployment strategy
 ICIC Deployment Strategy
 Deploy ICIC
 Overview of RAN Sharing
 Outline principle and algorithm of RAN
 RAN Sharing with Common Carriers
Sharing(Optinal)
 RAN Sharing with Dedicated Carriers
Target Audience
 Engineering Guidelines of RAN Sharing
System Engineer
Training Methods
Service Engineer
Lectures
Service Planning Engineer
Duration
Service Design Engineer
2 working days
Network Design Engineer
Class Size
Prerequisites
 Successful completion of the following courses:
Min 6, max 12
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1.3.13 OEO57 LTE eRAN3.0 Enhanced Features
 LTE eRAN2.1/2.2 Features and Algorithms
Objectives
On completion of this course, the participants will
Content
be able to:
 LTE eRAN3.0 Handover Feature
 Describe enhanced and new functions in
 Coverage Based Inter-frequency Handover
Handover Feature from eRAN2.1/2.2 to
 Handover Based on SPID
eRAN3.0
 LTE eRAN3.0 RAN Sharing Feature(Optional
 Introduce enhanced functions in RAN
Sharing(Optional)
according to the practical network)
 RAN Sharing with Common Carrier
Target Audience
Training Methods
System Engineer
Lectures
Service Engineer
Duration
Service Planning Engineer
0.5 working day
Service Design Engineer
Class Size
Network Design Engineer
Prerequisites
Min 6, max 12
 Successful completion of the following courses:
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1.3.14 OEO56 LTE eRAN3.0 New Features
 Distance based Inter-RAT handover to GERAN
Objectives
 E-UTRAN to UTRAN CS/PS Steering
On completion of this course, the participants will
be able to:
 Outline new functions in CSFB Feature in
eRAN3.0
 Explain UL CoMP Feature in eRAN3.0
 Describe 800M self-interference cancellation in
eRAN3.0(Optinal)
 LTE eRAN3.0 CS Fallback Feature
 CS Fallback with LAI to UTRAN
 CS Fallback with LAI to GERAN
 LTE eRAN3.0 UL CoMP feature
 Benefit of UL CoMP feature
 Application scenario of UL CoMP feature
 LTE eRAN3.0 800M self-interference
Target Audience
cancellation (Optinal according to the practical
network)
System Engineer
Service Engineer
 Introduce of self interference
Service Planning Engineer
 Application scenarios
Service Design Engineer
 Technologies for self – interference
cancellation
Network Design Engineer
Training Methods
Prerequisites
 Successful completion of the following courses:
 LTE eRAN2.1/2.2 Features and Algorithms
Content
Lectures
Duration
0.5 working day
 LTE eRAN3.0 Handover Feature
Class Size
 Distance Based Inter-frequency Handover
 Service Based Inter-frequency Handover
Min 6, max 12
 Distance based Inter-RAT handover to UTRAN
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1.3.15 OEO67 LTE eRAN6.0 Enhanced Features
Objectives
Content
On completion of this course, the participants will
 LTE eRAN6.0 Handover Feature
be able to:
 Coverage Based Inter-frequency/ Inter-RAT
 Describe enhanced functions in Handover
Feature from eRAN3.0 to eRAN6.0
 Describe enhanced and new functions in CS
Fallback from eRAN3.0 to eRAN6.0
 Describe enhanced functions in Cell Outage
Detection from eRAN3.0 to eRAN6.0
Target Audience
Handover
 LTE eRAN6.0 CS Fallback
 CS Fallback to UTRAN
 Flash CS Fallback to UTRAN
 Flash CS Fallback to GERAN
 LTE eRAN6.0 Cell Outage Detection
 Detecting Sleeping Cell rapidly by eNodeB
Audit Analysis
System Engineer
Training Methods
Service Engineer
Service Planning Engineer
Lectures
Service Design Engineer
Duration
Network Design Engineer
0.5 working day
Prerequisites
Class Size
 Successful completion of the following courses:
 LTE eRAN3.0 Basic Features and Algorithms
Min 6, max 12
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1.3.16 OEO66 LTE eRAN6.0 New Features
 CS Fallback Steering to UTRAN
Objectives
 LTE eRAN6.0 DRX and Signaling Control
On completion of this course, the participants will
be able to:
 Describe new functions in DRX and Signaling
Control from eRAN3.0 to eRAN6.0
 Dynamic DRX
 LTE eRAN6.0 Carrier Aggregation Feature
 CA Basic Concepts and Principles
 CA Feature Benefit and Influence
 Describe new features in eRAN6.0
 CA Feature Deployment and Configuration
Target Audience
 LTE eRAN6.0 eICIC
System Engineer
 eICIC Basic Concepts and Principles
Service Engineer
 eICIC Feature Benefit and Influence
Service Planning Engineer
 eICIC Feature Deployment and Configuration
Service Design Engineer
Training Methods
Network Design Engineer
Lectures
Prerequisites
Duration
 Successful completion of the following courses:
 LTE eRAN3.0 Basic Features and Algorithms
Content
 LTE eRAN6.0 CS Fallback
0.5 working day
Class Size
Min 6, max 12
 CS Fallback Steering to GERAN
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1.3.17 OEO77 LTE eRAN7.0 Enhanced Features
Objectives
Prerequisites
On completion of this course, the participants will
 Successful completion of the following courses:
be able to:
 LTE eRAN6.0 Basic Features and Algorithms
 Describe enhanced functions in Handover
Content
Feature from eRAN6.0 to eRAN7.0
 Describe enhanced and new functions in
scheduling from eRAN6.0 to eRAN7.0
 Describe enhanced functions in MLB from
eRAN6.0 to eRAN7.0
Target Audience
 RIM Based LTE Target Cell Selection

Coverage Based Inter-frequency/ Inter-RAT
Handover
 LTE enhanced scheduling: MBR>GBR
 User number based MLB
Training Methods
System Engineer
Service Engineer
Service Planning Engineer
Service Design Engineer
Network Design Engineer
Lectures
Duration
0.5 working day
Class Size
Min 6, max 12
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1.3.18 OEO76 LTE eRAN7.0 New Features
 LTE eRAN6.0 Basic Features and Algorithms
Objectives
On completion of this course, the participants will
Content
be able to:
 SFN (Single frequency network)
 Describe new functions in SFN and scheduling
 Uplink timing
from eRAN6.0 to eRAN7.0
 Coordinated Scheduling based power control
 Describe new features in eRAN7.0
 Intelligent Access Class Control
Target Audience
Training Methods
System Engineer
Lectures
Service Engineer
Duration
Service Planning Engineer
0.5 working day
Service Design Engineer
Class Size
Network Design Engineer
Prerequisites
Min 6, max 12
 Successful completion of the following courses:
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1.3.19 OEO01 LTE Network Tuning
 Basic Process of RF Optimization
Objectives
 Test Preparations
On completion of this course, the participants will
be able to:
 Describe basic process of RF optimization
 Make test preparations
 GENEX Probe Introduction
 List solutions for weak coverage
 GENEX Probe Operation Process
 List solutions for cross coverage
 List solutions for lack of dominant cell
 Perform basic coverage problem analysis
 List main handover problems during network
tuning
 Perform basic handover problem analysis
 Perform basic RF adjustment
 GENEX Probe Additional Function and
Operation
 GENEX Probe Cases Analysis
 GENEX Probe Test Suggestion
 GENEX Assistant Introduction
 GENEX Assistant Additional Function and
Operation
Service Planning Engineer
 GENEX Assistant Cases Analysis
Service Design Engineer
Training Methods
Network Design Engineer
Prerequisites
Lectures, Demo
 Successful completion of the following courses:
 Overview of RF Optimization
 GENEX Probe Test Parameters
 GENEX Assistant Operation Process
Target Audience
Content
 Handover Problem Analysis
 Huawei GENEX Series Tools Introduction
 List factors affecting coverage
 LTE Protocols and Procedures
 Coverage Problem Analysis
 RF Adjustment
 Collect data collection for tuning
 LTE Air Interface
 Data Collection
Duration
1 working day
Class Size
Min 6, max 12
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1.3.20 OEO03 LTE Performance Management
 LTE Air Interface
Objectives
 LTE Protocols and Procedures
On completion of this course, the participants will
be able to:
 Describe the structure of LTE performance
measurement system
 LTE Basic Features and Algorithms
Content
 The structure of LTE performance
 List classification of KPI
measurement system
 Describe accessibility KPI and detail the
counters of it
 The main KPI in LTE, and detail the counters
for the key KPI, such as accessibility, retain
 Describe retainability KPIs and detail the
counters of them
ability, mobility, availability, utilization, traffic,
latency, Integrity
 Describe mobility KPIs and detail the counters
of them
 Implement performance measurement
operations on M2000
 Describe service integrity
 LTE KPI Overview
 Describe utilization KPIs and detail the
 Classification of KPI
 Performance Measurement System
counters of them
 Describe availability KPIs and detail the
counters of them
 LTE KPI Details
 Accessibility KPI
 Describe traffic KPI and detail the counters of
them
 Retainability KPIs
 Mobility KPIs
 Describe performance management basic
concepts
 Equipment Related
 Utilization KPIs / Traffic KPI
 Describe measurement management
 Implement performance measurement
operations on M2000
 Implement custom counter management
 Query performance result
 Transport Performance Counter
 LTE KPI Report Delivery
Training Methods
Lectures, Hands-on Exercise
Duration
Target Audience
1 working day
Service Planning Engineer
Class Size
Service Design Engineer
Network Design Engineer
Min 6, max 12
Prerequisites
 Successful completion of the following courses:
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1.3.21 OEO06 LTE Radio Network Optimize
 LTE Protocols and Procedures
Objectives
 LTE Basic Features and Algorithms
On completion of this course, the participants will
be able to:
Content
 Outline handover procedure
 Basic Principle of Access
 Perform handover fault analysis
 Access Fault Diagnosis Process
 Describe typical case of handover fault
 Operations of Access Fault Diagnosis
 Describe basic principle of access
 Checking Hardware Connections
 Describe fault diagnosis process
 Checking Version Mapping
 Perform operations of fault diagnosis
 Checking the eNodeB Configuration
 Perform checking hardware connections
 Checking Quality on the Air Interface
 Perform checking version mapping
 Checking the EPC Configuration
 Perform checking the eNodeB configuration
 Handover Procedure Review
 Perform checking quality on the air interface
 Handover Fault Analysis
 Perform checking the EPC configuration
 Typical Case of Handover Fault
 Describe time and frequency resources and
 Call Drop Fault Diagnosis Process
throughput calculation
 Operations of Call Drop Fault Diagnosis
 Describe throughput fault diagnosis procedures
and methods
 Checking Hardware Connections
 Checking Version Mapping
 Describe processes of data transmission fault
diagnosis
 Checking the eNodeB Configuration
 Checking Quality on the Air Interface
 Describe basic requirements for fault diagnosis
 Perform diagnosis for locating downlink data
transmission faults
 Checking the EPC Configuration
 Methodology of Traffic Fault Diagnosis
 Air Interface Fault diagnosis
 Perform diagnosis for uplink problems
Target Audience
 UDP Fault Diagnosis
 TCP Fault Diagnosis
Training Methods
System Engineer
Service Engineer
Lectures
Service Planning Engineer
Duration
Service Design Engineer
2 working days
Network Design Engineer
Class Size
Prerequisites
 Successful completion of the following courses:
Min 6, max 12
 LTE Air Interface
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1.3.22 OE025 LTE Interoperability
Objectives
Content
On completion of this course, the participants will
 LTE Interoperability in Idle Mode Overview
be able to:
 IRAT PLMN Selection Procedure
 Outline challenges for LTE interoperability
 IRAT Cell Selection Criteria
 Describe GUL interoperability network
 IRAT Cell Reselection Criteria
architecture and interfaces
 IRAT Signaling Procedure in Idle Mode
 Describe IRAT PLMN selection process, cell
 Technical Overview and Basic Concepts
selection/selection process and signaling
 Measurement Configuration
procedure in idle mode
 Measurement Triggering/Stopping Phase of an
 Describe IRAT measurement
IRAT Handover
triggering/stopping phase, measurement phase,
 Redirection
execution phase and signaling procedure in
 Blind Handover
connection mode
 Measurement Phase of an IRAT Handover
 Application and realization of IRAT
 Decision Phase of an IRAT Handover
Target Audience
 Execution Phase of an IRAT Handover
 IRAT Signaling Procedure in Connection Mode
System Engineer
Training Methods
Service Engineer
Service Planning Engineer
Lectures
Service Design Engineer
Duration
Network Design Engineer
1 working day
Prerequisites
 Successful completion of the following courses:
 LTE Air Interface
Class Size
Min 6, max 12
 LTE Protocols and Procedures
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1.4 RNP Training Course Descriptions
1.4.1
OEP01 LTE Radio Network Design
Objectives
Content
On completion of this course, the participants will
 LTE Radio Network Planning Introduction
be able to:
 LTE Radio Network Planning Process
 Outline LTE radio network planning
 Differences between 2G/3G and LTE
 Describe LTE radio network planning Process
 Describe differences between 2G/3G and LTE
Dimensioning
 LTE
Radio Network Coverage Dimensioning
 LTE Link Budget
Dimensioning
 Perform LTE radio network coverage
dimensioning
 Propagation Model
 Site Number Dimensioning
 Perform LTE link budget
 Capacity Dimensioning Procedure
 Describe propagation model
 Network Throughput
 Perform site number dimensioning
 Introduction of Traffic Model
 Outline capacity dimensioning procedure
 Traffic Model and Parameters
 Describe traffic model and parameters
 Network Throughput Calculation
 Perform radio network throughput calculation
 Cell Throughput
 Analysis DL Throughput
 DL Throughput Analysis
 Analysis UL Throughput
 UL Throughput Analysis
 Perform throughput per cell(IP) dimensioning
 Throughput per Cell(IP)
 Perform capacity dimensioning
 Capacity Dimensioning
 Outline frequency planning
 LTE Planning Overview
 Outline TA planning
 Frequency Planning
 Outline PCI planning
 TA Planning
 Outline PRACH planning
 PCI Planning
Target Audience
 PRACH Planning
Training Methods
Service Planning Engineer
Service Design Engineer
Lectures,Demo
Network Design Engineer
Duration
Prerequisites
1.67 working days
 Successful completion of the following courses:
Class Size
 LTE Air Interface
 LTE Protocols and Procedures
Min 6, max 12
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1.4.2
OEP02 LTE Access Transport Network Dimensioning
 LTE Air Interface
Objectives
 LTE Protocols and Procedures
On completion of this course, the participants will
be able to:
Content
 Describe the LTE transport networking
 Transport Architecture and Networking
 Describe the S1 and X2 interface protocol
 IP Transport Functionality
 Explain IP functionality, such as VLAN, IP sec
 IP Transport Dimensioning
etc.
Training Methods
 Perform transport network dimensioning
 Perform eNodeB hardware dimensioning
Lectures
Duration
Target Audience
0.33 working day
Service Planning Engineer
Class Size
Service Design Engineer
Network Design Engineer
Min 6, max 12
Prerequisites
 Successful completion of the following courses:
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1.5 Product Training Course Descriptions
1.5.1
OEB50 eNodeB V100R005 Product Description
 LTE System Overview
Objectives
On completion of this course, the participants will
Content
be able to:
 eNodeB System Overview
 Describe the hardware structure of eNodeB
 eNodeB System Structure
 Describe the logical structure of eNodeB
 eNodeB Auxiliary Devices
 Describe the working principle and functions of
 eNodeB Typical Networking
eNodeB boards
Training Methods
Target Audience
Lectures
System Technician
Duration
Service Technician
0.5 working day
System Engineer
Class Size
Service Engineer
Prerequisites
Min 6, max 12
 Successful completion of the following courses:
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1.5.2
OEB60 eNodeB V100R006 Product Description
 LTE System Overview
Objectives
On completion of this course, the participants will
Content
be able to:
 eNodeB System Overview
 Describe the hardware structure of eNodeB
 eNodeB System Structure
 Describe the logical structure of eNodeB
 eNodeB Auxiliary Devices
 Describe the working principle and functions of
 eNodeB Typical Networking
eNodeB boards
Training Methods
Target Audience
Lectures
System Technician
Duration
Service Technician
0.5 working day
System Engineer
Class Size
Service Engineer
Prerequisites
Min 6, max 12
 Successful completion of the following courses:
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1.5.3
OEB70 eNodeB V100R007 Product Description
 LTE System Overview
Objectives
On completion of this course, the participants will
Content
be able to:
 eNodeB System Overview
 Describe the hardware structure of eNodeB
 eNodeB System Structure
 Describe the logical structure of eNodeB
 eNodeB Auxiliary Devices
 Describe the working principle and functions of
 eNodeB Typical Networking
eNodeB boards
Training Methods
Target Audience
Lectures
System Technician
Duration
Service Technician
0.5 working day
System Engineer
Class Size
Service Engineer
Prerequisites
Min 6, max 12
 Successful completion of the following courses:
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1.5.4
OEB51 eNodeB V100R005 Local Commissioning
 eNodeB Local Commissioning through the
Objectives
USB Disk
On completion of this course, the participants will
be able to:
 Procedure for the Local Commissioning
through the USB Disk
 Describe the procedure of eNodeB
 Download and Activate the Software and Data
commissioning
Configuration File
 Describe the related concept of eNodeB
software and configuration file
 Querying the current version of eNodeB
 Use USB disk to commission the eNodeB
 Commission the eNodeB through LMT
 Verify commissioning result
 eNodeB Local Commissioning on the LMT
 Prepare for the Local eNodeB Commissioning
on the LMT
 Upgrade the eNodeB Software and Data
Configuration File on the LMT
 Download the License on the LMT
Target Audience
 Query the Running Status
 Establish an operation and maintenance Link
System Technician
Between the M2000 and the eNodeB
Service Technician
Training Methods
System Engineer
Service Engineer
Lectures, Hands-on Exercise
Prerequisites
Duration
Successful completion of the following courses:
 LTE System Overview
1 working day
Class Size
 eNodeB LTE V100R005 Product Description
Content
Min 6, max 12
 eNodeB Commissioning Overview
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1.5.5
OEB61 eNodeB V100R006 Local Commissioning
 eNodeB Local Commissioning through the
Objectives
USB Disk
On completion of this course, the participants will
be able to:
 Procedure for the Local Commissioning
through the USB Disk
 Describe the procedure of eNodeB
 Download
commissioning
 Describe the related concept of eNodeB
software and configuration file
 Querying the current version of eNodeB
 Use USB disk to commission the eNodeB
 Commission the eNodeB through LMT
 Verify commissioning result
 Activate the Software and Data Configuration
File
 eNodeB Local Commissioning on the LMT
 Prepare for the Local eNodeB Commissioning
on the LMT
 Upgrade the eNodeB Software and Data
Configuration File on the LMT
Target Audience
 Download the License on the LMT
System Technician
 Query the Running Status
Service Technician
 Establish an O
System Engineer
 M Link Between the M2000 and the eNodeB
Training Methods
Service Engineer
Prerequisites
Lectures、 Hands-on Exercise
 Successful completion of the following courses:
 LTE System Overview
Duration
1 working day
 eNodeB LTE V100R006 Product Description
Class Size
Content
Min 6, max 12
 eNodeB Commissioning Overview
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1.5.6
OEB71 eNodeB V100R007 Local Commissioning
 eNodeB Local Commissioning through the
Objectives
USB Disk
On completion of this course, the participants will
be able to:
 Procedure for the Local Commissioning
through the USB Disk
 Describe the procedure of eNodeB
 Download
commissioning
 Describe the related concept of eNodeB
software and configuration file
 Querying the current version of eNodeB
 Use USB disk to commission the eNodeB
 Commission the eNodeB through LMT
 Verify commissioning result
 Activate the Software and Data Configuration
File
 eNodeB Local Commissioning on the LMT
 Prepare for the Local eNodeB Commissioning
on the LMT
 Upgrade the eNodeB Software and Data
Configuration File on the LMT
Target Audience
 Download the License on the LMT
System Technician
 Query the Running Status
Service Technician
 Establish an O
System Engineer
 M Link Between the M2000 and the eNodeB
Training Methods
Service Engineer
Prerequisites
Lectures、 Hands-on Exercise
 Successful completion of the following courses:
 LTE System Overview
Duration
1 working day
 eNodeB LTE V100R007 Product Description
Class Size
Content
Min 6, max 12
 eNodeB Commissioning Overview
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1.5.7
OEB52 eNodeB V100R005 Field Maintenance
 eNodeB LTE V100R005 Product Description
Objectives
On completion of this course, the participants will
Content
 Powering up/down the eNodeB and connect up
be able to:
 Power up/down the eNodeB and connect up
LMT to the node
 Finding the alarm list of eNodeB
LMT to the node
 Find the alarm list of eNodeB
 Perform corrective and preventive
 Perform corrective and preventive
maintenance on eNodeB
 Finding Faulty Hardware units and replace
maintenance on eNodeB
 Find faulty hardware units and replace them
Target Audience
them
Training Methods
Lectures、 Hands-on Exercise
Network Deployment Engineer
Field Technician
Duration
System Technician
0.5 working day
Prerequisites
Class Size
 Successful completion of the following courses:
 LTE System Overview
Min 6, max 12
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1.5.8
OEB62 eNodeB V100R006 Field Maintenance
 eNodeB LTE V100R006 Product Description
Objectives
On completion of this course, the participants will
Content
 Powering up/down the eNodeB and connect up
be able to:
 Power up/down the eNodeB and connect up
LMT to the node
 Finding the alarm list of eNodeB
LMT to the node
 Find the alarm list of eNodeB
 Perform corrective and preventive
 Perform corrective and preventive
maintenance on eNodeB
 Finding Faulty Hardware units and replace
maintenance on eNodeB
 Find faulty hardware units and replace them
Target Audience
them
Training Methods
Lectures、 Hands-on Exercise
Network Deployment Engineer
Field Technician
Duration
System Technician
0.5 working day
Prerequisites
Class Size
 Successful completion of the following courses:
 LTE System Overview
Min 6, max 12
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1.5.9
OEB72 eNodeB V100R007 Field Maintenance
Monitoring
Objectives
 Basic Concepts about Power and Monitor
On completion of this course, the participants will
be able to:
 Understand Huawei power supply and
monitoring solutions
 Power up/down the eNodeB and connect up
LMT to the node
System
 Component of Power Supply System
 Data configuration of Power System
 Component of Monitor System
 Data configuration for Monitor System
 eNodeB LTE V100R007 Field Maintenance
 Find the alarm list of eNodeB
 Powering up/down the eNodeB and connect
 Perform corrective and preventive
up LMT to the node
maintenance on eNodeB
 Find faulty hardware units and replace them
 Finding the alarm list of eNodeB
 Perform corrective and preventive
Target Audience
maintenance on eNodeB
 Finding Faulty Hardware units and replace
Network Deployment Engineer
them
Field Technician
Training Methods
System Technician
Prerequisites
Lectures
 Successful completion of the following courses:
 LTE System Overview
 eNodeB LTE V100R007 Product Description
Content
Duration
0.5 working day
Class Size
Min 6, max 12
 eNodeB LTE V100R007 Power Supply and
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1.5.10 OEB53 eNodeB V100R005 Remote Commissioning
Objectives
Prerequisites
On completion of this course, the participants will
Successful completion of the following courses:
be able to:
 LTE System Overview
 Describe the procedure of eNodeB
 eNodeB LTE V100R005 Product Description
commissioning
Content
 Describe the related concept of eNodeB
 eNodeB Commissioning Overview
software and configuration file
 Querying the current version of eNodeB
 Commission the eNodeB through M2000
 Verify commissioning result
Target Audience
System Engineer
Service Engineer
 eNodeB Remote Commissioning on the M2000
Training Methods
Lectures, Hands-on Exercise
Duration
0.5 working day
Class Size
Service Planning Engineer
Service Design Engineer
Min 6, max 12
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1.5.11 OEB63 eNodeB V100R006 Equipment Commissioning
Objectives
Prerequisites
On completion of this course, the participants will
 Successful completion of the following courses:
be able to:
 LTE System Overview
 Describe the procedure of eNodeB
 eNodeB LTE V100R006 Product Description
commissioning
Content
 Describe the related concept of eNodeB
 eNodeB Commissioning Overview
software and configuration file
 Querying the current version of eNodeB
 Commission the eNodeB through M2000
 Verify commissioning result
Target Audience
System Engineer
Service Engineer
 eNodeB Remote Commissioning on the M2000
Training Methods
Lectures、 Hands-on Exercise
Duration
0.5 working day
Class Size
Service Planning Engineer
Service Design Engineer
Min 6, max 12
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1.5.12 OEB73 eNodeB V100R007 Equipment Commissioning
Establishment
Objectives

On completion of this course, the participants will
be able to:
 Describe the procedure of eNodeB
commissioning
DHCP introduction

Schemes for Obtaining VLAN

software and configuration file
 Commission the eNodeB through U2000

Information
 Describe the related concept of eNodeB
 Querying the current version of eNodeB
Automatic OMCH establishment phase
during base station deployment by PnP
Procedure for Obtaining Configuration
Information in different Scenarios

eNodeB LTE V100R007 Equipment
Commissioning
 Verify commissioning result
Target Audience
System Engineer

eNodeB Commissioning Overview

eNodeB local commissioning

eNodeB Remote Commissioning
Training Methods
Service Engineer
Service Planning Engineer
Lectures、 Hands-on Exercise
Service Design Engineer
Duration
Prerequisites
0.5 working day
 Successful completion of the following courses:
 LTE System Overview
 eNodeB LTE V100R007 Product Description
Class Size
Min 6, max 12
Content

LTE eRAN7.0 Automatic OMCH
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1.5.13 OEB54 eNodeB V100R005 Operation
Objectives
Target Audience
On completion of this course, the participants will
System Engineers
be able to:
Service Engineer
 Explain the architecture and components of
Prerequisites
eNodeB operation and maintenance system
 Successful completion of the following courses:
 Install LMT software
 LTE System Overview
 Install M2000 client software
 eNodeB LTE V100R005 Product Description
 Use LMT login eNodeB
 Use M2000 client Login M2000 server and
eNodeB
Content
 Structure of operation and maintenance system
 Execute MML in single mode
 Login eNodeB O
 Execute MML in batch mode
 M system
 Manage alarms of eNodeB
 eNodeB equipment management
 Manage device, such as querying board states,
blocking board and unblocking board
 Manage software, such as querying current
software version and backup configuration file
 Manage transport data, such as querying IP
address of Ethernet port and querying IP route
 Manage radio data, such as querying cell
states and querying neighbor cell
 Manage tracing message, for example:
creating a tracing task, checking tracing result,
 eNodeB transport management
 eNodeB radio management
 Backup eNodeB configuration file, query
eNodeB version
 Tracing and real time monitoring
 Practise on eNodeB operation
Training Methods
Lectures、 Hands-on Exercise
Duration
saving result
 Manage real-time monitoring, for example:
creating a monitoring task, checking and
saving monitoring result
1 working day
Class Size
Min 6, max 12
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1.5.14 OEB64 eNodeB V100R006 Operation
Objectives
Target Audience
On completion of this course, the participants will
System Engineers
be able to:
Service Engineer
 Explain the architecture and components of
Prerequisites
eNodeB operation and maintenance system
 Successful completion of the following courses:
 Install LMT software
 LTE System Overview
 Install M2000 client software
 eNodeB LTE V100R006 Product Description
 Use LMT login eNodeB
 Use M2000 client Login M2000 server and
eNodeB
Content
 Structure of operation and maintenance system
 Execute MML in single mode
 Login eNodeB O
 Execute MML in batch mode
 M system
 Manage alarms of eNodeB
 eNodeB equipment management
 Manage device, such as querying board states,
blocking board and unblocking board
 Manage software, such as querying current
software version and backup configuration file
 Manage transport data, such as querying IP
address of Ethernet port and querying IP route
 Manage radio data, such as querying cell
states and querying neighbor cell
 Manage tracing message, for example:
creating a tracing task, checking tracing result,
 eNodeB transport management
 eNodeB radio management
 Backup eNodeB configuration file, query
eNodeB version
 Tracing and real time monitoring
 Practise on eNodeB operation
Training Methods
Lectures、 Hands-on Exercise
Duration
saving result
 Manage real-time monitoring, for example:
creating a monitoring task, checking and
saving monitoring result
1 working day
Class Size
Min 6, max 12
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1.5.15 OEB74 eNodeB V100R007 Operation
Objectives
Target Audience
On completion of this course, the participants will
System Engineers
be able to:
Service Engineer
 Explain the architecture and components of
Prerequisites
eNodeB operation and maintenance system
 Successful completion of the following courses:
 Install LMT software
 LTE System Overview
 Install U2000 client software
 eNodeB LTE V100R007 Product Description
 Use LMT login eNodeB
 Use U2000 client Login U2000 server and
eNodeB
Content
 Structure of operation and maintenance system
 Execute MML in single mode
 Login eNodeB O&M system
 Execute MML in batch mode
 eNodeB equipment management
 Manage alarms of eNodeB
 eNodeB transport management
 Manage device, such as querying board states,
blocking board and unblocking board
 Manage software, such as querying current
software version and backup configuration file
 Manage transport data, such as querying IP
address of Ethernet port and querying IP route
 Manage radio data, such as querying cell
states and querying neighbor cell
 eNodeB radio management
 Backup eNodeB configuration file, query
eNodeB version
 Tracing and real time monitoring
 Practise on eNodeB operation
Training Methods
Lectures、 Hands-on Exercise
 Manage tracing message, for example:
Duration
creating a tracing task, checking tracing result,
1 working day
saving result
 Manage real-time monitoring, for example:
creating a monitoring task, checking and
Class Size
Min 6, max 12
saving monitoring result
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63
1.5.16 OEB55 eNodeB V100R005 Initial Configuration
Objectives
Prerequisites
On completion of this course, the participants will
Successful completion of the following courses:
be able to:
 LTE System Overview
 Outline the procedure of eNodeB data
 eNodeB LTE V100R005 Product Description
configuration
Content
 Describe the main table of "eNodeB Summary
 eNodeB Data Configuration Introduction
Data"
 Use LTE Configuration System to create
 Preparing eNodeB Data
 Creating eNodeB Data
project
 Use LTE Configuration System to import
 Adjusting eNodeB Data
 Checking eNodeB Data
external template
 Use LTE Configuration System to query data
 Exporting eNodeB Data
 SUMMARY introduction
configuration and modify data
 Use LTE Configuration System to check up
 Creating bulk eNodeBs with Summary
 Checking data
data
 Use LTE Configuration System to export data
Training Methods
Target Audience
Lectures, Hands-on Exercise
System Engineer
Duration
Service Engineer
Service Planning Engineer
Service Design Engineer
1 working day
Class Size
Min 6, max 12
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1.5.17 OEB65 eNodeB V100R006 Initial Configuration
Objectives
Content
On completion of this course, the participants will
 eNodeB Data Configuration Introduction
be able to:
 Common Data Parameters Introduction
 Outline the procedure of eNodeB data
 Data Preparation in Specific Scenarios
configuration
 Practise on
 Describe the main table of "eNodeB Summary
Data"
 a).eNodeB data configuration preparation
 b).MML for common data
 Use LTE Configuration System to create
project
 c).MML for device data
 d).MML for transmission data
 Use LTE Configuration System to import
external template
 e).MML for radio data
 f).MML for specific scenario
 Use LTE Configuration System to query data
configuration and modify data
 eNodeB Data Configuration by CME
Introduction
 Use LTE Configuration System to check up
data
 Use LTE Configuration System to export data
Target Audience
 Preparing eNodeB Data
 Creating eNodeB Data
 Adjusting eNodeB Data
 Checking eNodeB Data
System Engineer
 Exporting eNodeB Data
Service Engineer
 Practise on eNodeB data configuration file
preparation by CME
Service Planning Engineer
Training Methods
Service Design Engineer
Prerequisites
Lectures、 Hands-on Exercise
 Successful completion of the following courses:
 LTE System Overview
Duration
3 working days
 eNodeB LTE V100R006 Product Description
Class Size
Min 6, max 12
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1.5.18 OEB75 eNodeB V100R007 Initial Configuration
Objectives
Content
On completion of this course, the participants will
 eNodeB Data Configuration Introduction
be able to:
 Common Data Parameters Introduction
 Outline the procedure of eNodeB data
 Data Preparation in Specific Scenarios
configuration
 Practise on
 Understand the meaning of data for initial
configuration
 a).eNodeB data configuration preparation
 b).MML for common data
 Describe the main table of "eNodeB Summary
Data"
 c).MML for device data
 d).MML for transmission data
 Use LTE Configuration System to create
project
 e).MML for radio data
 f).MML for specific scenario
 Use LTE Configuration System to import
external template
 eNodeB Data Configuration by CME
Introduction
 Use LTE Configuration System to query data
configuration and modify data
 Use LTE Configuration System to check up
data
 Use LTE Configuration System to export data
Target Audience
 Preparing eNodeB Data
 Creating eNodeB Data
 Adjusting eNodeB Data
 Checking eNodeB Data
 Exporting eNodeB Data
 Practise on eNodeB data configuration file
preparation by CME
System Engineer
Training Methods
Service Engineer
Service Planning Engineer
Lectures、 Hands-on Exercise
Service Design Engineer
Duration
Prerequisites
 Successful completion of the following courses:
 LTE System Overview
 eNodeB LTE V100R007 Product Description
3 working days
Class Size
Min 6, max 12
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1.5.19 OEB56 eNodeB V100R005 Troubleshooting
 eNodeB LTE V100R005 Product Description
Objectives
 eNodeB LTE V100R005 Reconfiguration
On completion of this course, the participants will
be able to:
 Outline the procedure of eNodeB
Content
 The procedure of eNodeB troubleshooting flow
troubleshooting flow
 The alarm management and analysis
 Perform the alarm management and analysis
 The log collection
 Perform the log collection
 The main faults processing of device level
 Draw hardware fault handling procedure
 The main faults processing of transport level
 Handle with the main faults of device level
 The main faults processing of radio level
 Draw transport fault handling procedure
 The TOP N alarms are picked from the
 Handle with the main faults of transport level
engineering projects. By presenting the
 Draw radio fault diagnosis process
description, system impact, possible causes,
 Check the eNodeB radio configuration
and handling procedure of the TOP N alarms,
 Check quality on the air interface
give an overview of how to recognize and
 Check the EPC configuration
analyze alarms. Finally, cases about alarms
 Handle with the main faults of radio level
handling are given for trainees to have a
reference in practical maintenance work about
Target Audience
alarms.
System Engineer
Training Methods
Service Engineer
Lectures、 Hands-on Exercise
Service Planning Engineer
Duration
Service Design Engineer
Prerequisites
1 working day
 Successful completion of the following courses:
 LTE System Overview
Class Size
Min 6, max 12
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1.5.20 OEB66 eNodeB V100R006 Troubleshooting
Objectives
Content
On completion of this course, the participants will
 The procedure of eNodeB troubleshooting flow
be able to:
 The alarm management and analysis
 Outline the procedure of eNodeB
 The log collection
troubleshooting flow
 The main faults processing of device level
 Perform the alarm management and analysis
 The main faults processing of transport level
 Perform the log collection
 The main faults processing of radio level
 Draw hardware fault handling procedure
 The TOP N alarms are picked from the
 Handle with the main faults of device level
engineering projects. By presenting the
 Draw transport fault handling procedure
description, system impact, possible causes,
 Handle with the main faults of transport level
and handling procedure of the TOP N alarms,
 Draw radio fault diagnosis process
give an overview of how to recognize and
 Check the eNodeB radio configuration
analyze alarms. Finally, cases about alarms
 Check quality on the air interface
handling are given for trainees to have a
 Check the EPC configuration
reference in practical maintenance work about
 Handle with the main faults of radio level
Target Audience
alarms.
 LTE common fault analysis methods and
process steps
 Help trainees understand LTEStar
System Engineer
Service Engineer
troubleshooting process and grasp LTEStar
Service Planning Engineer
troubleshooting methods through practise
Training Methods
Service Design Engineer
Prerequisites
Lectures、 Hands-on Exercise
 Successful completion of the following courses:
 LTE System Overview
Duration
2 working days
 eNodeB LTE V100R006 Product Description
 eNodeB LTE V100R006 Reconfiguration
 eNodeB LTE V100R006 Initial Configuration
Class Size
Min 6, max 12
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1.5.21 OEB76 eNodeB V100R007 Troubleshooting
Objectives
Content
On completion of this course, the participants will
 The procedure of eNodeB troubleshooting flow
be able to:
 The alarm management and analysis
 Outline the procedure of eNodeB
 The log collection
troubleshooting flow
 The main faults processing of device level
 Perform the alarm management and analysis
 The main faults processing of transport level
 Perform the log collection
 The main faults processing of radio level
 Draw hardware fault handling procedure
 The TOP N alarms are picked from the
 Handle with the main faults of device level
engineering projects. By presenting the
 Draw transport fault handling procedure
description, system impact, possible causes,
 Handle with the main faults of transport level
and handling procedure of the TOP N alarms,
 Draw radio fault diagnosis process
give an overview of how to recognize and
 Check the eNodeB radio configuration
analyze alarms. Finally, cases about alarms
 Check quality on the air interface
handling are given for trainees to have a
 Check the EPC configuration
reference in practical maintenance work about
 Handle with the main faults of radio level
Target Audience
alarms.
 LTE common fault analysis methods and
process steps
 Help trainees understand LTEStar
System Engineer
Service Engineer
troubleshooting process and grasp LTEStar
Service Planning Engineer
troubleshooting methods through practise
Training Methods
Service Design Engineer
Prerequisites
Lectures、 Hands-on Exercise
 Successful completion of the following courses:
 LTE System Overview
Duration
2 working days
 eNodeB LTE V100R007 Product Description
 eNodeB LTE V100R007 Initial Configuration
Class Size
Min 6, max 12
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1.5.22 NA eNodeB LTE V100R007 Troubleshooting of Transmission
Objectives
On completion of this program, the participants will
be able to:
 Draw transport fault handling procedure
 Handle with the main faults of transport level

eNodeB LTE V100R007 Product Description

eNodeB LTE V100R007 Reconfiguration

eNodeB LTE V100R007 Troubleshooting
Training Content

eNodeB LTE V100R007 Troubleshooting of
Target Audience
Transmission

System Engineer
eNodeB LTE V100R007 troubleshooting
of transmission
Service Engineer
Service Planning Engineer
Duration
Service Design Engineer
Prerequisites

Successful completion of the following
courses:

0.5 working days
Class Size
Min 6, Max 12
LTE System Overview
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1.5.23 NA eNodeB LTE V100R007 Troubleshooting of Antenna & Feeder System
Objectives
On completion of this program, the participants will
be able to:

Draw radio fault diagnosis process

Check the eNodeB radio configuration

Handle with the main faults of radio level

Understand Antenna & Feeder system
Understand PIM fault and perform
troubleshooting by U2000 and WebLMT


Feeder and Jumper
eNodeB LTE V100R007 Antenna & Feeder
System Fault Analysis and Troubleshooting

Understand TMA fault and perform
troubleshooting by U2000 and WebLMT
Target Audience

PIM Interference

VSWR Fault

TMA Fault.

eNodeB LTE V100R007 Antenna & Feeder
System Fault Analysis and Troubleshooting
Trainee Manual

U2000 and WebLMT


Practice on DTF Test of the Antenna
Practice on Crossed Pair Detection by
U2000 and WebLMT
Service Engineer

Service Planning Engineer
Practise on 2-Tone-based
Intermodulation Detection by U2000 and
Service Design Engineer
WebLMT
Prerequisites

Practise on Service-based
Successful completion of the following
Intermodulation Detection by U2000 and
courses:
WebLMT


LTE System Overview

eNodeB LTE V100R007 Product Description

eNodeB LTE V100R007 Reconfiguration

eNodeB LTE V100R007 Troubleshooting
Training Content

Practice on Offline VSWR Test by
VSWR by U2000 and WebLMT
System Engineer

LTE Antenna & Feeder System Fault
Overview
Understand VSWR fault and perform
troubleshooting by U2000 and WebLMT

Antenna Basic Knowledge

working principle


Antenna & Feeder System Components
Overview
WebLMT
Duration
1.5 working days
Basic Introduction to Antenna and Feeder

Practise on DTP Test by U2000 and
Class Size
Min 6, Max 12
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1.5.24 OEB57 eNodeB V100R005 Reconfiguration
 eNodeB LTE V100R005 Product Description
Objectives
On completion of this course, the participants will
Content
be able to:
 CME/MML Command Operation Instructions
 Outline CME/MML operation
 Capacity Expansion
 Perform capacity expansion
 Adding an FDD Cell
 Perform adding an FDD cell
 Changing the Cell Bandwidth
 Perform changing the cell bandwidth
 Adding an MME Connection
 Perform adding an MME Connection
 Adding an S-GW Connection
 Perform adding an S-GW Connection
 Network Reconstruction
 Perform network reconstruction
 Changing the Cell EARFCNs
 Perform changing the cell EARFCNs
 Changing the Cell PCI
 Perform changing the Cell PCI
 Changing the Cell ID
 Perform changing the Cell ID
 Relocating an MME
 Perform relocating an MME
 Relocating an S-GW
 Perform relocating an S-GW
 Practise on eNodeB V100R005 reconfigruation
Target Audience
Training Methods
System Engineer
Lectures、 Hands-on Exercise
Service Engineer
Duration
Service Planning Engineer
1 working day
Service Design Engineer
Class Size
Prerequisites
 Successful completion of the following courses:
Min 6, max 12
 LTE System Overview
COMMERCIAL IN CONFIDENCE
72
1.5.25 OEB67 eNodeB V100R006 Reconfiguration
 eNodeB LTE V100R006 Product Description
Objectives
On completion of this course, the participants will
Content
be able to:
 CME/MML Command Operation Instructions
 Outline CME/MML operation
 Capacity Expansion
 Perform capacity expansion
 Adding an FDD Cell
 Perform adding an FDD cell
 Changing the Cell Bandwidth
 Perform changing the cell bandwidth
 Adding an MME Connection
 Perform adding an MME Connection
 Adding an S-GW Connection
 Perform adding an S-GW Connection
 Network Reconstruction
 Perform network reconstruction
 Changing the Cell EARFCNs
 Perform changing the cell EARFCNs
 Changing the Cell PCI
 Perform changing the Cell PCI
 Changing the Cell ID
 Perform changing the Cell ID
 Relocating an MME
 Perform relocating an MME
 Relocating an S-GW
 Perform relocating an S-GW
 Practise on eNodeB V100R006 reconfigruation
Target Audience
Training Methods
System Engineer
Lectures、 Hands-on Exercise
Service Engineer
Duration
Service Planning Engineer
1 working day
Service Design Engineer
Class Size
Prerequisites
 Successful completion of the following courses:
Min 6, max 12
 LTE System Overview
COMMERCIAL IN CONFIDENCE
73
1.5.26 OEB77 eNodeB V100R007 Reconfiguration
Objectives
Content
On completion of this course, the participants will
 U2000-CME V200R014 Introduction
be able to:
 CME Overview Introduction
 Outline CME features for data management
 Features of the CME
 Outline CME/MML operation
 Area Management
 Perform capacity expansion
 Template Management
 Perform adding an FDD cell
 Feature OM Management
 Perform changing the cell bandwidth
 Data Check
 Perform adding an MME Connection
 Script Executor
 Perform adding an S-GW Connection
 Data Fallback
 Perform network reconstruction
 CME Configuration Scenarios
 Perform changing the cell EARFCNs
 Base Station Initial Configuration
 Perform changing the Cell PCI
 Network Reconfiguration
 Perform changing the Cell ID
 eNodeB LTE V100R007 Reconfiguration
 Perform relocating an MME
 Reconfiguration Working Flow
 Perform relocating an S-GW
 Reconfiguration Tools and Operation
 Radio/Device Data Reconfiguration
Target Audience
 Data Reconfiguration in Typical Scenarios
System Engineer
 Practise on reconfiguration based on given
Service Engineer
radio/device data environment
Service Planning Engineer
Training Methods
Service Design Engineer
Lectures、 Hands-on Exercise
Prerequisites
 Successful completion of the following courses:
 LTE System Overview
Duration
2 working day
 eNodeB LTE V100R007 Product Description
Class Size
 eNodeB LTE V100R007 Initial Configuration
Min 6, max 12
COMMERCIAL IN CONFIDENCE
74
1.5.27 OEB58 LTE eRAN3.0 O&M Enhancement
Objectives
Content
On completion of this course, the participants will
 LTE eRAN3.0 Hardware Delta
be able to:
 New BBU Board
 Outline the new hardware
 New RRU Board
 Describe O
 LTE eRAN3.0 O
 M new and enhanced functions
 M Enhancement
 Describe LMT delta functions
Target Audience
 Describe M2000 client delta functions
System Engineer
Training Methods
Service Engineer
Service Planning Engineer
Lectures
Service Design Engineer
Duration
Prerequisites
0.5 working day
 Successful completion of the following courses:
Class Size
 LTE System Overview
 eNodeB V100R004 Data Configuration
Min 6, max 12
COMMERCIAL IN CONFIDENCE
75
1.5.28 OEB68 LTE eRAN6.0 Product Delta
 M2000 Delta Functions
Objectives
 Change in O
On completion of this course, the participants will
be able to:
 M between eRAN3.0 and eRAN6.0
 Change in radio configuration from eRAN3.0 to
 Describe LMT delta functions
 Describe M2000 client delta functions
Target Audience
eRAN6.0
 Change in transport EP mode configuration
from eRAN3.0 to eRAN6.0
System Engineer
 Complete eRAN6.0 radio configuration task
Service Engineer
 Complete eRAN6.0 transport EP mode
configuration tasks
Service Planning Engineer
Training Methods
Service Design Engineer
Network Design Engineer
Lectures
Prerequisites
Duration
 Successful completion of the following courses:
 LTE System Overview
1 working day
Class Size
 eNodeB V100R005 Data Configuration
Content
Min 6, max 12
 LMT Delta Functions
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1.5.29 OEB78 LTE eRAN7.0 Product Delta

Objectives
LTE eRAN6.0 Operation and Configuration
Training
On completion of this program, the participants will
be able to:
Training Content

Describe eRAN7.0 new hardware

Describe eRAN7.0 new O&M functions and

LMT Delta Functions
feature

U2000 Delta Functions


Describe multi-BBU interconnection feature

Describe USU hardware and its
eNodeB LTE V100R007 Delta for Hardware

eNodeB LTE V100R007 Delta for O&M

implementation in multi-BBU interconnection
feature
eRAN7.0

Target Audience
System Engineer
Change in O&M between eRAN6.0 and
eNodeB LTE V100R007 BBU Interconnection

Multi-BBU interconnection feature

USU hardware introduction
Duration
Service Engineer
Service Planning Engineer
1 working day
Service Design Engineer
Class Size
Prerequisites
Min 6, Max 12

Successful completion of the following
courses:
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1.5.30 OET58 LTE eRAN3.0 Transmission Features and Algorithms
Objectives
Content
On completion of this course, the participants will
 Overview of Transmission Security
be able to:
 End-to-End Certificate Management
 Introduction TRM Algorithms
 Transmission Security Mechanisms
 Explain transport Resource Configurations and
 When to Use Transmission Security
Mapping
 Transmission Security Deployment
 Describe Transport Load Control
 Overview of TRM Algorithms
 Describe Transmission Security principle
 Transport Resource Configurations and
 Explain Transmission Security Mechanisms
Mapping
 Outline LTE synchronization
 Transport Load Control
 Describe frequency and time synchronization
 Engineering Guidelines of TRM
 List synchronization sources
 Overview of LTE Synchronization
 Describe working modes of clocks
 Frequency and Time Synchronization
 Perform synchronization configuration
 Synchronization Sources
 Selection of Synchronization Sources
Target Audience
 Working Modes of Clocks
System Engineer
 Synchronization Configuration
Service Engineer
 Synchronization Activation Observation
Service Planning Engineer
 Synchronization Fault Troubleshooting
Service Design Engineer
Training Methods
Network Design Engineer
Prerequisites
Lectures
 Successful completion of the following courses:
 LTE Air Interface
Duration
1 working day
 LTE Protocols and Procedures
Class Size
 eNodeB V100R005 Initial Configuration
Min 6, max 12
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1.5.31 OET68 LTE eRAN6.0 Transmission Features and Algorithms
Objectives
Content
On completion of this course, the participants will
 Overview of Transmission Security
be able to:
 End-to-End Certificate Management
 Introduction TRM Algorithms
 Transmission Security Mechanisms
 Explain transport Resource Configurations and
 When to Use Transmission Security
Mapping
 Transmission Security Deployment
 Describe Transport Load Control
 Overview of TRM Algorithms
 Describe Transmission Security principle
 Transport Resource Configurations and
 Explain Transmission Security Mechanisms
Mapping
 Outline LTE synchronization
 Transport Load Control
 Describe frequency and time synchronization
 Engineering Guidelines of TRM
 List synchronization sources
 Overview of LTE Synchronization
 Describe working modes of clocks
 Frequency and Time Synchronization
 Perform synchronization configuration
 Synchronization Sources
 Selection of Synchronization Sources
Target Audience
 Working Modes of Clocks
System Engineer
 Synchronization Configuration
Service Engineer
 Synchronization Activation Observation
Service Planning Engineer
 Synchronization Fault Troubleshooting
Service Design Engineer
Training Methods
Network Design Engineer
Prerequisites
Lectures
 Successful completion of the following courses:
 LTE Air Interface
Duration
1 working day
 LTE Protocols and Procedures
Class Size
 eNodeB V100R006 Initial Configuration
Min 6, max 12
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1.5.32 OET78 LTE eRAN7.0 Transmission Features and Algorithms
Objectives
On completion of this program, the participants will
be able to:

Explain TRM features and algorithms

Explain transmission security solution

Explain synchronization solution

Explain S1/X2 Self-Management feature and
Synchronization Sources

Selection of Synchronization Sources

Working Modes of Clocks

Synchronization Configuration

Synchronization Activation Observation

Synchronization Fault Troubleshooting

algorithms


Explain Automatic OMCH Establishment
LTE eRAN7.0 S1/X2 Self-Management

Self-Management Overview

S1 Interface Self-Management in
Generic Scenarios
feature

Target Audience
S1 Interface Self-Management in
IPSec-enabled Scenarios

System Engineer
X2 Interface Self-Management in
Generic Scenarios
Service Engineer

Service Planning Engineer
X2 Interface Self-Management in
IPSec-enabled Scenarios
Network Design Engineer

Prerequisites
LTE eRAN7.0 Automatic OMCH
Establishment

Successful completion of the following

courses:

during base station deployment by PnP
eNodeB V100R007 Product Description
Training Content


Automatic OMCH establishment phase
LTE eRAN7.0 Transmission Security Feature

Overview of Transmission Security

End-to-End Certificate Management

Transmission Security Mechanisms

When to Use Transmission Security

Transmission Security Deployment

DHCP introduction

Schemes for Obtaining VLAN
Information

Procedure for Obtaining Configuration
Information in different Scenarios
Duration
1.5 working day
Class Size
LTE eRAN7.0 Transport Resource
Min 6, Max 12
Management Feature

Overview of TRM Algorithms

Transport Resource Configurations and
Mapping


Transport Load Control

Engineering Guidelines of TRM
LTE eRAN7.0 Synchronization

Overview of LTE Synchronization

Frequency and Time Synchronization
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1.6 WBT
1.6.1
OEA00 LTE SAE System Overview(WBT)
Objectives
Prerequisites
On completion of this course, the participants will
be able to:
 Basic knowledge of mobile communications
Content
 Summarize the evolution of 3GPP releases
 Explain the logical architecture of EPS
(E-UTRAN and EPC)
 Give an overview of the interfaces in EPS
 Describe the Evolved Packet Core (EPC)
 Describe the role of the MME and the S-GW
 Describe the S1, X2 and radio-interface and
their protocol stacks
 Describe the radio interface techniques used in
 Network Architecture

Evolution of Cellular Networks

3GPP Releases

E-UTRAN Architecture

E-UTRAN Interfaces and Protocols

EPC Architecture

EPC Interfaces and Protocols
 LTE Air Interface Principles

Radio Interface Techniques

Principles of OFDM

LTE Channel Structures

LTE Frame Structure
Frequency-domain structure in the radio

Downlink OFDMA
interface in UL and DL for both FDD and TDD

Uplink SC-FDMA
mode

Multiple Input Multiple Output

Multimedia Broadcast Multicast Service
uplink and downlink
 Describe the channel structure of the radio
interface
 Describe the time-domai and
 Have a good understanding of the OFDM
principle, signal generation and processing
 eNodeB Product Overview
 Detail the reference symbols in DL

The Huawei eNodeB family
 Describe MIMO technology

Products and application scenarios
 Have a good understanding of the SC-FDMA

Operation and Maintenance
principle, signal generation and processing
Training Methods
 Describe Huawei eNodeB Family
 Describe Huawei LTE products and application
Lectures
Duration
scenarios
 Describe Huawei LTE products Operation and
Maintenance System
4hours
Class Size
Target Audience
All people who want to know LTE principle in brief
Min 6, max 12
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1.6.2
OEA01 LTE in a Nutshell (WBT)
Objectives
Content
On completion of this course, the participants will
be able to:
 State of wireless networks and trends for next
generation wireless networks
 Describe the state of wireless networks and
trends for next generation wireless networks
 Sketch the System Architecture Evolution (SAE)
 System Architecture Evolution (SAE) for LTE
and its interfaces
 OFDM concepts
 Key features of the LTE air interface
for LTE and its interfaces
 Describe OFDM concepts and how it is used in
LTE
 Uplink and downlink traffic are handled in LTE
networks
 Define the key features of the LTE air interface
 Walk through the mobile device operations
 High level service flow setup on an end-to-end
basis
 Deployment scenarios of LTE networks
from power-up to service setup
 Explain how uplink and downlink traffic are
Training Methods
handled in LTE networks
 Walk through a high level service flow setup on
Lectures
Duration
an end-to-end basis
 Explain deployment scenarios of LTE networks
Target Audience
0.5hour
Class Size
All people who want to know LTE in brief
Min 6, max 12
Prerequisites
 Basic knowledge of mobile communications
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