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TRANSCRIPT
LTE Product Technical Training Proposal
COMMERCIAL IN CONFIDENCE 1
Customer Training Catalog
Training Programs
LTE
HUAWEI Learning Service
2019
LTE Product Technical Training Proposal
COMMERCIAL IN CONFIDENCE 2
CONTENTS
1 Training Solution ................................................................................................................................. 3 1.1 Overview ............................................................................................................................... 3 1.2 LTE Learning Solution .......................................................................................................... 3 1.3 Training Solutions ................................................................................................................. 6
1.3.1 LTE Radio Network Planning Engineer Learning Solution ........................................... 7 1.3.2 LTE Radio Network Optimization Engineer Learning Program .................................... 8 1.3.3 LTE Radio Network Back Office O&M Engineer Learning Program ........................... 10 1.3.4 LTE Radio Network Field O&M Engineer Learning Program ..................................... 12
1.4 Training Course Description ............................................................................................... 13 1.4.1 LTE Air Interface Training ............................................................................................ 13 1.4.2 LTE Protocols and E2E Signaling Training ................................................................. 15 1.4.3 LTE eRAN Interoperability Practice Based Training ................................................... 17 1.4.4 LTE Industry Briefing and Network Deployment Training ........................................... 19 1.4.5 LTE System Overview Training ................................................................................... 20 1.4.6 LTE eRAN Commissioning and Operation Training.................................................... 21 1.4.7 LTE eRAN Operation and Maintenance Specific Training .......................................... 23 1.4.8 LTE eRAN Initial Configuration Training ..................................................................... 26 1.4.9 LTE eRAN Troubleshooting Practice Based Training ................................................. 27 1.4.10 LTE eRAN Reconfiguration Training ........................................................................... 28 1.4.11 LTE eRAN Network Design and eNodeB Dimensioning Training .............................. 30 1.4.12 LTE eRAN Transmission Features Training ................................................................ 31 1.4.13 LTE eRAN Security Solution Training ......................................................................... 33 1.4.14 LTE eRAN Advanced Product Solution Training ......................................................... 34 1.4.15 LTE eRAN Advanced Troubleshooting on Antenna & Feeder System Training ......... 37 1.4.16 LTE Advanced Troubleshooting on PS Data Transmission Practice Based Training . 38 1.4.17 LTE eRAN CloudBB Solution Training ........................................................................ 40 1.4.18 LTE eRAN Field Maintenance Training ....................................................................... 42 1.4.19 LTE Lampsite&Small cell Operation and Maintenance Training................................. 43 1.4.20 Cloud RAN Overview Training .................................................................................... 46 1.4.21 4.5G Technology and Application Training .................................................................. 46 1.4.22 Massive MIMO Planning and Optimization Training ................................................... 48 1.4.23 WTTX Planning and Optimization Training ................................................................. 49 1.4.24 WTTX(CPE) Configuration and OM Training .............................................................. 51 1.4.25 NB-IoT Radio Network Planning and Deployment Training........................................ 52 1.4.26 NB-IoT Radio Network Operation and Optimization Training ..................................... 54 1.4.27 eMTC Radio Network Planning and Deployment Training ......................................... 56 1.4.28 LTE HetNet &Small cell Planning and Optimization Training ..................................... 58 1.4.29 LTE eRAN Basic Features and Algorithms Training ................................................... 60 1.4.30 LTE eRAN SON Features and Algorithms Training .................................................... 61 1.4.31 LTE eRAN Performance Improving Features and Algorithms Training ...................... 63 1.4.32 LTE Radio Network Tuning and Optimization Problem Analysis Practice Based Training 65 1.4.33 LTE Performance Management and Analysis Practice Based Training ..................... 67 1.4.34 VoLTE Technical Practice Based Training(WN Specialty) .......................................... 69 1.4.35 LTE Voice Solution Training for O&M .......................................................................... 72 1.4.36 LTE Radio Network Audit and Expansion Training ..................................................... 73 1.4.37 LTE Radio Network planning and Optimization in Special Scenarios Training .......... 75 1.4.38 LTE Radio Network Design and Dimensioning Training ............................................. 77 1.4.39 Big Data Processing and Mining Technology Training................................................ 79 1.4.40 Big Data Analysis and Mining Practice Based Training (Performance Monitoring) .... 82 1.4.41 Big Data Analysis and Mining Practice Based Training (Network Optimization) ........ 84 1.4.42 LTE Radio Network Optimization Engineer S-OJT Training ....................................... 86 1.4.43 LTE RAN Back Office Engineer S-OJT Training ......................................................... 90
LTE Product Technical Training Proposal
COMMERCIAL IN CONFIDENCE 3
1 Training Solution
1.1 Overview
For the operators, How to achieve skill convergence and talent transformation on the base of 2G/3G is a challenge, based on multiple learning method and phase based learning design, Huawei Learning service will provide a efficient and effective solution.
1.2 LTE Learning Solution
LTE OM Capability
Radio Network Planning Engineer
Radio Network Optimization Engineer
Back office O&M Engineer
LTE OSS
and Tools
Training
Monitor and maintain the network efficiently , locate and handle the problems easily with the
supporting of the OSS and tools
Advanced Topics Manage the network performance Analyse and solve complex service prolems and Design the radio network based on the scenario
Intermediate Training Design the LTE radio network and
select different macro and small cell solution bansed on the scenarios
Principles and Basic skill Training Prepare the knowledge and basic skills for the network performance management and optimization
Intermediate Training Optimize the network and apply proper features and strategy to improve the network performance
eNodeB local commissioning and preventive maintenance on eNodeB Handle the main faults of eNodeB
hardware
Network
Technology
Evolution Topics
New insight of MBB technology,be able to propose the technical direction of the operators
'business and network operation and evolution
Job task based learning with on-job guide and life network environment to improve trainee’s
capability on Network performance management and Back office O&M
S-OJT
Field O&M Engineer
Principles and Basic skill Training Prepare the knowledge and basic skills for the radio network dimensioning and design
Intermediate Training
Configure and operate LTE radio network , solve the alarms and
troubles
Advanced Topics Design the networking and
Reconfigure the Network based on scenarios, Handle complex service and Antenna&Feeder system troubles
Principles and Basic skill Training Prepare the knowledge and basic skills for the radio network dimensioning and design
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LTE Air Interface Training
MOOC+Lecture (2D)
LTE eRAN Basic Features and Algorithms Training
Lecture 5D
LTE Network Design and
Dimensioning Training
Lecture 2D
LTE eRAN Performance Improving
Features and Algorithms Training
Lecture 5D
LTE Performance Management and
Analysis Training
Lecture+Hands-On 3D
LTE Protocols and E2E Signaling
MOOC+Lecture (4D)
LTE eRAN Transmission Features
Training
Lecture 2D
LTE eRAN Reconfiguration Training
Lecture +Hands-On 3D
LTE eRAN Commissioning and
Operation Training
Lecture+Hands-on(3D)
LTE eRAN Initial Configuration
Training
MOOC+Lecture+Hands-On(5D)
LTE Advanced Troubleshooting on
Antenna & Feeder System
Lecture+Hands-On 2D
LTE eRAN Network Design and
eNodeB Dimensioning Training
Lecture 2D
LTE eRAN Advanced Product
Solution Training
Lecture 3D
LTE Hetnet &Small cell Planning
and Optimization Training
Lecture+Hands-On 5D
LTE eRAN Operation and Maintenance
Specific Training
Lecture+Hands-On 3D
LTE Advanced Troubleshooting on
PS Data Transmission Training
Lecture+Hands-On 2D
LTE Field Maintenance Training
Lecture+Hands-On 2D
Radio Network
Planning Engineer
Radio Network
Optimization Engineer
Back office O&M
Engineer
Filed O&M Engineer
LTE Lampsite&Small Cell
Operation and Maintenance
TrainingLecture+Hands-on 5D
LTE Interoperability Training
MOOC+Lecture+Case Study(2D)
Basic
Training
Intermediate
Training
Advanced
Training
S-OJT
Hot Topics
LTE eRAN Troubleshooting Training
Lecture+Case Study 2D
LTE System Overview
Lecture 1D
LTE Industry Briefing and Network Deployment Training
Lecture 1D
LTE eRAN Security Solution Training
Lecture 2D
The learning solution is “Job role Based”, according to your department structure, learning path for different staffs will be customized.
Multiple learning method will be applied: E-learning, Lecture, Practice, S-OJT(structure On job training ), e-Lab, simulation practice , workshop and seminar, we can expect the learning to be a efficient and effective one.
What’s MOOC:
MOOC means: massive open online courses, s an online course aimed at unlimited participation and open access via the web. In
addition to traditional course materials such as filmed lectures, readings, and problem sets, Huawei MOOCs provide interactive user
forums to support community interactions among students, professors, and teaching assistants . The LTE beginner can join the
MOOC course to learning the basic and background knowledge of LTE principles and device basic.
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S-OJT:
Structured On-the-Job Training(S-OJT)is introduced from US and developed through Huawei practice to meet the challenge to
improve trainee’s hands-on competence。
Training contents are designed to grasp tasks of job roles, contents are based on trainee’s live network
Architecture is based on job tasks through analysis of trainee’s job duties
Mentor uses task list to deliver S-OJT
LTE Product Technical Training Proposal
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1.3 Training Solutions
The standard LTE learning solution is designed for the 4 job roles:
Training Programs
LTE Radio Network Planning Engineer Learning Solution(1.3.1)
LTE Radio Network Optimization Engineer Learning Solution(1.3.2)
LTE Back Office O&M Engineer Learning Solution(1.3.3)
LTE Field O&M Engineer Learning Solution(1.3.4)
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1.3.1 LTE Radio Network Planning Engineer Learning Solution
Learning Phase
Training Program Level MOOC
(Weeks)
Centralized Training
(Workdays)
S-OJT
(Workdays)
Class Size
LTE Basic Training
LTE Air Interface Training Ⅱ 2 2 / 6~12
LTE Protocols and E2E Signaling
Ⅱ 2 4 / 6~12
LTE eRAN Basic Features and Algorithms Training
Ⅱ / 5 / 6~12
LTE IntermediateTraining
LTE Radio Network Design and Dimensioning Training
Ⅲ / 2 / 6~12
LTE HetNet &Small cell Planning and Optimization Training
Ⅲ / 5 / 6~12
Hot Topics
LTE Voice Solution Training Ⅳ / 10 / 6~12
4.5G Technology and Application Training
Ⅱ / 2 / 6~12
Massive MIMO Planning and Depolyment Training
Ⅳ / 2 / 6~12
NB-IoT Radio Network Planning and Deployment Training
Ⅳ / 5 / 6~12
NB-IoT Radio Network Operation and Optimization Training
Ⅳ / 5 / 6~12
eMTC Radio Network Planning and Deployment Training
Ⅳ / 2 / 6~12
Mobile Network Evolution and 5G Technology Application Training
Ⅱ / 1 / 6~12
Cloud RAN Overview Training
Ⅱ / 1 / 6~12
WTTX Planning and Optimization Training
Ⅲ / 3 / 6~12
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1.3.2 LTE Radio Network Optimization Engineer Learning Program
Training Program List
Training Program Level MOOC
(week)
Centralized Training
(Workdays)
S-OJT
(Workdays)
Class Size
LTE Basics Training
LTE Air Interface Ⅱ 2 2 / 6~12
LTE Protocols and E2E Signaling
Ⅱ 2 4 / 6~12
LTE eRAN Basic Features and Algorithms Training
Ⅱ / 5 / 6~12
LTE eRAN Interoperability Practice Based
Training
LTE Interoperability Ⅲ 1 2 / 6~12
LTE eRAN SON Features and Algorithms Training
Ⅲ / 2 / 6~12
LTE eRAN Performance Improving Features and Algorithms Training
Ⅲ / 5 / 6~12
LTE Advanced Training
LTE Performance Management and Analysis Practice Based Training
Ⅲ / 3 / 6~12
LTE Radio Network Tuning and Optimization Problem Analysis Practice Based Training
Ⅲ
/ 4 / 6~12
LTE Radio Network Audit and Expansion Training
Ⅳ / 2 / 6~12
LTE Radio Network planning and Optimization in Special Scenarios
Ⅳ / 2 / 6~12
Big Data Processing and Mining Technology Training
Ⅱ / 5 /
8~16
Big Data Analysis and Mining Practice Based Training (Performance Monitoring)
Ⅲ / 5
/
8~16
Big Data Analysis and Mining Practice Based Training (Network Optimization)
Ⅲ / 5
/
8~16
S-OJT LTE Radio Network Optimization Engineer S-OJT
Ⅰ / 20 / 3~6
Hot Topics
LTE Voice Solution Training
Ⅳ / 10 / 6~12
4.5G Technology and Application Training
Ⅱ / 2 / 6~12
Massive MIMO Planning and Depolyment Training
Ⅳ / 2 / 6~12
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NB-IoT Radio Network Planning and Deployment Training
Ⅳ / 5 / 6~12
NB-IoT Radio Network Operation and Optimization Training
Ⅳ / 5 / 6~12
eMTC Radio Network Planning and Deployment Training
Ⅳ / 2 / 6~12
Mobile Network Evolution and 5G Technology Application Training
Ⅱ / 1 / 6~12
Cloud RAN Overview Training
Ⅱ / 1 / 6~12
WTTX Planning and Optimization Training
Ⅲ / 3 / 6~12
Level Description:Ⅰ: Basic Course Ⅱ: Intermediate Course Ⅲ: Advanced Course Ⅳ: Expert
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1.3.3 LTE Radio Network Back Office O&M Engineer Learning Program
Learning Phase
Training Program Level
MOOC
(week)
Centralized Training
(Workdays)
S-OJT
(Workdays)
Class Size
LTE Basics Training
LTE Air Interface Ⅱ 3 2 / 6~12
LTE Protocols and E2E Signaling
Ⅱ 2 4 /
6~12
LTE eRAN Commissioning and Operation Training
Ⅱ 1 3 / 6~12
LTE Lampsite&Small Cell Operation and Maintenance Training
Ⅱ / 5
/
6~12
LTE
Intermediate
Training
LTE eRAN Operation and Maintenance Specific Training
Ⅱ
/
3
/
6~12
LTE eRAN Initial Configuration Training
Ⅱ 1
5 /
6~12
LTE eRAN Troubleshooting Practice Based Training
Ⅲ /
2 /
6~12
LTE
Advanced
Training
LTE eRAN Reconfiguration Training
Ⅲ
/ 3
/ 6~12
LTE Advanced Troubleshooting on Antenna & Feeder System
Ⅲ
/
2
/
6~12
LTE Advanced Troubleshooting on PS Data Transmission Practice Based Training
Ⅲ
/
2
/
6~12
LTE eRAN Network Design and eNodeB Dimensioning Training
Ⅲ
/
2
/
6~12
LTE eRAN Transmission Features Training
Ⅲ /
2 /
6~12
LTE eRAN Security Solution Training
Ⅲ /
2 /
6~12
LTE eRAN Advanced Product Solution Training
Ⅲ /
3 /
6~12
S-OJT LTE RAN Back Office Engineer S-OJT Training
Ⅰ /
30 /
3~6
Hot Topics
LTE Voice Solution Training for O&M
Ⅳ /
2 /
6~12
LTE eRAN Cloud BB Solution Training
Ⅳ /
2 /
6~12
Cloud RAN Overview Training
Ⅱ / 1 / 6~12
WTTX(CPE) Configuration and Operation Training
Ⅱ / 2 / 6~12
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Level Description:Ⅰ: Basic Course Ⅱ: Intermediate Course Ⅲ: Advanced Course Ⅳ: Expert
Course
LTE Product Technical Training Proposal
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1.3.4 LTE Radio Network Field O&M Engineer Learning Program
Learning Phase
Training Program Level
MOOC
(week)
Centralized Training
(Workdays)
S-OJT
(Workdays)
Class Size
(Person)
LTE Basics Training
LTE eRAN Field Maintenance Training
Ⅱ 2
6~12
Level Description:Ⅰ: Basic Course Ⅱ: Intermediate Course Ⅲ: Advanced Course Ⅳ: Expert
Course
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1.4 Training Course Description
1.4.1 LTE Air Interface Training
Training Path
Target Audience
Radio Network Planning Engineer
Radio Network Optimization Engineer
Back office O&M Engineer
Filed O&M Engineer
Prerequisites
Attendees should have a general knowledge in cellular systems and radio technology.
Objectives
On completion of this program, the participants will be able to:
Describe the architecture of LTE air interface and identify the functions of each layer
Summarize the time-domain and frequency-domain structure in the radio interface in UL and DL for both FDD and TDD mode
Outline the channel/frame structure of the radio interface
Describe the uplink/downlink physical signals
Explain the cell search/random access procedure
Online Pre-learning Content
LTE Air Interface MOOC
LTE Air Interface MOOC
LTE Air Interface Overview
Radio interface protocols
RRC Layer Introduction
PDCP Layer Introduction
RLC Layer Introduction
MAC Layer Introduction
OFDMA/SC-FDMA principle, signal generation and processing
Channel structure of the radio interface
Uplink/downlink physical signals
Uplink/downlink control signaling and formats
Test
LTE Air Interface
OEA04 2 W MOOC
LTE Air Interface
OEA04 2D Lecture
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Online Pre-learning Duration
2 weeks
Centralized Training Content
LTE Air Interface
LTE Air Interface
The evolution of cellular networks and 3Gpp release
Radio interface techniques
OFDMA/SC-FDMA principle, signal generation and processing
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
Uplink/downlink transmission technique
The paging procedure
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
Centralized Training Duration
2 working days
Class Size
Min 6, Max 12
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1.4.2 LTE Protocols and E2E Signaling Training
Training Path
Target Audience
Radio Network Planning Engineer
Radio Network Optimization Engineer
Back office O&M Engineer
Filed O&M Engineer
Prerequisites
Successful completion of the following courses:
LTE Air Interface
Objectives
On completion of this program, the participants will be able to:
Explain the concept, principle and signaling flow of typical procedure, such as UE access procedure, paging, TAU, handover etc
Analysis signaling and Identify the abnormal IE of typical procedures
Online Pre-learning Content
LTE Protocols and E2E Signaling MOOC
LTE Protocols and E2E Signaling MOOC
LTE Protocols and E2E Signaling Overview
LTE Network Structure
UE Power ON Procedure
Default bearer establish and attach procedure
Dedicated bearer establish and attach procedure
Paging Procedure
TAU Procedure
Handover Procedure
Online Pre-learning Duration
2 weeks
Centralized Training Content
LTE Protocols and E2E Signaling
LTE Protocols and E2E Signaling
The detail signaling procedure of UE access network
The detail signaling procedure of paging
LTE Protocols and E2E Signaling
OEA00 2 W MOOC
LTE Protocols and E2E Signaling
OEA00 3D Lecture
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The detail signaling procedure of TAU
The detail signaling procedure of Handover
The detail signaling procedure of detach
Centralized Training Duration
3 working days
Class Size
Min 6, Max 12
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1.4.3 LTE eRAN Interoperability Practice Based Training
Training Path
Prerequisites
Successful completion of the following courses:
LTE Air Interface
LTE Protocols and Procedures
Target Audience
Radio Network Optimization Engineer
Objectives
On completion of this program, the participants will be able to:
Design LTE interoperability strategy in idle mode and connected mode
Assess LTE interoperability strategy and apply interoperability strategy deployment
Perform LTE interoperability performance evaluation and optimization
Online Pre-learning Content
LTE Interoperability MOOC
LTE Interoperability MOOC
LTE Interoperability Overview
IRAT Cell Selection Procedure
IRAT Handover Procedure
Redirection procedure
Online Pre-learning Duration
1 week
Centralized Training Content
LTE Interoperability
LTE eRAN Interoperability in Idle Mode(LTE->GU)
LTE Interoperability in Idle Mode Overview
IRAT PLMN Selection Procedure
IRAT Cell Selection Criteria
IRAT Cell Reselection Criteria
IRAT Signaling Procedure in Idle Mode
LTE eRAN Interoperability in Connection Mode (LTE->GU)
Technical Overview and Basic Concepts
LTE Interoperability
OEA05 1 W MOOC
LTE Interoperability
OEA05 2D Lecture, Case Study
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Measurement Configuration
Measurement Triggering/Stopping Phase of an IRAT Handover
Redirection
Blind Handover
Measurement Phase of an IRAT Handover
Decision Phase of an IRAT Handover
Execution Phase of an IRAT Handover
IRAT Signaling Procedure in Connection Mode
LTE Inter-RAT Interoperability (Including CSFB)
LTE and GU Interoperability Policy and Problem Categories
Long Delay Fault Diagnosis
Low Success Rate Fault Diagnosis
UE disconnecting and Invalid redirection Fault Diagnosis
SRVCC Problem Diagnosis
Centralized Training Duration
2 working day (Case Study 0.5 day)
Class Size
Min 6, Max 12
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1.4.4 LTE Industry Briefing and Network Deployment Training
Training Path
Target Audience
Business Developer
Prerequisites
A general knowledge in cellular systems and radio technology
Objectives
On completion of this program, the participants will be able to:
Describe various services and trends provided by LTE
Describe network architecture of EPS(E-UTRAN and EPC)
Outline LTE overall network evolution deployment scenario such as interoperability strategy, voice strategy etc.
Centralized Training Content
LTE Industry Briefing and Network Deployment (GUL)
LTE Industry Briefing and Network Deployment (GUL)
Incentive of LTE
Services of LTE
LTE Key Technologies
Evolution of Radio Technologies
LTE Network Architecture
LTE Industry Chain Development
LTE Radio Network Evolution Deployment
LTE Core Network Evolution Deployment
LTE Transmission Network Evolution Deployment
Centralized Training Duration
1 working day
Class Size
Min 6, Max 12
LTE Industry Briefing and Network Deployment
OEA11 1D Lecture
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1.4.5 LTE System Overview Training
Training Path
Target Audience
Business Developer
Prerequisites
A general knowledge in cellular systems and radio technology
Objectives
On completion of this program, the participants will be able to:
Describe various services and trends provided by LTE
Describe network architecture of EPS(E-UTRAN and EPC)
Explain key technologies of LTE, such as OFDM/SC-FDM, MIMO
Online Pre-learning Content
LTE /EPC System Overview MOOC
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
Multiple Input Multiple Output
Multimedia Broadcast Multicast Service
Online Pre-learning Duration
1 week
Centralized Training Content
LTE System Overview
LTE System Overview
Evolution of Cellular Networks and 3Gpp releases
LTE Network Architecture
E-UTRAN Interfaces and Protocols
LTE Air Interface Principles
Radio Interface Techniques
Broadcast Multicast Service
eNodeB Product Overview
Products and application scenarios
Operation and Maintenance
LTE System Overview
OEA00 1D Lecture
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Centralized Training Duration
1 working day
Class Size
Min 6, Max 12
1.4.6 LTE eRAN Commissioning and Operation Training
Training Path
Target Audience
Back office O&M Engineer
Prerequisites
Successful completion of the following courses:
LTE System Overview
Objectives
On completion of this program, the participants will be able to:
Describe the hardware and logical structure of eNodeB
Describe the working principle and functions of eNodeB boards
Perform eNodeB commissioning
Explain the architecture and components of eNodeB operation and maintenance system
Perform device management, software management, transport data management, radio data management and real-time monitoring management, etc
Online Pre-learning Content
ENodeB BTS3900 Product Description MOOC
eNodeB System Overview
eNodeB System Structure
eNodeB LTE Site Solution
OEB81 0.5D Lecture
eNodeB Operation
OEB74 1D Lecture, Hands-on
eNodeB Equipment Commissioning
OEB83 1D Lecture, Hands-on
eNodeB Product Description
OEB80 0.5D Lecture
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eNodeB Auxiliary Devices
eNodeB Typical Networking
LTE Backhaul Solution Introduction MOOC
Backhaul Overview
LTE Backhaul Requirement
LTE Backhaul Solution
Online Pre-learning Duration
1 week
Centralized Training Content
eNodeB Product Description
eNodeB BTS3900\BTS5900 Product Description
eNodeB System Overview
eNodeB System Structure
eNodeB Auxiliary Devices
eNodeB Typical Networking
eNodeB LTE Site Solution
Indoor eNodeB Solution
Outdoor eNodeB Solution
Distributed eNodeB Solution
Typical BOQ discussion
eNodeB Equipment Commissioning
eNodeB LTE Equipment Commissioning
eNodeB Commissioning Overview
eNodeB Remote Commissioning on the U2000
LTE eRAN Automatic OMCH Establishment
Automatic OMCH establishment phase during base station deployment by PnP
DHCP introduction
Schemes for Obtaining VLAN Information
Procedure for Obtaining Configuration Information in different Scenarios
eNodeB Operation
eNodeB LTE Operation
Structure of operation and maintenance system
Login eNodeB O&M system
eNodeB equipment management
eNodeB transport management
eNodeB radio management
Backup eNodeB configuration file, query eNodeB version
Tracing and real time monitoring
eNodeB LTE Operation Practice Guide
Practice on eNodeB operation
Centralized Training Duration
3 working days
Class Size
Min 6, Max 12
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1.4.7 LTE eRAN Operation and Maintenance Specific Training
Training path
Target Audience
Back office O&M Engineer
Prerequisites
Successful completion of the following courses:
LTE eRAN Commissioning and Operation Training
Objectives
On completion of this program, the participants will be able to:
Perform eNodeB software upgrading by U2000
Verify service and network performance after upgrading
Outline basic operation and concept of alarm management
Monitor eNodeB data information and resource status
Outline the basic operation in performance management
Perform daily real-time tracing and monitoring data operation tasks
Describe LTE preventive maintenance inspection procedure
Online Pre-learning Content
eNodeB BTS3900 Product Description MOOC
eNodeB System Overview
eNodeB System Structure
eNodeB Auxiliary Devices
eNodeB Typical Networking
LTE Backhaul Solution Introduction MOOC
Backhaul Overview
LTE Backhaul Requirement
LTE Backhaul Solution
Online Pre-learning Duration
1 week
OEB30 0.5D Lecture, Hands-on
eNodeB LTE Tracing and Monitoring
OEB30 0.5D Lecture, Hands-on
eNodeB LTE Performance Management
OEB41 0.5D Lecture, Hands-on
eNodeB LTE Data Management
OEB30 0.5D Lecture, Hands-on
eNodeB LTE Alarm Management
OEB40 0.5D Lecture, Hands-on
eNodeB LTE Upgrading Management
OEB25 0.5D Lecture, Hands-on
eNodeB LTE Preventive Maintenance Inspection
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Centralized Training Content
eNodeB LTE Upgrading Management
eNodeB LTE Upgrading Management
Version software management concpet
Upgrading procedure and operation
Upgrading preparation
Upgrading execution
Install license
Verify upgrading result
Check the running status of eNodeB
Service verification
Network performance verification
Version rollback
eNodeB LTE Upgrading Management Practice Guide
Practice on U2000 software management functions on eNodeB
eNodeB LTE Alarm Management
eNodeB LTE Alarm Management
Alarm Management Overview
Basic Concepts
Alarm Basic Operations
Common Alarms Setting Operations
eNodeB LTE Alarm Management Practice Guide
Practice on U2000 alarm management functions on eNodeB
eNodeB LTE Data Management
eNodeB LTE Data Management
U2000 Data Management Overview
Configure eNodeB Data
Synchronize eNodeB Data
Monitor eNodeB Data
Backup and Recover eNodeB Data
eNodeB LTE Data Management Practice Guide
Practice on U2000 data management functions on eNodeB
eNodeB LTE Performance Management
eNodeB LTE Performance Management
Performance Management Procedure
Basic Concepts about Performance Management
Introduction to eNodeB Common KPIs
Performance Counter Collection Management
Performance Data Export to Northbound Management
Performance Data Saving and Result Query in U2000
Performance Data Saving and Report Management in PRS
eNodeB LTE Performance Management Practice Guide
Practice on U2000 performance management functions on eNodeB
eNodeB LTE tracing and monitoring
eNodeB LTE tracing and monitoring
LTE tracing and monitoring function panorama
Common data source in LTE maintenance and test
Real-time tracing and monitoring data
Signaling trace collection method
In-depth real-time tracing and monitoring data source collection method
LTE Product Technical Training Proposal
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Performance monitoring data collection method
IMSI-based whole network tracing and monitoring data
eNodeB LTE tracing and monitoring practice guide
Practice on start up of tracing and real-time monitoring tasks on eNodeB
eNodeB LTE Preventive Maintenance Inspection
eNodeB LTE Preventive Maintenance Inspection
Preventive Maintenance Inspection Procedure
Equipment Status Inspection
Equipment Configuration Inspection
Alarm Analysis and Handling
Equipment Load Assessment
Basic KPI Analysis
Centralized Training Duration
3 working days
Class Size
Min 6, Max 12
LTE Product Technical Training Proposal
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1.4.8 LTE eRAN Initial Configuration Training
Training Path
Target Audience
Back office O&M Engineer
Prerequisites
Successful completion of the following courses:
LTE System Overview
eNodeB Product Description
Objectives
On completion of this program, the participants will be able to:
Outline the procedure of eNodeB data configuration
Apply eNodeB configuration related command and parameters
Perform eNodeB configuration by MML and CME tool
Online Pre-learning Content
IP Network Basic Overview MOOC
IP Network Fundamental
TCP/IP Fundamental
IP Address Fundamental
VRP Basic Configuration
Online Pre-learning Duration
1 week
Centralized Training Content
OEB851 eNodeB Data Introduction for Initial Configuration
eNodeB LTE Data Introduction for Initial Configuration
eNodeB Data Configuration Introduction
Common Data Parameters Introduction
Data Preparation in Specific Scenarios
eNodeB LTE Initial Configuration by MML Practice Guide
Practice on eNodeB data configuration file by MML
OEB852 eNodeB LTE Initial Configuration by CME
eNodeB LTE Initial Configuration by CME
eNodeB Data Configuration by CME Introduction
eNodeB LTE Initial Configuration by CME
OEB85 2D Lecture, Hands-on
eNodeB Data Introduction for Initial Configuration
OEB85 3D Lecture, Hands-on
LTE Product Technical Training Proposal
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Preparing eNodeB Data
Creating eNodeB Data
Adjusting eNodeB Data
Checking eNodeB Data
Exporting eNodeB Data
eNodeB LTE Initial Configuration by CME Practice Guide
Practice on eNodeB data configuration file by CME
Centralized Training Duration
5 working days
Class Size
Min 6, Max 12
1.4.9 LTE eRAN Troubleshooting Practice Based Training
Training Path
Target Audience
Back office O&M Engineer
Prerequisites
Successful completion of the following courses:
LTE System Overview
eNodeB LTE Product Description
Objectives
On completion of this program, the participants will be able to:
Outline the procedure of eNodeB troubleshooting flow
Perform the alarm management and analysis
Handle the main faults of device&transport&radio level
Centralized Training Content
OEB86 eNodeB Troubleshooting
eNodeB LTE Troubleshooting
Troubleshooting Overview
Troubleshooting Cell Unavailable Faults
Troubleshooting IP Transmission Faults
Troubleshooting Application Layer Faults
Troubleshooting Synchronization Faults
Troubleshooting Transmission Security Faults
Troubleshooting RF Unit Faults
Troubleshooting License Faults
Service Failure after EPC Capacity Expansion Case Study
Operation and Maintenance Channel Cannot be Set Up Case Study
eNodeB LTE TOP Alarm Handling
eNodeB Troubleshooting
OEB86 2D Lecture, Case Study
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Alarm Related Concept and Operation
General Alarm Handling Procedure
Introduction to TOP Alarms Handling
Cases Discussion
Scenario based Practice
Transmission Faulty Scenario-based Troubleshooting
BTS Unreachable Faulty Scenario-based Troubleshooting
Antenna System Faulty Scenario-based Troubleshooting
Centralized Training Duration
2 working days
Class Size
Min 6, Max 12
1.4.10 LTE eRAN Reconfiguration Training
Training Path
Target Audience
Radio Network Optimization Engineer
Back office O&M Engineer
Prerequisites
Successful completion of the following courses:
LTE System Overview
eNodeB LTE Product Description
Objectives
On completion of this program, the participants will be able to:
Apply CME’s features for initial configuration and reconfiguration
Perform Radio Data Reconfiguration
Perform Transport Data Reconfiguration
Perform eNodeB Device Data Reconfiguration
Centralized Training Content
U2000-CME Introduction
U2000-CME Introduction
CME Overview Introduction
Features of the CME
Area Management
eNodeB Reconfiguration
OEB87 2D Lecture, Hands-on
U2000-CME Introduction
OEC15 1D Lecture, Hands-on
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Template Management
Neighboring Cell Management
Feature OM Management
Data Check
Script Executor
Data Fallback
CME Configuration Scenarios
Base Station Initial Configuration
Network Reconfiguration
eNodeB Reconfiguration
eNodeB LTE Reconfiguration
Reconfiguration Working Flow
Reconfiguration Tools and Operation
Radio/Device/Transmission Data Reconfiguration
Data Reconfiguration in Typical Scenarios
eNodeB LTE Reconfiguration Practice
Data preparation Practice on typical reconfiguration scenarios
Centralized Training Duration
3 working days
Class Size
Min 6, Max 12
LTE Product Technical Training Proposal
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1.4.11 LTE eRAN Network Design and eNodeB Dimensioning Training
Training Path
Target Audience
Back office O&M Engineer
Radio Network Planning Engineer
Prerequisites
Successful completion of the following courses:
eNodeB Initial Configuration
Objectives
On completion of this program, the participants will be able to:
Collect information for network design
Calculate eNodeB board related capability
Perform typical eNodeB board dimensioning
Perform EUTRAN network design
Centralized Training Content
LTE eRAN Networking Design Training
LTE eRAN Network Design
Introduction to Network Design
Hardware Resource Allocation Design
ENodeB board capability introduction
Typical eNodeB site board dimensioning
IP Interworking Design
O&M Design
Clock Synchronization Design
S1 Reliability Design
Naming and Numbering Design
Unified Network Design
LTE and U2000 Network Design
LTE and EPC Network Design
LTE eRAN Network Design Drill
Practice to make LLD based on given example networking scenarios
Centralized Training Duration
2 working days
Class Size
Min 6, Max 12
LTE eRAN Networking Design and eNodeB Dimensioning Training
OEB89 2D Lecture
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1.4.12 LTE eRAN Transmission Features Training
Training Path
Target Audience
Back office O&M Engineer
Prerequisites
Successful completion of the following courses:
eNodeB Initial Configuration
Objectives
On completion of this program, the participants will be able to:
Apply TRM related algorithms in typical scenarios
Outline the procedure of Automatic OMCH Establishment
Apply S1&X2 Interface Self-Management in Generic Scenarios& IPSec-enabled Scenarios
Centralized Training Content
LTE eRAN Transport Resource Management Feature
LTE eRAN Transport Resource Management Feature
Overview of TRM Algorithms
Transport Resource Configurations and Mapping
Transport Load Control
Engineering Guidelines of TRM
LTE eRAN Synchronization Feature
LTE eRAN Synchronization
Overview of LTE Synchronization
Frequency and Time Synchronization
Synchronization Sources
Selection of Synchronization Sources
Working Modes of Clocks
Synchronization Configuration
Synchronization Activation Observation
Synchronization Fault Troubleshooting
LTE eRAN Transmission SON features
LTE eRAN Transmission SON features
OET88 1D Lecture
LTE eRAN Synchronization Feature
OET88 0.5D Lecture
LTE eRAN Transport Resource Management Feature
OET88 0.5D Lecture
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LTE eRAN Automatic OMCH Establishment
Automatic OMCH establishment phase during base station deployment by PnP
DHCP introduction
Schemes for Obtaining VLAN Information
Procedure for Obtaining Configuration Information in different Scenarios
LTE eRAN S1/X2 Self-Management
Self-Management Overview
S1/X2 Interface Self-Management in Generic Scenarios
S1/X2 Interface Self-Management in IPSec-enabled Scenarios
LTE eRAN Transmission Fault Detection Solution
Transmission Maintenance and Detection Overview
Detection in Data link layer - Ethernet OAM
Detection in Network layer - BFD, ICMP Ping, Trace route, etc
Transport layer/application layer - IP Performance Monitor, TWAMP
Centralized Training Duration
2 working days
Class Size
Min 6, Max 12
LTE Product Technical Training Proposal
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1.4.13 LTE eRAN Security Solution Training
Training Path
Target Audience
Back office O&M Engineer
Prerequisites
Successful completion of the following courses:
eNodeB Initial Configuration
Objectives
On completion of this program, the participants will be able to:
Apply IPSec transmission security feature and IPSec tunnel reliability solution
Implement data preparation for transmission security features deployment
Acquaint with two Security Measures of Radio Security
Outline Huawei equipment security measures
Apply Radio Security and equipment security deployment
Centralized Training Content
LTE eRAN Transmission Security and reliability
LTE eRAN Transmission Security and Reliability ISSUE 1.00
Transmission security solution overview
PKI feature and data preparation
IPSec transmission security feature and data preparation
IPSec Introduction and Reliability Design
802.1X Access Authentication Feature and data preparation
SSL Transmission Security Feature and data preparation
LTE eRAN Radio Security
LTE eRAN Radio Security Solution
Radio Security Overview
Security Measures
Key Derivation
LTE eRAN Equipment and OM Security
OES883 0.5D Lecture
LTE eRAN Radio Security
OES882 0.5D Lecture
LTE eRAN Transmission Security and reliability
OES881 1D Lecture
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Activation and Change of the Security Mode
Radio security data preparation
LTE eRAN Equipment and OM Security
LTE eRAN Equipment and OM Security Solution
OM security and data preparation
OMCH security
Web security
User Management
Sensitive personal data security
Security management of configuration files
Digital signature-based software integrity protection
Time security
Security alarms, events, and logs
Security policy level configuration
Equipment security and data preparation
Physical security
OS security
Self-check upon startup
Process auditing
Integrated firewall
Physical Port Security
Centralized Training Duration
2 working days
Class Size
Min 6, Max 12
1.4.14 LTE eRAN Advanced Product Solution Training
Training Path
LTE eRAN RF Power Saving Solution
OEF803 0.25D Lecture
LTE eRAN CPRI Topology and Application
OEF802 0.5D Lecture
LTE eRAN S1-Flex
OEF801 0.5D Lecture
LTE Product Technical Training Proposal
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Target Audience
Back office O&M Engineer
Prerequisites
Successful completion of the following courses:
eNodeB Initial Configuration
Objectives
On completion of this program, the participants will be able to:
Apply S1-Flex, Complete S1-Flex configuration
Apply CPRI sharing and different topology
Understand on the actions performed by eNodeB after triggering the power saving features
Perform Data Configurations for multi-BBU interconnection features
Understand the benefits, application scenarios, and specifications of the ALD-related features.
Apply the SFN and adaptive SFN feature
Apply the eMBMS technologies
Apply basic mode of LTE RAN sharing
Centralized Training Content
OEF801 LTE eRAN S1-Flex
LTE eRAN S1-Flex
Overview of S1-Flex
Concepts Related to S1-Flex
S1-Flex Technical Description
Engineering Guidelines
LTE eRAN RAN Sharing
OEF808 0.25D Lecture
LTE eRAN eMBMS
OEF807 0.25D Lecture
LTE eRAN SFN(single frequency network)
OEF806 0.5D Lecture
LTE eRAN ALD Introduction and Management
OEF805 0.5D Lecture
LTE eRAN BBU Interconnection
OEF804 0.25D Lecture
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OEF802 LTE eRAN CPRI Topology and Application
LTE eRAN CPRI Topology and Application
CPRI Compression Feature
CPRI Sharing Feature
Reliability design
OEF803 LTE eRAN RF Power Saving Solution
LTE eRAN RF Power Saving Solution
RF power saving overview
Intelligent Power-Off of Carriers in the Same Coverage
RF Channel Intelligent Shutdown
Adaptive Power Consumption
Low Power Consumption Mode
Symbol Power Saving
Intelligent Power-Off of Carriers in the Same Coverage of UMTS Network
RRU PA Efficiency Improvement Feature
OEF804 LTE eRAN BBU Interconnection
LTE eRAN BBU Interconnection
Definition of multi-BBU interconnection
Features related to multi-BBU interconnection
Data Configurations for multi-BBU interconnection
OEF805 LTE eRAN ALD Introduction and Management
LTE eRAN ALD Introduction and Management
ALD management overview
RET introduction and data configuration
TMA introduction and data configuration
AAU introduction and data configuration
OEF806 LTE eRAN SFN(single frequency network)
LTE eRAN SFN(single frequency network)
SFN Concepts and Principles
SFN Deployment and Configuration
SFN Key Counters
OEF807 LTE eRAN eMBMS
LTE eRAN eMBMS
eMBMS Introduction
Technical Description
Application Scenarios
Configuration and Activation
Verification and Deactivation
OEF808 LTE eRAN RAN Sharing
LTE eRAN RAN Sharing
RAN sharing overview
RAN Sharing with Common Carriers
RAN Sharing with Dedicated Carriers
Hybrid RAN Sharing
Centralized Training Duration
3 working days
Class Size
Min 6, Max 12
LTE Product Technical Training Proposal
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1.4.15 LTE eRAN Advanced Troubleshooting on Antenna & Feeder System Training
Training Path
Target Audience
Back office O&M Engineer
Prerequisites
Successful completion of the following courses:
LTE System Overview
eNodeB LTE Product Description
Objectives
On completion of this program, the participants will be able to:
Describe working principle and properties of antenna
Identify specifications of antenna
Perform eNodeB VSWR alarm troubleshooting
Perform eNodeB RSSI alarm troubleshooting
Centralized Training Content
Basic Introduction to Antenna and Feeder
Basic Introduction to Antenna and Feeder
Antenna & Feeder System Components Overview
Antenna Basic Knowledge
Feeder and Jumper
eNodeB Antenna & Feeder System Troubleshooting
eNodeB LTE Antenna & Feeder System Fault Analysis and Troubleshooting
Faults related to antenna & feeder system
PIM principle and fault analysis
VSWR principle and fault analysis
TMA working principle and power supply
Location by section method in PIM and VSWR troubleshooting
Troubleshooting with help of Huawei U2000 and Web LMT
eNodeB LTE Antenna & Feeder System Fault Analysis and Troubleshooting Trainees Manual
Upon completion of this course, you will be able to grasp the operation of the following task:
Offline VSWR test
DTF test of the antenna VSWR
Crossed pair detection
Intermodulation detection
eNodeB Antenna and Feeder System Troubleshooting
OEB86 1.5D Lecture, Hands-on
Basic Introduction to Antenna and Feeder
OEB06 0.5D Lecture
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DTP test of the antenna PIM
Centralized Training Duration
2 working days
Class Size
Min 6, Max 12
1.4.16 LTE Advanced Troubleshooting on PS Data Transmission Practice Based
Training
Training Path
Target Audience
Back office O&M Engineer
Prerequisites
Successful completion of the following courses:
LTE System Overview
eNodeB Product Description
Objectives
On completion of this program, the participants will be able to:
Understand EPS E2E IP transmission network
Utilize tools to collect IP layer message for analysis
Perform transmission connection issue troubleshooting
Perform LTE throughput problem troubleshooting
Centralized Training Content
OEBxx EPS End to End IP Protocol Analysis
EPS End to End IP Protocol Analysis
End to end IP protocol architecture
Method/ tools on collecting IP layer message
Trace analysis:
O&M trace
Control Plane trace
User Plane trace
OEBxx LTE Throughput Analysis
LTE Throughput Analysis
LTE Throughput Analysis
OEB86 1D Lecture, Scenario based
Practic
EPS End to End IP Protocol Analysis
OEB86 1D Lecture, Hands-on
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Factors affecting LTE throughput
Analysis on throughput problem
Low throughput
Fluctuating Throughput
Example cases
LTE Advanced Transmission Troubleshooting Practice Guide
Trace Capturing: By using wireshark and U2000
Trace Analysis: Fill in the blank. Like the message content of captured message
Scenario based Data Transmission Troubleshooting
Analysis on Throughput problem caused by transmission Centralized Training Duration
2 working days
Class Size
Min 6, Max 12
LTE Product Technical Training Proposal
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1.4.17 LTE eRAN CloudBB Solution Training
Training Path
Target Audience
Back office O&M Engineer
Prerequisites
Successful completion of the following courses:
LTE Commissioning and Operation Training
LTE Initial Configuration Training
Objectives
On completion of this program, the participants will be able to:
Understand CloudBB networking and solution
Perform USU product hardware configuration and cable connection for networking
Implement USU-based Multi-BBU Interconnection
Configure and maintain eNodeB in CloudBB networking
Centralized Training Content
LTE eRAN Cloud BB Overview
LTE eRAN Cloud BB Overview
CloudBB solution overview
Features related to CloudBB
LTE eRAN USU-based Multi-BBU Interconnection
LTE eRAN USU-based Multi-BBU Interconnection
USU System Overview
System Structure
USU-based Multi-BBU Interconnection
LTE eRAN CloudBB O&M and Configuration
LTE eRAN CloudBB O&M and Configuration
eNodeB data configurations for CloudBB
eNodeB O&M under CloudBB networking
LTE eRAN USU-based Multi-BBU Interconnection
OEB20 0.5D Lecture
LTE eRAN CloudBB O&M and Configuration
OEB30 Lecture, Hands-on
LTE Cloud BB Overview
OEB20 0.5D Lecture
1D
LTE Product Technical Training Proposal
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Centralized Training Duration
2 working day
Class Size
Min 6, Max 12
LTE Product Technical Training Proposal
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1.4.18 LTE eRAN Field Maintenance Training
Training Path
Target Audience
Filed O&M Engineer
Prerequisites
Successful completion of the following courses:
LTE System Overview
Objectives
On completion of this program, the participants will be able to:
Describe the working principle and functions of eNodeB boards
Perform eNodeB local commissioning
Perform corrective and preventive maintenance on eNodeB
Handle the main faults of eNodeB hardware
Centralized Training Content
eNodeB Product Description
eNodeB BTS3900\BTS5900 Product Description
eNodeB System Overview
eNodeB System Structure
eNodeB Auxiliary Devices
eNodeB Typical Networking
eNodeB Local Commissioning
eNodeB LTE Local Commissioning
eNodeB Commissioning Overview
eNodeB Local Commissioning through the USB Disk
Procedure for the Local Commissioning through the USB Disk
Download & 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
Download the License on the LMT
eNodeB Field Maintenance
OEB82 0.5D Lecture, Hands-on
eNodeB Local Commissioning
OEB83 1D Lecture, Hands-on
eNodeB Product Description
OEB80 0.5D Lecture, Hands-on
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Query the Running Status
Establish an O&M Link Between the U2000 and the eNodeB
eNodeB Field Maintenance
eNodeB LTE Field Maintenance
Local Operation and Maintenance Introduction
check the status of board by LEDs
Routine Operation and Maintenance
Replacing boards and optical module of eNodeB
Routine Maintenance items for eNodeB
Practice
LTE eRAN Power Supply and Monitoring Solution
Power supply system introduction
Data configuration of power supply system
Features for power supply protection that Huawei can provide
Monitoring system introduction
Data configuration of monitoring system
Centralized Training Duration
2 working days
Class Size
Min 6, Max 12
1.4.19 LTE Lampsite&Small cell Operation and Maintenance Training
Training Path
LTE Lampsite Data Configuration
OLA37 1D Lecture, Hands-on
LTE Small cell and Lampsite Installation and Commissioning
OLA36 0.5D Lecture, Hands-on
LTE Small cell and Lampsite Product Description
OLA35 0.5D Lecture
LTE Product Technical Training Proposal
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Target Audience
Back office O&M Engineer
Prerequisites
Basic knowledge of mobile communication
Objectives
On completion of this program, the participants will be able to:
Perform LTE small cell and lampsite product installation and commissioning,
Perform small cell and lampsite data configuration
Centralized Training Content
LTE Small cell and Lampsite Product Description
LTE Small cell and Lampsite Product Description
Micro/Pico and Lampsite product architecture
Micro/Pico and Lampsite specifications
Micro/Pico and Lampsite typical Configuration
Micro/Pico and Lampsite typical Scenario
LTE Small cell and Lampsite Installation and Commissioning
LTE Small cell and Lampsite Installation and Commissioning
Micro/Pico/Lampsite installation
Overview of Micro/Pico/Lampsite commissioning
Commissioning the Micro/Pico/Lampsite based on U2000
Commissioning the Micro/Pico/Lampsite based on U2000 + USB
LTE Lampsite Data Configuration
LTE Lampsite Data Configuration(based on MML)
Lampsite data configuration Introduction
Lampsite basic data configuration
Lampsite device data configuration
LTE Small cell and Lampsite Troubleshooting
OLA40 1D Lecture, Hands-on
LTE Small cell and Lampsite Operation and Maintenance
OLA39 1D Lecture, Hands-on
LTE eRAN Small cell Data configuration
OLA38 1D Lecture, Hands-on
LTE Product Technical Training Proposal
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Lampsite transport data configuration
Lampsite radio data configuration
LTE Lampsite Data Configuration(based on CME)
Lampsite data configuration Introduction
Lampsite basic data configuration
Lampsite device data configuration
Lampsite transport data configuration
Lampsite radio data configuration
LTE Lampsite Data Configuration Practice Guide(based on MML)
LTE Lampsite Data Configuration Practice Guide(based on CME)
LTE Small cell Data Configuration
LTE Small cell Data Configuration
Procedure of adding Micro/Pico data
Introduce the related MML command
Configuring Micro/Pico in batch by using a summary data file
Check data consistency and export configuration data
Data Configuration (Using Self-Planning)
LTE Small cell and Lampsite Operation and Maintenance
LTE Small cell and Lampsite Operation and Maintenance
Alarm Management via U2000
Micro/Pico and Lampsite Device Maintenance
Micro/Pico and Lampsite Transmission Layer Maintenance
Micro/Pico and Lampsite Radio Layer Maintenance
Micro/Pico and Lampsite Tracing Management
Micro/Pico and Lampsite Monitoring Management
Micro/Pico and Lampsite System Management
Micro/Pico and Lampsite Hardware Replacement
LTE Small cell and Lampsite Operation and Maintenance Practice Guide
LTE Small cell and Lampsite Troubleshooting
LTE Small cell and Lampsite Troubleshooting
RHUB hardware fault
CPRI interface fault
Cell Unavailable Faults
IP Transmission Faults
Application Layer Faults
Synchronization Faults
Transmission Security Faults
RF Unit Faults
License Faults
Centralized Training Duration
5 working days
Class Size
Min 6, Max 12
LTE Product Technical Training Proposal
COMMERCIAL IN CONFIDENCE 46
1.4.20 Cloud RAN Overview Training
Training Path
Target Audience
Radio Network Planning Engineer
Radio Network Optimization Engineer
Prerequisites
Successful completion of the following courses:
LTE Product Overview
Objectives
On completion of this program, the participants will be able to:
Describe the Trend of Network Function Virtualization
Describe Cloud Radio access network advantages and application scenarios
Understand Cloud RAN Specification and network structure
Centralized Training Content
Cloud RAN Overview
Cloud RAN Overview
NFV Trend and Cloud Radio Access Network Trend
Challenge of Cloud RAN and specifications
Cloud RAN Network Architechture
Cloud RAN Key Technology
Cloud RAN Deployment scenarios
Centralized Training Duration
1 working day
Class Size
Min 6, Max 12
1.4.21 4.5G Technology and Application Training
Training Path
Cloud RAN Overview
OEA00 1D Lecture, Hands-on
LTE-Advanced Pro Key Technology Overview Training
1 D Lecture OEA01
LTE Product Technical Training Proposal
COMMERCIAL IN CONFIDENCE 47
Target Audience
Radio Network Planning Engineer
Radio Network Optimization Engineer
Prerequisites
Basic knowledge of mobile communications
Objectives
On completion of this program, the participants will be able to:
Describe Industry development trend and key technology of LTE-Advanced Pro
List eMBMS features and calculate eMBMS capacity
Distinguish the PTT service and Digital trunking services
Outline LiTRA application scenarios and principle
Describe the Principles of NB-IoT and design the coverage and capacity for typical scenarios
Select the product and networking solution for NB-IoT application
Centralized Training Content
LTE-A Pro (4.5G) Key Technology Overview
LTE-A Pro Key Technology Overview
MBB Industry Updates & Insights
4.5G Definition and System Level Evolution
4.5G Solution and Key Technologies
NB-IoT Technology and Application
NB-IoT Technology Overview
IoT Industry development and trend
Challenge of IoT and Standard introduction
NB-IoT E2E network architecture and service flow
NB-IoT key technologies
Development of NB-IoT industry chain
Case of intelligent meter reading by NB-IoT
Case of intelligent parking system by NB-IoT
PTT Over LTE Technology and Solution
PTT Over LTE Technology and Solution
PTT service overview
PoC and PTT
WTTx Technology and Solution
0.5D Lecture OEA04
NBIoT and eMTC Technology and Application
0.5D Lecture OEA02
PTT over LTE(Litra) Technology and
Solution OEA05 0.5D Lecture
LTE Product Technical Training Proposal
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Litra Solution and Application Senarios
WTTx Solution Overview
WTTx Solution Overview
Wireless Broadband: Essential and Valuable
WTTx Opens A New Era of Wireless Broadband
WTTx Operation Example
WTTx Embraces Future Evolution
Centralized Training Duration
2 working day
Class Size
Min 6, Max 12
1.4.22 Massive MIMO Planning and Optimization Training
Training Path
Target Audience
Network Planning Engineer
Network Optimization Engineer
Prerequisites
Basic knowledge of mobile communications
2 years’ experience of LTE radio network planning or optimization
Objectives
On completion of this program, the participants will be able to:
Describe Principles of Massive MIMO and application scenarios of Massive MIMO
Understand Massive MIMO deployment solution
Plan the Massive MIMO Site selection Principles and Planning
Optimize the radio parameters after deploy massive MIMO
Massive MIMO Principles and application
scenarios
0.5 D Lecture OEA01
Massive MIMO Radio Network Planning
1 D Lecture OEP01
Massive MIMO Radio Network Optimization
0.5 D Lecture OEO01
LTE Product Technical Training Proposal
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Training Content
Massive MIMO Principles and application scenarios
Massive MIMO Principles
Massive MIMO Key Technology
Huawei Massive MIMO AAU Product Solution
Massive MIMO Application Senarios
Massive MIMO Radio Network Planning
Massive MIMO Scenario Evaluation & Planning
Massive MIMO Planning Priority Ranking
Massive MIMO Parameter Design
Massive MIMO Simulation & Prediction
Massive MIMO Radio Network Optimization
Massive MIMO Antenna pattern optimization
Massive MIMO Interworking parameter optimization
Massive MIMO Performance optimization
Duration
2 working days
Class Size
Min 6, Max 12
1.4.23 WTTX Planning and Optimization Training
Training Path
WTTx technology and planning
OEP23 1D Lecture
LTE TDD related features
OEA00 0.5D Lecture, Demo
WTTx Network performance management
and Optimization
OEO23 0.5D Lecture, Demo
WTTx Qos Solution Design
OEB23 1D Lecture,Case study
LTE Product Technical Training Proposal
COMMERCIAL IN CONFIDENCE 50
Target Audience
System Engineer
Service Engineer
Service Planning Engineer
Service Design Engineer
Network Design Engineer
Prerequisites
Successful completion of the following courses:
LTE Air Interface
LTE Protocols and Procedures
Objectives
On completion of this program, the participants will be able to:
Describe the WTTX solution and apply related feature
Planning the radio coverage and capacity of the WTTx network
Explain the architecture and components of WBB operation and maintenance system
Manage WBB device and WTTX data configuration
Manage the performance of WTTx network
Training Content
WTTx technology and planning
WTTx Solution Overview
Wireless Broadband: Essential and Valuable
WTTx Opens A New Era of Wireless Broadband
WTTx Operation Example
WTTx Embraces Future Evolution
WTTx Radio Planning
LTE coverage and capacity radio planning
WTTx coverage and capacity planning
WTTX LTE Deploy Introduction for Initial Configuration
WTTX Data Configuration Introduction
Common Data Parameters Introduction
Practice on WTTX data configuration file preparation
LTE technology and TDD related features
LTE TDD Subframe Configuration Feature
Concept of Sector, cell and TDD Subframe Configuration
TDD Frame Structure
Uplink-Downlink Subframe Configurations
Configurations of Special Subframes
When to Use Subframe Configuration
Subframe Configuration Deployment
LTE TDD Beamforming Feature
Overview of Beamforming
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Beamforming-Related Concepts
Beamforming Principles and Techniques
Beamforming Feature Application Scenarios
Beamforming Deployment
WTTx Network Optimization
LTE WTTx Radio Network KPI
WTTx Performance Optimization
WTTx QoS Design
WTTx QoS Overview
WTTx QoS Design
Case study
Duration
3 working days
Class Size
Min 6,max 12
1.4.24 WTTX(CPE) Configuration and OM Training
Training Path
Target Audience
Field Engineer and Installation Technician
Prerequisites
Basic knowledge of the Telecommunication Network
Objectives
On completion of this program, the participants will be able to:
Install the CPE hardware
Perform the CPE operation
Configuration the CPE service
Training Content
LTE CPE Introduction and Configuration
LTE CPE Installation and Configuration
OST22 1D Lecture, Demo
LTE CPE Operation
OST22 1D Lecture, Demo
LTE Product Technical Training Proposal
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LTE CPE Product Description and hardware Installation
CPE Product Overview
CPE Connectors Introduction
LED Indicators
CPE Outdoor Installation
CPE Cable Connection
LTE CPE Configuration
Login and Status check
CPE Basic Configuration
CPE Engineering Configuration
WTTX Operation and Maintenance
WTTX Operation and Maintenance
WTTx Local Operation
WTTx LTM Operation
Duration
2 working days
Class Size
Min 6, Max 12
1.4.25 NB-IoT Radio Network Planning and Deployment Training
Training Path
1D Lecture
NB-IoT Overview
ONB00
NB-IoT Network Deployment
1D
Lecture, Practice ONB04
NB-IoT Air Interface
1D Lecture ONB01
NB-IoT Signaling and Protocols
1D Lecture ONB02
LTE Product Technical Training Proposal
COMMERCIAL IN CONFIDENCE 53
Target Audience
Radio Network Planning Engineer
Radio Network Optimization Engineer
Prerequisites
LTE Air Interface
LTE Protocols and Procedures
Objectives
On completion of this program, the participants will be able to:
Describe Industry development trend of IoT
List main IoT technologies and application scenarios
Understand NB-IoT principles
Apply radio planning for NB-IoT Network
Select the product and networking solution for NB-IoT application
Centralized Training Content
NB-IoT Technology and Application
NB-IoT Overview
IoT Concept and Related Technology
NB-IoT E2E Solution and Network Architecture
NB-IoT Industry Evolution and Use Case
NB-IoT Network Deployment
NB-IoT eNodeB Product Basic
NB-IoT Product Overview
NB-IoT Typical Networking
NB-IoT eNodeB Data Configuration
NB-IoT deployment mode
NB-IoT Standalone Cell configuration
Difference of NB-IoT configuration for different deployment mode
NB-IoT frequency and offset calculation
NB-IoT data configuration Practice
NB-IoT Air Interface
NB-IoT Radio Interface Protocol
NB-IoT Radio interface channel
NB-IoT Radio interface key technologies
NB-IoT Signaling and Protocols
NB-IoT System information
NB-IoT attach procedure
NB-IoT service request procedure
NB-IoT TAU procedure
NB-IoT Data transmission procedure
NB-IoT Radio Network Planning
NB-IoT Radio Network Planning Introduction
NB-IoT Radio Network Planning
1D Lecture , Practice ONB05
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NB-IoT Radio Network Planning Process
NB-IoT frequency planning and deployment
NB-IoT Radio Network Coverage and capacity Dimensioning
NB-IoT Radio Network Planning Practice Centralized Training Duration
Centralized Training Duration
5 working day
Class Size
Min 6, Max 12
1.4.26 NB-IoT Radio Network Operation and Optimization Training
Training Path
Target Audience
Wireless network planning and optimization engineer
Prerequisites
Have basic knowledge about LTE wireless networks.
Objectives
On completion of this program, the participants will be able to:
Master the basic NB-IoT operations, maintenance, and test methods.
LTE NB-IOT Operation and
Maintenance NBIoT 1D Lecture+Practice
NB-IoT Network Fault Analysis &
Handling 1D Lecture+Practice
NB07
NB-IoT Network KPI Management
and Introduction 1D Lecture+Practice
NB08
NB-IoT Network Problem Analysis and
Optimization 1D Lecture+Case Study
NB09
NB-IoT Network Optimization Practice
1D Practice NB10
NB06
LTE Product Technical Training Proposal
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Master the NB-IoT performance KPIs.
Understand the process for troubleshooting NB-IoT wireless network faults.
Performance the troubleshooting of NB-IoT faults.
Analyzing and handling common problems in NB-IoT wireless networks.
Training Conten
LTE NB-IOT Operation and Maintenance NBIoT
O&M System Structure
NB-IoT Common Operations
NB-IoT Maintenance and Test
NB-IoT Network Fault Analysis & Handling
Overview of fault analysis and processing
Cell unavailability fault analysis and handling
IP transmission fault analysis and handling
Application layer fault analysis and handling
Transmission Synchronization fault analysis and handling
Transmission Security fault analysis and handling
RF unit fault analysis and handling
License fault analysis and handling
NB-IoT Base Station Fault Analysis and Handling Hands-On Practice
NB-IoT Network KPI Management and Introduction
Overview of NB-IoT KPI
NB-IoT Optimization Parameters
NB-IoT Network Problem Analysis and Optimization
NB-IoT Optimization Overview
NB-IoT access problem analysis
NB-IoT delay problem analysis
NB-IoT rate problem analysis
NB-IoT Network Optimization Hands-On Practice
NB-IoT Terminal Operation and Maintenance Hands-On Practice
Duration
5 working days
Class Size
Min 6, Max 12
LTE Product Technical Training Proposal
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1.4.27 eMTC Radio Network Planning and Deployment Training
Training Path
Target Audience
Network Planning Engineer
Network Optimization Engineer
Prerequisites
Basic knowledge of LTE Radio Interface
2 years’ experience of LTE radio network planning or optimization
Objectives
On completion of this program, the participants will be able to:
Describe eMTC Network Architecture
Understand eMTC Radio Interface Technology and eMTC Terminal Category
Understand eMTC Service signaling procedure
Apply eMTC related features
Perform eMTC Radio Network Planning
Training Content
eMTC Principles
eMTC Principles
MTC and eMTC Application Scenarios
Comparison between eMTC and NB-IoT
Emtc E2E Network Architecture and Protocols
eMTC Air Interface and Channels
eMTC Service Procedures
eMTC Basic Features
eMTC Cell Management
eMTC Terminal and Capability
eMTC Mobility Management
eMTC Radio Resource Management
eMTC Radio Network Planning and Deployment
eMTC Frequency Planning
eMTC Coverage Planning
eMTC Principles
1 D Lecture OEA03
eMTC Radio Network Planning and
Deployment
1 D Lecture OEP03
LTE Product Technical Training Proposal
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eMTC Capacity Planning
eMTC Network Deployment
Duration
2 working days
Class Size
Min 6, Max 12
LTE Product Technical Training Proposal
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1.4.28 LTE HetNet &Small cell Planning and Optimization Training
Training Path
Target Audience
Radio Network Planning Engineer
Prerequisites
Basic knowledge of mobile communications. At least 1 year working experience in wireless network
Objectives
On completion of this program, the participants will be able to:
Select the proper small cell solution based on different scenario
Design the coverage and capacity for small cell scenario
Perform HetNet macro and micro synergy optimztion with related features and strategy
Centralized Training Content
LTE HetNet Application Scenario Overview
LTE HetNet Application Scenario Overview
HetNet application scenarios
Huawei HetNet products Solution
Pico and Lampsite Indoor Planning and Audit
Pico and Lampsite Indoor Planning
Indoor Planning Procedure
Pico and Lampsite indoor capacity planning
Pico and Lampsite indoor coverage planning
Pico and Lampsite indoor transmission planning
Solution design
Lampsite solution audit
LTE Hetnet Strategy and Optimization
OLA54 2D Lecture
LTE Micro BTS Network Planning
OAT27 0.5D Lecture
Pico and Lampsite Indoor Planning and Audit
OLA53 1.5D Lecture,Hands-on
LTE HetNet Application Scenario Overview
OLA26 1D Lecture
LTE Product Technical Training Proposal
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Pico and Lampsite Indoor Planning practice
LTE Micro BTS Network Planning
LTE Micro BTS Network Planning
Scenarios of RF Planning for Micro BTS
Hotspot Identification based on CHR
Traffic Statistic
Site selection for Micro BTS
Engineering parameter planning
Cell configuration and parameters planning
LTE Hetnet Strategy and Optimization
LTE Hetnet Strategy and Optimization
Macro and Micro synergy Optimization
LTE eRAN UL CoMP feature
LTE eRAN SFN feature
LTE eRAN TDM-eICIC feature
LTE Hetnet Strategy and Optimization case study
Centralized Training Duration
5 working days , 0.5 days practice during training
Class Size
Min 6, Max 16
LTE Product Technical Training Proposal
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1.4.29 LTE eRAN Basic Features and Algorithms Training
Training Path
Target Audience
Radio Network Planning Engineer
Radio Network Optimization Engineer
Prerequisitesa
Successful completion of the following courses:
LTE Air Interface
LTE Protocols and Procedures
Objectives
On completion of this program, the participants will be able to:
Outline idle mode/handover/ Power Control/ Scheduling/ CS Fallback/ Physical Channel Resource Management basic proccess and parameters
Apply feature deployment and parameter configuration in typical scenarioes
Centralized Training Content
OEO81 LTE eRAN Basic Features and Algorithms
LTE eRAN Idle Mode Behavior
Idle Mode Overview
PLMN selection
Cell selection
Cell reselection
System information reception
Tracking area registration
Paging monitoring procedure
LTE eRAN Handover Feature
Mobility Management Overview
Intra-frequency Handover
Inter-frequency Handover
LTE eRAN Power Control Feature
Power control overview
Downlink power control
Uplink power control
LTE eRAN Scheduling Feature
Overview of Scheduling
Downlink Scheduling
Uplink Scheduling
Scheduling Deployment Strategy
LTE eRAN CS Fallback
CS Fallback Overview
LTE Voice Solution
LTE eRAN Basic Features and Algorithms
OEO81 5D Lecture
LTE Product Technical Training Proposal
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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
LTE eRAN Physical Channel Resource Management
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
LTE Feature Application case study
Centralized Training Duration
5 working days
Class Size
Min 6, Max 12
1.4.30 LTE eRAN SON Features and Algorithms Training
Training Path
Target Audience
Radio Network Optimization Engineer
Prerequisites
Successful completion of the following courses:
LTE Air Interface
LTE Protocols and Procedures
LTE eRAN Basic Features and Algorithms
Objectives
On completion of this program, the participants will be able to:
Illustrate SON related features’ process, and apply feature deployment
Execute SON related features’ parameters and monitor feature
LTE eRAN SON Features and Algorithms
OEO82 2D Lecture
LTE Product Technical Training Proposal
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Centralized Training Content
OEO82 LTE eRAN SON Features and Algorithms
LTE eRAN SON Overview
Describe the SON benefits
Outline the SON functions
LTE SON Application in U2000 V200R015
Outline SON functions in U2000
Enable the SON switches in U2000
Check SON logs in U2000
LTE eRAN ANR Feature
ANR Overview
Intra-RAT ANR Management
Inter-RAT ANR Management
LTE eRAN MRO Feature
MRO Processing Flow
Classification of Intra-RAT MRO
Intra-RAT MRO Management
Inter-RAT MRO Management
LTE eRAN PCI Conflict Detection Self-Optimization
PCI Conflict Detection
Self-Optimization Overview
PCI Conflict Detection
PCI Self-Optimization in U2000
LTE eRAN RACH Optimization
Overview of RACH Optimization
Prerequisites for RACH Optimization
Zero Correlation Zone Configuration
Contention-Based vs. Contention-Free Random Access
RACH Resource Adjustment
Dedicated Preamble Group Adjustment
Multiplexing of Dedicated Preambles
PRACH Configuration Index Adjustment
Adaptive Back off
MML screenshots
Impact of RACH Optimization
LTE eRAN Cell Outage Detection
Overview of Cell Outage Detection
Sleeping Cell Detection Techniques
Cell Outage Detection Techniques
Engineering Guidelines
Centralized Training Duration
2 working days
Class Size
Min 6, Max 12
LTE Product Technical Training Proposal
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1.4.31 LTE eRAN Performance Improving Features and Algorithms Training
Training Path
Target Audience
Radio Network Optimization Engineer
Prerequisites
Successful completion of the following courses:
LTE Air Interface
LTE Protocols and Procedures
LTE eRAN Basic Features and Algorithms
Objectives
On completion of this program, the participants will be able to:
Outline Improving Features application scenarioes and principles
Summarize Improving Features related parameters
Deploy Improving Features and improve network performance by optimize related parameters
Centralized Training Content
OEO84 LTE eRAN Performance Improving Features and Algorithms
LTE eRAN Admission and Congestion Control
Load Monitoring
Admission Control
Non-GBR Service Admission Control
GBR Service Admission Flow
QoS Satisfaction Rate Based Admission Control
Congestion Control
LTE eRAN MLB Feature
Load Balance Overview
Intra-frequency Load Balance
Inter-frequency Load Balance
Inter-RAT Load Balance
LTE eRAN Compact Bandwidth Feature
Overview of Compact Bandwidth
Key Technologies of Compact Bandwidth
Related Physical Resource Management
LTE eRAN UL/DL Comp
Benefit of CoMP
Principle for CoMP
Application scenario of UL/DL CoMP
Engineering Guidelines of UL/DL CoMP
LTE eRAN ICIC Feature
Overview of ICIC
Downlink ICIC
LTE eRAN Performance Improving Features and Algorithms
OEO84 5D Lecture
LTE Product Technical Training Proposal
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Uplink ICIC
ICIC Deployment Strategy
LTE eRAN RAN Sharing
Overview of RAN Sharing
RAN Sharing with Common Carriers
RAN Sharing with Dedicated Carriers
Engineering Guidelines of RAN Sharing
LTE eRAN QoS Management Feature
Overview of QoS Management
QoS Management Policies
QoS Management Methods
When to Use QoS
LTE eRAN MIMO Feature
Definition of MIMO and MIMO mode
Benefit of MIMO and application scenarios
Configuration of MIMO
LTE eRAN Carrier Aggregation Feature
CA Basic Concepts and Principles
CA Feature Benefit and Influence
CA Feature Deployment and Configuration
LTE eRAN Emergency Call Feature
Emergency Call Basic Concepts and Principles
Emergency Call Procedures
Emergency Call Key Parameters
Relation between Emergency Call and Others
Emergency Call Feature Deployment, Configuration and Testability
LTE eRAN CSPC(Coordinated Scheduling based Power Control) Feature
CSPC functions and benefits
CSPC network architecture
CSPC transmission sequence and procedure
CSPC network impact and activation
LTE eRAN Intelligent Access Class Control Feature
Intelligent AC control procedure
Intelligent AC control principles
Access probability factor adjustment
LTE eRAN SFN(Single Frequency Network)
SFN Concepts and Principles
SFN Deployment and Configuration
SFN Key Parameters and Counters
the benefit of SFN
LTE eRAN DRX and Signaling Control
DRX Basic Concepts and Principles
DRX Feature Benefit and Influence
DRX in RRC_CONNECTED Mode
Dynamic DRX
High-Mobility-Triggered Idle Mode
LTE eRAN High Speed Mobility
Overview of High Speed Mobility
Doppler Shift
Automatic Frequency Control
Random Access Preamble
LTE Product Technical Training Proposal
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Scheduling
Engineering Guidelines
When to Use High Speed Mobility
Network Planning
Deploying High Speed Mobility
LTE eRAN Uplink Timing Control Feature
Uplink timing control overview
Benefits of uplink timing control
Uplink timing control during RA
Uplink timing control after RA
Timers of Uplink timing control
Centralized Training Duration
5 working days
Class Size
Min 6, Max 12
1.4.32 LTE Radio Network Tuning and Optimization Problem Analysis Practice
Based Training
Training Path
Target Audience
Radio Network Optimization Engineer
Prerequisites
Successful completion of the following courses:
LTE Air Interface
LTE Protocols and Procedures
Objectives
On completion of this program, the participants will be able to:
Perform RF optimization based on the work procedure
Perform test and collect data for tuning
Analyze basic coverage problem and perform basic RF tuning
Centralized Training Content
LTE Network Tuning
LTE Radio Network Optimize problem analysis Training
OEO12 3D Lecture, Hands-On
LTE Network Tuning
OEO01 1D Lecture
LTE Product Technical Training Proposal
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LTE Network Tuning
Overview of RF Optimization
Basic Process of RF Optimization
Test Preparations
Data Collection
Coverage Problem Analysis
Handover Problem Analysis
RF Adjustment
LTE Interference Diagnosis
Basic Principle of Interference
Type of Interference in LTE system
Methods to Detect Interference in LTE
Basic methods to Resolve Interference
LTE Radio Network Optimize problem analysis Training
LTE Access Fault Diagnosis(Drive Test)
Basic Principle of Access
Access Fault Diagnosis Process
Operations of Access Fault Diagnosis
Checking Hardware Connections
Checking Version Mapping
Checking the eNodeB Configuration
Checking Quality on the Air Interface
Checking the EPC Configuration
LTE Handover Fault Diagnosis(Drive Test)
Handover Procedure Review
Handover Fault Analysis
Typical Case of Handover Fault
LTE Call Drop Diagnosis (Drive Test)
Call Drop Fault Diagnosis Process
Operations of Call Drop Fault Diagnosis
Handling of call drop problems
LTE Traffic Fault Diagnosis (Drive Test)
Traffic Fault Diagnosis Process
Operations of Traffic Fault Diagnosis
Handling of Traffic Fault Issue
Typical Cases for Traffic Fault
Scenario based Problem analysis case study
User Complain About Low Speed When Surfing Internet Case Study
User Complain About Low Download Speed Case Study
DL Throughput Unsatisfied during Drive Test Case Study
No 4G signal in LTE Coverage Area Scenario-based Troubleshooting
Low LTE Cell Throughput Scenario-based Troubleshooting
Centralized Training Duration
4 working day
Class Size
Min 6, Max 12
LTE Product Technical Training Proposal
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1.4.33 LTE Performance Management and Analysis Practice Based Training
Training Path
Target Audience
Radio Network Optimization Engineer
Prerequisites
Successful completion of the following courses:
LTE Air Interface
LTE Protocols and Procedures
LTE Basic Features and Algorithms
Objectives
On completion of this program, the participants will be able to:
Configure counter measurement in U2000 system
Define the KPI system for LTE radio network
Define the formula for accessibility, retainability, mobility, traffic , utilization and availability KPI
Identify and analyze the performance problems
Centralized Training Content
LTE Performance Management
iManager U2000 Client Performance Management
Basic Concept of Performance Management
Measurement Management
Performance Threshold
Synchronizing Performance Objects
Performance Diagnosis Tool
Preferences Settings
Database Capacity Parameters
LTE eRAN KPI Introduction and Improvement
LTE eRAN KPI Overview
Performance Measurement System
LTE eRAN KPI Details
Accessibility KPI and Analysis
Retainability KPIs and Analysis
Mobility KPIs and Analysis
Equipment Related and Analysis
Utilization KPIs / Traffic KPI and Analysis
LTE Performance Improvement
OEO13 2D Lecture, Scenario based
Hands-on
LTE Performance Management
OEO03 1D Lecture, Hands-on
LTE Product Technical Training Proposal
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Transport Performance Counter and Analysis
LTE eRAN KPI Improvment
LTE Performance Improvement
aLTE Call Drop Diagnosis (KPI)
E-RAB Release Procedure
Call Drop Definition and KPI Statistics
Typical Call Drop Issue and Analysis Procedure
Typical Call Drop Issue Analysis
LTE Handover Fault Diagnosis(KPI)
Handover Failure Procedure
Handover Failure Definition and KPI Statistics
Typical Handover Failure Issue and Analysis Procedure
Typical Handover Failure Issue Analysis
LTE Wireless Parameter Audit and Key Parameter Optimization
LTE Global Parameter Introduction
LTE Parameter Classification
LTE Wireless Parameter Optimization Guidance
Parameter Audit Cases
LTE Radio Network scenario based Performance optimization case
LTE Call Setup Success Rate Deterioration
LTE Handover Success Rate Deteriorate
Centralized Training Duration
3 working day
Class Size
Min 6, Max 12
LTE Product Technical Training Proposal
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1.4.34 VoLTE Technical Practice Based Training(WN Specialty)
Training Path
Target Audience
Radio Network Planning Engineer
Radio Network Optimization Engineer
Prerequisites
Successful completion of the following courses:
LTE Air Interface
LTE Protocols and Procedures
LTE Basic Features and Algorithms
Objectives
On completion of this program, the participants will be able to:
Outline the Voice Solutions in LTE: CSFB and VoLTE
Outline the network structure of VoLTE and basic service flow
Apply and configure the Radio network features for VoLTE
Plan the VoLTE service based on coverage and capacity
Evaluate the voice quality and perform troubleshooting and optimization
Outline the CSFB workflow
Select the proper mechanism for CSFB
Configure the CSFB feature
Online Pre-learning Content
IMS Network Principle
IMS network architecture
IMS network elements function overview
IMS interface and protocol overview
IMS network id and address
IMS registration procedure overview
IMS call session establishment overview
SIP protocol overview
EPS Network Principle
VoLTE Technical Training (WN Specialty)
10D
Lecture, Scenario based Practice OEA01
VoLTE Basic Knowledge
OEA00 2 W MOOC
LTE Product Technical Training Proposal
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EPS network structure overview
EPC network elements function overview
EPC network service flow overview
VoLTE Solution Overview
VoLTE solution overview
VoLTE solution new element overview
VoLTE EPC PDN connectivity flow overview
VoLTE IMS registration flow overview
VoLTE session flow overview
Online Pre-learning Duration
2 weeks (Video duration: 150 minutes)
Centralized Training Content
LTE Voice Solution
LTE Voice Solution Overview
Voice Solution in LTE
CSFB and VoLTE Solution Comparison
VoLTE Network and IMS overview
Basic Flow of VoLTE
VoLTE Signaling Flow
Overview of LTE protocols and Procedures
EPS Connection management and APN Introduction
VoLTE Initial Attach Procedure
VoLTE Call Procedure
VoLTE Handover Procedure
VoLTE EPS QoS Management
VoLTE QoS Architecture
Concepts of VoLTE QoS
VoLTE APN and QoS Management
Radio QoS Mapping and implementation
LTE VoIP Solution Features
Capacity-Enhancement-Related Features
VOLTE-related scheduling feature principle, application and impact
VOLTE-related admission and congestion control feature principle and impact
ROHC feature principle, application and impact
TTI Bounding feature principle, application and impact
SRVCC feature principle, application and impact
Emergency call principle, application and impact
VOLTE-related power principle, application and impact
DRX principle, application and impact
LTE VoIP Radio Network Planning
VOLTE Link Budget Principle and Method
LTE Product Technical Training Proposal
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VOLTE Capacity Dimensioning
Traffic Model of VOLTE
VoLTE Capacity Dimensioning
LTE eRAN VoIP Voice Quality Evaluation and Optimization
VOLTE Traffic Evaluation on Network Side
VOLTE Traffic Evaluation on UE Side
VOLTE Capacity Evaluation
VOLTE Optimization analysis method and thought of clue
Solutions for VOLTE Voice Quality Fault
VOLTE Problem Troubleshooting
LTE CS Fallback Feature
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)
Decisions and Configuration of eNodeB in CS Fallback
Selection of CS Fallback Mechanisms
LTE CSFB Troubleshooting
Troubleshooting Clue, Method of CSFB Problem
CSFB Faulty Cases
VoLTE Troubleshooting Case study (LTE caused failure)
VoLTE Troubleshooting Scenario-based Practice
Centralized Training Duration
10 working days, 2 days for practice.
Class Size
Min 6, Max 12
LTE Product Technical Training Proposal
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1.4.35 LTE Voice Solution Training for O&M
Training Path
Target Audience
Wireless Product O&M Engineer
Prerequisites
Successful completion of the following courses:
LTE eRAN Operation Training
Objectives
On completion of this program, the participants will be able to:
Enable VoLTE service in eNodeB and Configure the parameters and switches for VoLTE related eRAN features
Perform KPI monitoring and tracing for VoLTE and SRVCC by U2000
Perform common monitoring tasks for VoLTE
Centralized Training Content
LTE Voice Solution Overview
LTE Voice Solution Overview
Voice Solution in LTE
CSFB and VoLTE Solution Comparison
VoLTE Network and IMS overview
Basic Flow of VoLTE
LTE eRAN VoLTE Service Enablement and Data Configuration
LTE eRAN VoLTE Service Enablement and Data Configuration
VoLTE service introduction and switches for enablement
VoLTE eRAN features introduction and related data configuration
Semi-persistent scheduling feature principle, application and impact
VoLTE-related admission and congestion control feature principle and impact
ROHC feature principle, application and impact
TTI Bounding feature principle, application and impact
SRVCC feature principle, application and impact
VOLTE-related power principle, application and impact
DRX principle, application and impact
LTE eRAN VoLTE Service Enablement and Data Configuration
OEA11 1D Lecture, Hands-on
LTE eRAN VoLTE Service Monitoring
OEA12 Lecture, Hands-on
LTE Voice Solution Overview
OEA10 Lecture 0.5D
0.5D
LTE Product Technical Training Proposal
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VoLTE data configuration for mobility
Coverage-based mobility configuration for VoLTE and SRVCC
LTE eRAN VoLTE Service Monitoring
LTE eRAN VoLTE Service Monitoring
Introduction to U2000 monitoring functions
VoLTE related counters monitoring
VoLTE and SRVCC tracing
VoLTE CDT collection
Voice quality monitoring for single user
VoLTE service satisfaction monitoring
Centralized Training Duration
2 working days
Class Size
Min 6, Max 12
1.4.36 LTE Radio Network Audit and Expansion Training
Training Path
Target Audience
Radio Network Optimization Engineer
Prerequisites
Successful completion of the following courses:
LTE Air Interface
LTE Protocols and Procedures
LTE Basic Features and Algorithms
LTE Performance Improving Features and Algorithms
LTE Performance Management
Objectives
On completion of this program, the participants will be able to:
Audit LTE Radio Network topology
Audit LTE Coverage and Interference
Audit LTE data and voice service experience and LTE Radio Network Performance
Audit Resource capacity and Utilization for expansion based the benchmark
Centralized Training Content
OEO16 LTE Radio Network Audit and Expansion
LTE Radio Network Audit and Expansion
Work procedure of LTE Radio Network Audit
User Experience Audit
Network Performance Audit
LTE Radio Network Audit and Expansion
OEO16 2D Lecture
LTE Product Technical Training Proposal
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Coverage and Interference Audit
Resource Utilization Audit
Network Expansion Benchmark
Centralized Training Duration
2 working days
Class Size
Min 6, Max 12
LTE Product Technical Training Proposal
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1.4.37 LTE Radio Network planning and Optimization in Special Scenarios Training
Training Path
Target Audience
Radio Network Optimization Engineer
Prerequisites
Successful completion of the following courses:
LTE Air Interface
LTE Protocols and Procedures
LTE Basic Features and Algorithms
LTE Performance Improving Features and Algorithms
Objectives
On completion of this program, the participants will be able to:
Design and optimize the LTE coverage for High Speed Train
Select proper In-Building LTE deployment Solution, such as Campus and Residential Area, Stadiums, Business District ,Scenic Area
Perform the preparation and radio parameter adjustment for Key Event
Handle Emergency issues during Key Event
Centralized Training Content
OEO17 LTE Radio Network Optimization in Special Scenarios
LTE Radio Network Planning and Optimization in Special Scenarios
High Speed Train Solution
In-Building System Solution
Campus Coverage Solution
Residential Area Coverage Solution
Stadiums Coverage Solution
Business District Coverage Solution
Scenic Area Coverage Solution
LTE Network Key Event Assurance
Preparation for Key Event Assurance
Parameter Setting for Key Event
Emergency issue handling for Key Event
LTE Network Key Event Troubleshooting
User Plane Troubleshooting
Control Plane Troubleshooting
Troubleshooting Cases Analysis
Centralized Training Duration
2 working days
LTE Radio Network Optimization in Special Scenarios
OEO17 2D Lecture
LTE Product Technical Training Proposal
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Class Size
Min 6, Max 12
LTE Product Technical Training Proposal
77
1.4.38 LTE Radio Network Design and Dimensioning Training
Training Path
Target Audience
Radio Network Planning Engineer
Prerequisites
Successful completion of the following courses:
LTE Air Interface
LTE Protocols and Procedures
Objectives
On completion of this program, the participants will be able to:
Illustrate LTE coverage and capacity dimensioning process
Perform LTE link budget , LTE radio network coverage and capacity dimensioning
Perform LTE cell planning, transport network and eNodeB hardware dimensioning
Centralized Training Content
OEP01 LTE Radio Network Design
LTE Radio Network Coverage Dimensioning
LTE Radio Network Planning Introduction
LTE Radio Network Planning Process
Differences between 2G/3G and LTE Dimensioning
LTE Radio Network Coverage Dimensioning
LTE Link Budget
Propagation Model
Site Number Dimensioning
LTE Radio Network Capacity Dimensioning
Capacity Dimensioning Procedure
Network Throughput
Introduction of Traffic Model
Traffic Model and Parameters
Network Throughput Calculation
Cell Throughput
DL Throughput Analysis
UL Throughput Analysis
Throughput per Cell(IP)
Capacity Dimensioning
LTE Cell Planning
LTE Access Transport Network Dimensioning
OEP02 0.33D Lecture
LTE Radio Network Design
OEP01 1.67D Lecture
LTE Product Technical Training Proposal
78
LTE Planning Overview
Frequency Planning
TA Planning
PCI Planning
PRACH Planning
OEP02 LTE Access Transport Network Dimensioning
LTE Access Transport Network Dimensioning
Transport Architecture and Networking
IP Transport Functionality
IP Transport Dimensioning
Centralized Training Duration
2 working days
Class Size
Min 6, Max 12
LTE Product Technical Training Proposal
79
1.4.39 Big Data Processing and Mining Technology Training
Training Path
Target Audience
Network relational engineers
Prerequisites
Have basic network knowledge Have basic Linux knowledge Have basic database knowledge Complete the "Everyone Learns IT - Big Data Technology" MOOC learning
Objectives
On completion of this program, the participants will be able to:
Understand the big data application in network scenarios Understand the common data mining algorithm approaches and application scenarios Understand common data mining tools and languages Understand hadoop basic technology, such as HDFS, MapReduce&Yarn, Hive, HBase, Spark
etc.
Centralized Training Content
OJF28 Big Data Application Discussion based on Network Scenario
Big data background introduction Telecom big data challenges in network scenario
Operation and maintenance efficiency Network optimization Network planning and investment
Big Data Application Discussion based on Network Scenario Service quality perception analysis Complaint management Network performance management Other big data applications in network scenario
Big Data Application Discussion based on
Network Scenario
OJF28
Case Study 1D
Data Mining Overview
OJF21
Lecture 1D
数据挖掘工具与语言
C
精讲 1 天
Data Mining Tools and Languages
OJF29 Lecture 1D
Hadoop Basic Technology
OJF30 Lecture 2D
LTE Product Technical Training Proposal
80
Big data application platform architecture Big data application platform architecture introduction Key technology of big data Analysis of advantages and disadvantages of key Technology- big data Hadoop Data analysis and modeling
OJF21 Data Mining Overview
Data mining background What is a data mining Application of data mining industry In the telecom market of data mining. Difficulties and challenges faced by data mining application Common mining software
Common data mining algorithm Association rules: shopping basket model Clustering algorithm Recommendation algorithm Social relationships algorithm
Data mining modeling methodology Overall introduction of the data mining modeling method Example of data mining modeling
Big data mining case sharing Customer retention Channel efficiency evaluation model Customer service text classification
OJF29 Data Mining Tools and Languages
Data mining tools introduction Data mining common development language introduction R language introduction and application (or Python)
R language concept and characteristics R language development and status Package introduction of R language Basic operations of R language and examples Simple drawing of R language Statistical model of R language
Python language introduction and application (or R language) Python basic grammar Python industry overview Python language development foundation Python data type Python basic statements and function Python class library applications
OJF30 Hadoop Basic Technology
Hadoop technology overview The development trend of big data processing technology The main storage technology in large data Hadoop typical application scenarios
Hadoop Basic Technology Introduction HDFS Architecture and Principles MapReduce&Yarn Architecture and Principles HBase Architecture and Principles Hive Architecture and Principles Spark Architecture and Principles Flume&Kafka Architecture and Principles
LTE Product Technical Training Proposal
81
Centralized Training Duration
5 working days including discuss 1 working day
Class Size
Min 6, Max 12
LTE Product Technical Training Proposal
82
1.4.40 Big Data Analysis and Mining Practice Based Training (Performance
Monitoring)
Training Path
Target Audience
Big data platform technical support engineers, data center maintenance engineers, network relational engineers
Prerequisites
Have basic Hadoop knowledge Have basic Linux knowledge Have basic database knowledge Have basic data mining algorithm and tools
Objectives
On completion of this program, the participants will be able to:
Master the common business modeling ideas Understand the common mathematical algorithms and application characteristics Use Python for data mining and modeling Use Hadoop, Spark for data storage and calculation Comprehensive use of various tools to achieve a simple big data applications
Centralized Training Content
OJF31 Business Modeling based on Network Performance Monitoring
Importance of cell profiles for network optimization Cell profile specifications analysis and forecast Cell profile provide basic guarantee for service quality monitoring Limitations of the traditional network optimization metrics monitoring Introduction of big data mining Technologyto cells Portrait
OJF32 Data Modeling based on Cell Profile Scenario
Selection of data mining algorithms based on cell profile
Business Modeling based on Network
Performance Monitoring
OJF31
Lecture 0.5D
Data Modeling based on Cell Profile
Scenario
Lecture, Scenario Based Practice 1.5D
Data modeling Practice based on Cell
Profile Scenario
OJF32
1D Lecture, Scenario Based Practice
OJF33
Big Data Technology Practice
OJF34
Lecture, Scenario Based Practice 2D
LTE Product Technical Training Proposal
83
Data collection Data preprocessing Model training Time series algorithm selection and determination Results prediction and verification
OJF33 Data modeling Practice based on Cell Profile Scenario
Data processing practice Data modeling practice Results verification Simulate Combat
OJF34 Big Data Technology Practice
Flume gets the data stored in HDFS Spark carries out preliminary ETL Configure Hive external table to access HDFS resources, and use SQL to extract some of the
fields that are needed Configure GreenPlum to access the Hive table The use of R in the timed script to access the GreenPlum, calculation results, the results exist
in the local file Use Flume to import local files into HBase
Centralized Training Duration
5 working days including practice 4 working days
Class Size
Min 6, Max 12
LTE Product Technical Training Proposal
84
1.4.41 Big Data Analysis and Mining Practice Based Training (Network
Optimization)
Training Path
Target Audience
Big data platform technical support engineers, data center maintenance engineers, network relational engineers
Prerequisites
Know basic Hadoop knowledge Know basic Linux knowledge Know basic database knowledge Know basic data mining algorithm and tools
Objectives
On completion of this program, the participants will be able to:
Master the common business modeling ideas Understand the common mathematical algorithms and application characteristics Use Python for data mining and modeling Use Hadoop, Spark for data storage and calculation Comprehensive use of various tools to achieve a simple big data applications
Centralized Training Content
OJF35 Business Modeling based on Network Optimization
Importance of traffic prediction for network optimization Real-time traffic prediction analysis and forecast traffic prediction provide basic guarantee for service quality monitoring Limitations of the traditional traffic prediction monitoring Introduction of big data mining Technology to traffic prediction
OJF36 Data Modeling based on Network performance end-to-end management
Selection of data mining algorithms based on traffic prediction
Business Modeling based on Network
Optimization
OJF35
Lecture 0.5D
Data Modeling based on Network
performance end-to-end management
Lecture, Scenario Based Practice 1.5D
Data Modeling Practice based on Network
performance end-to-end management
OJF37
Lecture, Scenario Based Practice
OJF36
1D
Big Data Technology Practice
OJF38
Lecture, Scenario Based Practice 2D
LTE Product Technical Training Proposal
85
Data collection Data preprocessing Model training Time series algorithm selection and determination Results prediction and verification
OJF37 Data Modeling Practice based on Network performance end-to-end management
Data processing practice Data modeling practice Results verification Simulate Combat
OJF38 Big Data Technology Practice
Flume gets the data stored in HDFS Spark carries out preliminary ETL Configure Hive external table to access HDFS resources, and use SQL to extract some of the
fields that are needed Configure GreenPlum to access the Hive table The use of R in the timed script to access the GreenPlum, calculation results, the results exist
in the local file Use Flume to import local files into HBase
Centralized Training Duration
5 working days including practice 4 working days
Class Size
Min 6, Max 12
LTE Product Technical Training Proposal
86
1.4.42 LTE Radio Network Optimization Engineer S-OJT Training
Training Path
Target Audience
Performance Monitoring Engineer
Performance Troubleshooting Engineer Prerequisites
Successful completion of the following courses:
LTE Air Interface
LTE Protocols and Procedures
LTE Basic Features and Algorithms
Objectives
On completion of this program, the participants will be able to:
Understand the details of network monitoring, such as object determination, KPI customization
Utilize tools such as U2000 and PRS for automated monitoring management
Utilize tools for KPI inquiry
Analyze typical problems, and perform simple operation, like network adjustment, feature deployment and equipment commissioning on line
Calculate the traffic when we perform capacity planning for new buildings, such as universities and malls
Calculate the traffic for temporary events, such as holidays and concerts
Master the implementation process of traffic assurance
Develop appropriate plan and execute
Audit the parameters of current network with baseline and reasonable range by tools
Combine with the on-site network daily work to analyze the current parameter configuration
Generate corresponding report according to the template
Collect related KPI, use tools such as FMA/PRS/U2000/LOG to analyze access/handover/call drop/throughput/CSFB/ Inter-RAT Interoperation problems
Parameter Management
OEO22 2D OJT
Performance Troubleshooting
OEO23 11D OJT
Capacity Management
OEO21 2D OJT
Performance Monitoring
OEO20 5D OJT
LTE Product Technical Training Proposal
87
Master LTE access/handover/call drop/throughput/CSFB/ Inter-RAT Interoperation problem analysis skill
Collect data, use tools such as PROBE/ASSISTANT to analyze access/handover/call drop/throughput/CSFB/ Inter-RAT Interoperation problems
S-OJT Training Content
Network Performance Monitoring
Process and Tools
Huawei and operator LTE network monitoring process discussion
U2000 and PRS Overview
Preparation of Monitoring
Monitoring details preparation
predefined rules and automatically network monitor operation
performance and alarm reporting threshold setting
Execution of Monitoring
KPI query and result collection through U2000
KPI report customize and result collection through PRS
Alarm threshold setting and alarm checking through U2000
Initial Analysis of Performance Issue
KPI issue analysis
TOP performance problems analysis and solution
Capacity Management Training
Process and Tools
IT tools overview
Tools operation guidance used in capacity management
Capacity Evaluation
PDCCH, PUCCH, SRS, PRACH, PRB resource utilization evaluation
CPU , paging, user and license resource utilization evaluation
Transmission group and Ethernet resource utilization evaluation
Capacity Forecast
On-site network capacity calculation
Capacity Optimization and Expansion
Capacity optimization, including Load balance, capacity related parameter adjustment, carrier resource to rally
Capacity expansion, including engineering construction schedule tracks
Traffic Assurance
Event assurance plan output
Event assurance plan execution
Emergency assurance plan output
Emergency assurance plan execution
Parameter Management Training
Process and Tools
Huawei and operator LTE network monitoring process discussion
Tools introduction used in parameter management
Engineering Parameter Audit
Engineering parameter(Cell ID, PCI, Root sequence) configuration and baseline comparison
Network parameter check
Parameter Verification by Manual
Parameter audit template output
RACH setup successful rate related parameter check and analysis
LTE Product Technical Training Proposal
88
RRC setup successful rate related parameter check and analysis
Call drop rate related parameter check and analysis
Handover successful rate related parameter check and analysis
DL throughput rate related parameter check and analysis
UL throughput rate related parameter check and analysis
CQI related parameter check and analysis
VoLTE related parameter check and analysis
Performance Troubleshooting Training
Process and Tools
FMA/PRS/PROBE/ASSISTANT/U2000 Overview
Access Performance Optimization
Access related KPI collection
Access related Issue optimization and discussion
Access related case discuss
Access optimization report output
Handover Performance Optimization
Handover related KPI collection
Handover related Issue optimization and discussion
Handover related case discuss
Handover optimization report output
Call Drop Performance Optimization
Call Drop related KPI collection
Call Drop related Issue optimization and discussion
Call Drop related case discuss
Call Drop optimization report output
Data Transmission Performance Optimization
Data Transmission related KPI collection
Data Transmission related Issue optimization and discussion
Data Transmission related case discuss
Data Transmission optimization report output
CSFB Performance Optimization
CSFB Feature Activation
CSFB Activation Observation
CSFB UE combined attach failure analysis
CSFB related time delay issue analysis
CSFB success rate issue analysis
Issue of coming back to LTE after the call analysis
CSFB Related Case discussion
Data Transmission optimization report output
Inter-RAT Interoperation Performance Optimization
LTE to UMTS inter-RAT cell reselection deployment and optimization
UMTS to LTE inter-RAT cell reselection deployment and optimization
LTE to GSM inter-RAT cell reselection deployment and optimization
GSM to LTE inter-RAT cell reselection deployment and optimization
LTE to UMTS inter-RAT handover and redirection deployment and optimization
UMTS to LTE inter-RAT handover and redirection deployment and optimization
LTE to GSM redirection deployment and optimization
GSM to LTE handover deployment and optimization
Inter-RAT interoperability KPI collection and analysis
Inter-RAT interoperability Key fault troubleshooting
LTE Product Technical Training Proposal
89
S-OJT Training Duaration
20 working days
Class Size
Min 3, Max 6
LTE Product Technical Training Proposal
90
1.4.43 LTE RAN Back Office Engineer S-OJT Training
Training Path
Target Audience
Back office O&M Engineer
Prerequisites
Successful completion of the following courses:
LTE System Overview
eNodeB LTE Product Description
eNodeB LTE Reconfiguration
Objectives
On completion of this program, the participants will be able to:
Perform LTE RAN network maintenance process
Work Plan and Summary
1D OJT OEB28
LTE Network Faults Management
12D OJT OEB27
LTE Network Changes Management
8D OJT OEB26
LTE Network Preventive Maintenance Conduct
5D OJT OEB25
Network Analysis
3D OJT OEB24
O&M Process & IT Tools Discussion
1D OJT OEB23
LTE Product Technical Training Proposal
91
Check the LTE RAN hardware, software, transmission, interconnection and status of network
Perform LTE RAN network preventive maintenance, including how to create a routine maintenance plan and schedule, perform the daily, weekly and monthly maintenance
Query LTE RAN network alarm and network performance and to perform alarm and KPI monitoring and analysis KPI
Analyze and summarize the maintenance result independently
Apply the methods and activities of service configuration
Follow the service configuration and software upgrade procedure and do activities independently
Perform the common procedure fault handling
Centralized Training Content
LTE RAN Back Office Engineer S-OJT Training
O&M Process & IT Tools Discussion
Huawei IT support system introduction
OJT necessary information collection and preparation
Network Analysis
Detailed network insight plan output
Detailed activities execution based on the procedure of network insight plan
Network insight report output, workshop for discussing the network further expansion, optimization and evolution
LTE Network Preventive Maintenance Conduct
Detailed work plan develop
Planned work order of preventive maintenance activities implement, including alarm and KPI monitoring effectively with SLA and the result feedback
Report on the preventive maintenance result output
LTE Network Changes Management
Detailed tasks and plan development which apply to the network situation
Service configuration procedure, software upgrade and key points
Service configuration and software upgrade experience summary output
LTE Network Faults Management
Typical troubleshooting procedure and fault handling methodology
Troubleshooting and experience sharing workshop
Work Plan and Summary
Practice content review, practice experience sharing
OJT report summarize and output
Centralized Training Duration
30 working day
Class Size
Min 3, Max 6