5G Ericsson training

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15
Oct

This course will cover 5G Ericsson training, courses like 5G Ran Functionality,5G Protocol RAN & feature, 5G Parameters, and feature.

Course Outline

  • 5G Introduction
  • Explain the 5GS Protocol Architecture
  • Describe the purpose and function of Idle Mode Behavior
  • Describe the use of Power Control, Link Adaptation and
  • Scheduling
  • Explain the logical architecture of 5G RAN and introduce
  • Radio Functionality
  • Explain Security and Evolved Quality of Service in 5G RAN
  • Explain Mobility and Dual Connectivity in 5G
  • Explain the L2 transport protocols SDAP, PDCP, RLC, MAC, and GTP-U Protocols
  • Explain the various L3 Signaling Protocols
  • Explain the purpose and function of Radio Link Monitoring
  • Explain the concepts of 5G RAN NSA Mobility
  • 5G Feature Ran 19.q2

 

Learning Objectives
After this 5G Advance courses, our main aim to teach about 5G in detail, like architecture, feature, design, core network.

 

Explain the logical architecture of 5G RAN and
introduce Radio Functionality
1.1 Explain the NR release strategy
1.2 Describe the EN-DC Architecture
1.3 List the Radio Functionality supported in the
Ericsson 5G RAN

 

Describe the purpose and function of Idle Mode
Behavior
2.1 Describe the system information structure

 

Explain the purpose and function of Radio Link
Monitoring
3.1 Explain how the Radio Link Monitoring is carried out
3.2 Explain how in-synch and out-of-synch is determined
by the radio link monitoring algorithm in the RBS
3.3 Describe the Beam Recovery procedure

 

Describe the use of Power Control, Link Adaptation and
Scheduling
4.1 Explain the interaction between Link Adaptation and
Scheduling
4.2 Explain open loop power control for initial access
4.3 Describe SU-MIMO

 

Explain the concepts of 5G RAN NSA Mobility
5.1 Detail what type of events trigger measurement
reports to be sent to the RBS
5.2 Explain IF and IRAT mobility
5.3 Detail the NSA mobility

 

5G RAN NR Protocols and Procedures
Do you need to know what procedures are triggered in the 5G RAN and how? What
messages are exchanged among the RAN and core nodes? And which protocols are used
to implement them? This course provides an in-depth understanding of the various
protocols and procedures in the 5G RAN. It looks into the overall 5GS and EPS
architectures, the functionalities of each node and the interfaces interconnecting them. It
details how Quality of Service and the different levels of security are implemented in 5G
RAN. Focus is given on the functions and services provided by various L3 signaling
protocols, NAS and RRC, and the different L2 transport protocols, PDCP, RLC, and MAC. It
provides a thorough discussion on the Attach procedure and the different types of
mobility and dual-connectivity possibilities in 5G RAN.

 

Explain the 5GS Protocol Architecture
1.1Distinguish between the different EPS and 5GS protocol types
1.2Explain the EPS and 5GS architecture, interfaces and logical
functions
1.3Describe the split architecture
1.4Explain Non-Standalone / EN-DC and Standalone NR
deployment

 

Explain Security and Evolved Quality of Service in 5G RAN
2.1 Explain Authentication and key agreement procedure

2.2 Detail radio access security

2.3 Describe transport Network security

2.4 Explain Qos flows and NR data radio bearers

2.5 Describe the reflective quality of service.

 

Explain the various L3 Signaling Protocols
3.1 List the functions of the Non-Access Stratum (NAS) protocol
3.2 Describe the different procedures in the NAS layer
3.3 Explain the interaction between Radio Resource Control (RRC)
and the lower layers in the control plane
3.4 Distinguish the RRC connected, inactive and idle UE states
3.5 Detail the functions and services of RRC
3.6 List the main functions and procedures of XnAP signaling protocol
3.7 List the main functions and procedures of NGAP signaling protocol

 

Explain the L2 transport protocols SDAP, PDCP, RLC, MAC and GTP-U Protocols
4.1 Describe the SDAP functions in the user plane

4.2 Explain the PDCP functions and highlight the improvements from LTE

4.3 Explain the RLC functions and highlight the improvements from LTE

4.4 Describe the different RLC modes

4.5 Explain the MAC functions and highlight the improvements from LTE

4.6 Describe the content of SDAP,PDCP,RLC and MAC packet data unit

4.7 Explain the main functions and procedures of the transport protocol GTP-U

 

Course Content

Time: 5 days

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$699.00