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5G L2 and L3 Mastery Course | Training & Certification – Edunavo
5G L2 and L3 Mastery Course | Training & Certification – Edunavo
Curriculum
5 Sections
115 Lessons
25 Hours
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Introduction
1
1.1
Course Contents Introduction
L2 (MAC)
50
2.1
Module 1 : Functions (TS 38.321 4.4)
53 Minutes
2.2
2.1 RACH Procedures in 5G NR
11 Minutes
2.3
2.2 Major Enhancements in 5G NR RACH
12 Minutes
2.4
2.3 EDT Scenario-TS 38.321,38.300,38.331
7 Minutes
2.5
2.4 Preamble Format Categories & Their Impact
3 Minutes
2.6
2.5 RACH FLOW
45 Minutes
2.7
2.6 5G NR PRACH Power Control
5 Minutes
2.8
2.7 5G NR RA-RNTI Calculation(TS 38.321)
6 Minutes
2.9
2.8 MAC structure for RAR
18 Minutes
2.10
2.9 5G Timing Advance TS 38.321
8 Minutes
2.11
2.10 Downlink and Uplink Timing Relation TS 38.321
9 Minutes
2.12
2.11 Physical Layer Timing Unit(Tc)
6 Minutes
2.13
2.12 How Timing Advance Command is applied
4 Minutes
2.14
2.13 Example Calculation_RAR TA
4 Minutes
2.15
2.14 MSG3 PUSCH time domain resource Allocation
6 Minutes
2.16
2.15 MSG3 Frequency Domain Resource Allocation
2.17
3.1 5G MAC BSR
6 Minutes
2.18
3.2 Types of BSR
20 Minutes
2.19
3.3 BSR Formats
5 Minutes
2.20
3.4 BSR MAC-CE Structure
4 Minutes
2.21
3.5 BSR Type Selection Example
6 Minutes
2.22
4.1 5G RLF (TS 38.321)
14 Minutes
2.23
4.2 BFR TS 38.321 5.17
10 Minutes
2.24
4.3 RRC Parameters for Beam Failure Detection
3 Minutes
2.25
4.4 RRC Parameters for Beam Failure Recovery TS 38.331
9 Minutes
2.26
5.1 HARQ Entities and Processes
12 Minutes
2.27
5.2 Key Procedures
4 Minutes
2.28
5.3 Retransmissions
7 Minutes
2.29
5.4 HARQ Feedback Handling
10 Minutes
2.30
5.5 Buffer Management
3 Minutes
2.31
5.6 Synchronization and State Variables
6 Minutes
2.32
6.1 Purpose of SR
3 Minutes
2.33
6.2 SR Configuration
13 Minutes
2.34
6.3 Triggering Conditions
5 Minutes
2.35
6.4.1 SR Transmission Procedure
7 Minutes
2.36
6.4.2 SR Procedure Fallback and Co-ordination
15 Minutes
2.37
7.1 Purpose of PHR
6 Minutes
2.38
7.2 Types of PHR
3 Minutes
2.39
7.3 Triggering Conditions
7 Minutes
2.40
7.4 PHR Procedure
8 Minutes
2.41
8.1 Purpose of DRX
9 Minutes
2.42
8.2 DRX Configuration
11 Minutes
2.43
9.1 Bandwidth Part (BWP) Operation
8 Minutes
2.44
9.2 BWP Types
24 Minutes
2.45
9.3 BWP Configuration
5 Minutes
2.46
9.4 BWP Activation & Deactivation
11 Minutes
2.47
9.5 BWP Switching Triggers
12 Minutes
2.48
9.6 MAC-Layer Procedures
12 Minutes
2.49
9.7 Key Differences from LTE
4 Minutes
2.50
BWP Switching DCI 1_1 validation
22 Minutes
L2 (RLC)
19
3.1
1. Functionality 38.322 4.4
3.2
2.1 Functionality TM
3.3
2.2 Functionality UM
3.4
2.3 Functionality AM
3.5
2.4 Q&A
3.6
2.5 RRC Parameters defining RLC
3.7
3. PDU Transmission Order in RLC UM 38.322 6.2.2.3
3.8
4. PDU Transmission Order in RLC AM 38.322 6.2.2.4
3.9
5. RLC Max Transmission
3.10
6.1 RLC Window Stall
3.11
6.2 Why Half the Max Window Length?
3.12
7. STATUS PDU 38.322 6.2.2.5
3.13
8.1 :ARQ procedures 38.322 5.3
3.14
8.2 Polling Mechanism Logic & Trigger Conditions
3.15
8.3 Example Scenario
3.16
8.4 Why Periodic Polling?
3.17
9. SDU discard procedures 38.322 5.4
3.18
10.1 : Components Included in Data Volume
3.19
10.2 Calculation Rules
L2 (PDCP)
11
4.1
Module 1 : PDCP Functionalities in 5G (TS 38.323 4.4)
4.2
Module 2 : PDCP layer, functional view (TS 38.323 4.2.2)
4.3
Module 3 : Services (TS 38.323 4.3.1)
4.4
Module 4 : PDCP entity handling TS 38.323 5.1
4.5
Module 5 : Data Transfer TS 38.323 5.2
4.6
Module 6 : SDU discard TS 38.323 5.3
4.7
Module 7 : Robust header compression and decompression TS 38.323 5.7
4.8
Module 8 : Ciphering and deciphering (TS 38.323 5.8)
4.9
Module 9 : Integrity Protection and Verification: TS 38.323 5.9
4.10
Module 10 : PDCP Data Structure (TS 38.323 6.2.2/6.2.3)
4.11
Module 1 : PDCP Structure Parameter TS 38.323 6.3)
L3 (RRC)
34
5.1
1.1: RRC State Transition
5.2
2.1 GSCN
5.3
2.2 SSB Time Domain Resource Allocation
5.4
2.3 SSB Frequency Offset Calculation Formula
5.5
2.4 SSB Positioning Calculation Practice
5.6
2.5 Positioning of PSS, SSS & PBCH
5.7
3.1 MIB
5.8
3.2 SIB
5.9
4: SFN Calculation
5.10
5.1 RLM & Failure Counters
5.11
5.2 RRC Connection Control
5.12
6: 5G NR Signaling Radio Bearers (SRBs) TS38.331 4.2.2
5.13
7: SERVICES 38.331 4.3
5.14
8:RRC FUNCTION 38.331 4.4
5.15
9.1 Purpose of Paging
5.16
9.2 Paging Message Structure (TS 38.331 5.3.2)
5.17
9.3 Paging Procedure
5.18
9.4 Key Concept & Calculation
5.19
10.1 : AS Security context
5.20
10.2 Activation/Deactivation Rules
5.21
10.3 Security key derivation
5.22
11: RRC Re-establishment Procedure 38.331 5.3.7
5.23
12.1 Purpose of RRC Reconfiguration
5.24
12.2 RRC Reconfiguration Scenario
5.25
12.3 RRCReconfiguration Message Structure (TS 38.331)
5.26
12.4 Procedure Flow
5.27
13:RRC RESUME 38.331 5.3.13
5.28
Module14: SCG failure information 38.331 5.7.3
5.29
15: 5G Measurement Events
5.30
16.1 5G NR Measurement Configuration
5.31
16.2 5G NR Measurement Gap Configuration
5.32
17.1 : IRAT 38.331 5.4
5.33
17.2 IRAT Failure REASON
5.34
17.3 IRAT HO Optimization
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