5G NR Workshop
Description:
This Workshop provide a full understanding of 5G NR network, by a complete modules that explain all 5G aspects, network concept, principals and structure.
This workshop cover the 5G NR Network architectures end to end, use cases and application, Network slicing and deployment options.
This workshop is designed to provide a deep understanding of 5G NR air interface protocols and procedures, 5G NR physical layer structure, MIMO and beamforming management.
this workshop include air interface capacity, dimensioning and 5G NR RF planning parameters.
Objectives:
By Completing this workshop, the learner will be able to:
– Discuss 5G Network enabler, 5G requirement and 3GPP standards evolution.
– Describe 5G network architecture radio access and core network.
– Describe 5G use cases and applications.
– Describe 5G network architecture and define the network element rules.
– Describe 5G NR air interface, protocols and 5G NR physical layer structure.
– Describe massive MIMO and beamforming concept, principles and operations.
– Describe 5G scheduling and data transfer procedures.
– Describe 5G network services and procedures.
– Describe 5G air interface capacity and dimensioning.
– Describe and define 5G RF planning parameters.
Day 1
5G NR Overview
- 5G enabler
- 5G Requirement
- Standards evolution and time line
- Release 15, Release 16, Release 17
- LTE evolution
- LTE Vs 5G NR
- 5G use cases
2. 5G Network Architecture
- 5G Network Architecture
- 5G deployment options
- 5G Access network architecture
- 5G Core network architecture
- 5G QoS
- 5G Bearers
Day 2
3. 5G use cases
- Enhanced mobile broadband
- Mission critical communications
- Massive Machine communications
4. 5G Network Slicing
- Network Slicing Overview
- 5G Network slicing architecture
- 5G radio access in network slicing
- 5G Procedures in network slicing
5. QoS and QoE in 5G Network
- QoS & QoE Overview
- 5G QoS structure
- 5G QoS parameters
- 5G QoS Flow
- QoE Concept & Model
- QoE in 5G use cases
Day 3
6. 5G Air Interface Protocols
- User and Control Plan Protocols
- RRC States and Functions
- SDAP Protocol and Functions
- PDCP, RLC and MAC Protocols
7. Physical Layer Structure
- 5G Channels Structure & Mapping
- Logical Channels
- Transport Channels
- Physical Channels
- Physical Layer Mapping
- Physical Layer Processing
- Downlink Physical Channels
- Downlink Synchronization Signals (PSS & SSS)
- Physical Broadcast Channel(PBC)
- Physical Downlink Control Channel(PDCCH)
- Physical Downlink Shared Channel(PDSCH)
- Uplink Physical Channels
- Physical Random Access Channel(PRACH)
- Physical Uplink Shared Channel(PUSCH)
- Physical Uplink Control Channel(PUCCH)
- Physical Layer Reference Signals
- DL and UL Demodulation Reference Signals (DMRS)
- Channel State Information – Reference Signals
- Sounding Reference Signal(SRS)
- Phase Tracking Reference Signal(PT-RS)
8. 5G Massive MIMO & Beamforming
- Massive MIMO Overview
- Antenna & Beamforming
- Massive MIMO concepts & Principles
- Beamforming Management
Day 4
9. 5G Scheduling
- Dynamic Resource Allocation types
- Dynamic DL Scheduling
- Dynamic UL Scheduling
- Feedback and reporting
- Downlink Power Allocation
- Uplink Power Allocation
10. 5G Radio Procedures
- Initial Access
- Random Access
- RRC Setup & Registration
- EN-DC Procedures
- Paging
- 5G Mobility
- Idle Mode Mobility
- RRC States and Mobility
- Xn Based Handover
- RRC Inactive Mobility
Day 5
11.5G Air Interface Capacity
- Air interface capacity dimensioning process
- Traffic Model
- Downlink and Uplink Throughput
- Cell Capacity Estimation
- Required Number of sites
- Equipment dimensioning
12. 5G Radio Network Planning Parameters
- 5G PCI Planning
- 5G Random Access Overview
- PRACH Parameters
- PRACH Planning Example
- 5G Neighbor Cell Planning in NSA Scenario
- LTE to 5G Neighbor Cell Planning
- 5G to 5G Neighbor Cell Planning
- TA and RNA Planning