1. The need for 5G
2. 5G System requirements 2.1.5G Performance Requirements
2.2. Bitrate
2.3. Latency
3. 5G potential use cases
3.1. Extreme Mobile Broadband
3.2. Massive Machine Communication
3.3. Critical Machine Communication
3.4. Usage scenarios of IMT for 2020 and beyond
4. 5G standards and roll-out
4.1. 3GPP Specifications
4.2. Key milestones for 5G research and developments
4.3. Time line for 5G standards and roll-out
4.4. 5G chipset and devices timeline
5. 5G NR-RAN Architecture, interfaces and protocols
6. 5G NR Spectrum
7. Multiple access and Physical resources
7.1. Multiple access scheme
7.2. Multiple numerologies
7.3. Physical resources
8. Bandwidth part operation
9. NR Frame structure
9.1. NR Frame structure
9.2. Slot and Mini-Slot
9.3. Slot patterns
10. 5G NR Channels and Physical Reference Signals
10.1. 5G NR Channels and Physical layer signals
10.2. PBCH
10.3. Synchronization signal
10.4. PDCCH
10.5. PUCCH
10.6. PDSCH and PUSCH
10.7. PRACH
10.8. Physical reference signals
11. Physical-layer-processing chain
11.1. Channel coding
11.2. Modulation scheme
11.3. Multi-antenna systems in NR
12. Massive MIMO and beamforming principles
12.1. Active Antenna System
12.2. Massive MIMO and Beamforming principles
12.3. Multi-antenna technology in NR
13. Beam Management
13.1. Beam based design
13.2. Beam Management
13.3. Beam Management in initial access
13.4. Beam Management in connected state
13.5. Beam measurements
13.6. Beam recovery
14. Random access procedure
14.1. Initial random access
14.2. Random access procedure
14.3. Beam based PRACH
15. NR Mobility
16. Multi-RAT Dual Connectivity
16.1. Multi-connectivity in cellular networks
16.2. Multi-RAT Dual Connectivity in 5G
16.3. Network interfaces
16.4. Non-standalone Option 3X
16.5. Next steps in NR Rel.15 and beyond
17. 5G System QoS