5G RAN Training: Technology & Preliminary Planning
- 5G RAN Training: 5G RAN Services Overview
- Machine-to-Machine (M2M) communications
- Device-to-Device (D2D) communications
- IoT and 5G
- Cloud Radio Access Networks (C-RAN)
- mmWave (Millimeter Wave) approach
- 5G RAN Training: Technologies
- The available 5G spectrum
- The propagation model for 2.5 GHz, 3.6 GHz, 5 GHz, 26 GHz and 60 GHz
- LTE-TDD overview
- LTE-LAA technology
- 5G air interface overview
- Interference Cancellation (IC): Mitigation features and algorithms
- Modulation enhancements
- Adaptive modulation and coding enhancements
- Single frequency full duplex radio technologies
- Beam-forming and massive MIMO technology
- Heterogeneous Networks (Het-Nets)
- Radio Resource Management (RRM) enhancements
- Massive MIMO principles
- 5G RAN Training: 5G Preliminary Planning
- 3GPP LTE-A optional features for enabling 5G
- Smart cells: Small cell approach (available optional features)
- Planning 5G coverage: Link budget analysis for mmWave
- Planning LTE-A for 5G coverage: Link budget analysis up to 5 GHz spectrum
- Planning 5G capacity: Requirements for different services
- Planning 5G throughput considerations
- Planning Li-Fi parameters and channel modeling
- NB-IoT technology air interface description (MAC and physical layer)
- LTE-A and 5G planning for IoT coexistence: Capacity and coverage
- Improving RACH accessibility for LTE-A, IoT, and 5G
- (Optional) Li-Fi small cells indoor planning: Coverage and capacity considerations
- (Optional) 5G NB-IoT over satellite: Technical requirements and ITU recommendations
- (Optional) 5G NB-IoT over satellite: Parameter and planning configurations
- 5G RAN Training; Wrap-up
