5G-NR
Contents:
- Introduction to 5G simulation with NetSim
- Simulation GUI
- Model Features
- The 5G Frame Structure
- Data Transmission Overview
- 5G NR Stack
- SDAP (Specification: 37.324)
- RLC (Based on specification 38.322)
- RLC-AM (Based on specification 38.322)
- PDCP (Based on specification 38.322)
- MAC Layer
- PHY Layer
- Supported max data rate
- Propagation Models (Per 3GPP TR 38.900)
- Additional Loss Model
- Downlink Interference Model
- Uplink Interference Model
- 5G Core
- 5G Non-Stand Alone (NSA)
- NSA Packet Flow
- Handover
- Network Slicing
- LTENR Results, Packet Trace and Plots
- Radio measurements log file
- Radio resource allocation log file
- Handover Log file
- Code Block Log file
- OLLA Log file
- LTENR PRB Utilization log file
- Enable detailed logs in 5G NR
- Featured Examples
- Derive from 3GPP standards the theoretical data rate and throughput for a 1gNB - 2UE scenario, and compare with simulation
- Effect of distance on pathloss, SINR and MCS (7-Cell Hexagonal Layout, Urban Macro Propagation, NLOS)
- Effect of UE distance on throughput in FR1 and FR2
- Impact of MAC Scheduling algorithms on throughput, in a multi-UE scenario
- Max Throughput for different MCS and CQI
- Load balancing in 5G using Cell Individual Offset (CIO)
- 4G vs. 5G: Capacity analysis for video downloads
- 5G-Peak-Throughput
- Impact of distance on throughput for n261 band in LOS and NLOS states
- gNB cell radius for different data rates
- Impact of numerology on a RAN with phones, sensors, and cameras
- Impact of UE movement on Throughput
- Simulate and study the 5G Handover procedure.
- Impact of Handover margin and Time-To-Trigger on the performance of a 5G heterogeneous network
- QoS in 5G using GBR
- Omitted Features
- References