NetSim v15.0 Help
Contents:
Introduction
Earth fixed spot beams and cells
Bands
Band Frequency Information
Simulation GUI
Configure Non-Terrestrial Networks
Set device properties
Configure reports
GUI Parameters
Mobility model in NTN
Link budget
Uplink Link Budget
Link Budget Calculations: Example 1 LEO 600
Link Budget Calculations: Example 2 LEO 1200
Satellite Antenna Pattern
Off Boresight Angle Calculation
Link Budget Calculations: Example 3 LEO 600 and LEO 1200
Uplink Scheduling
NetSim Implementation
Interference Models
CIR based Interference
Link Budget Calculations: Example 4 LEO 600 and LEO 1200
Radio Measurements Log
Radio Measurements Log
Frequency Reuse
Frequency Reuse
Link Budget with Interference
Calculations for FRF 1
Calculations for FRF 3
Beam Radius Calculations
Hexagonal tessellation based on beam radius
Featured Examples
Impact of LEO Altitude Variation on SNR and Path Loss
SNR Variation Across Outdoor Scenarios with Varying Transmit Power
SNR and Pathloss variation with varying elevation angles
3GPP 38.821 Set 1 system level simulation
Introduction
Objective
Part 1: Network Scenario
Simulation Setup
Parameter configuration
Results and Discussion
Part 2: Peak Throughput and Spectral Efficiency Evaluation
Limitations and assumptions
Limitations and assumptions
NetSim v15.0 Help
5G-NTN
← Back
5G-NTN
¶
Contents:
Introduction
Earth fixed spot beams and cells
Bands
Band Frequency Information
Simulation GUI
Link budget
Uplink Link Budget
Link Budget Calculations: Example 1 LEO 600
Link Budget Calculations: Example 2 LEO 1200
Satellite Antenna Pattern
Off Boresight Angle Calculation
Link Budget Calculations: Example 3 LEO 600 and LEO 1200
Uplink Scheduling
NetSim Implementation
Interference Models
CIR based Interference
Link Budget Calculations: Example 4 LEO 600 and LEO 1200
Radio Measurements Log
Frequency Reuse
Link Budget with Interference
Calculations for FRF 1
Calculations for FRF 3
Beam Radius Calculations
Hexagonal tessellation based on beam radius
Featured Examples
Impact of LEO Altitude Variation on SNR and Path Loss
SNR Variation Across Outdoor Scenarios with Varying Transmit Power
SNR and Pathloss variation with varying elevation angles
3GPP 38.821 Set 1 system level simulation
Limitations and assumptions