How to Simulate 5G NTN Transmission Paths
Simulate NTN RF transmission performance and platform mobility
Designing a 5G NTN RF transmission path requires simulating RF transmission performance and platform mobility. This process requires simulating a 5G physical layer transceiver in both the ground terminals and the space-based platform. The simulation software must simulate different RF propagation models and the impacts of platform mobility, like in a low earth orbit (LEO) satellite. A mission-level scenario approach can determine optimal configurations for the best system performance under diverse conditions like geographic and atmospheric characteristics, the satellite constellation, the non-terrestrial network (NTN) configuration, and user equipment (UE) use cases.
To complete an NTN a system design, the system design engineer employs a flexible new radio (NR) source configuration tailored to various NTN deployments. The system includes a versatile NR receiver that intelligently compensates for the delay and Doppler effects, delivering accurate and reliable results. With a comprehensive set of measurements for both the transmitter (Tx) and receiver (Rx), antenna models including phased arrays, and an NTN channel model, a system design provides a comprehensive understanding of the NTN ecosystem.
5G NTN simulation and modeling solution
See demo of the NTN channel simulation
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Explore the NTN integrated design environment
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W4815B PathWave System Design, Satellite
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W4503E PathWave Phased Array Simulation
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