Link-level Simulator for 5G NR-based Integrated Sensing and Communication (ISAC)
MATLABMIT
5G-based Link-level Integrated Sensing and Communication Simulator
Link-level simulator (LLS) to implement NR-based Integrated Sensing and Communication (ISAC) key techniques.
Focuses on the communication physical (PHY) layer modeling and radar signal processing procedures only.
Members participated in this project:
D.S. Xue, J.C. Wei, Y.G. Li, T.L. Zeng,
Key Laboratory of Universal Wireless Communications, Ministry of Education,
Beijing University of Posts and Telecommunications,
Beijing, PR China.
MATLAB version and toolboxes required:
MATLAB R2021b or above,
5G Toolbox, Phased Array System Toolbox.
Main Features
Link-level scenario generation (full downlink or TDD),
Communication PHY layer modeling,
Communication downlink and uplink signal processing,
Sensing propagation channel modeling,
Sensing detection and estimation
Getting Started
To simulate the full downlink ISAC scenario, run 'launchFullDownlinkSimulation' in the root directory,
To simulate time division duplex (TDD) ISAC scenario, run 'launchTimeDivisionDuplexSimulation' in the root directory,
Documentation
None at present.
License
Copyright (C) 2023 Beijing University of Posts and Telecommunications
All rights reserved.
System-level ISAC Simulator
Author: Dongsheng Xue, et.al.
Contact
xuedongsheng@bupt.edu.cn
3GPP references:
3GPP TS 38.211(Physical channels and modulation),
3GPP TS 38.212(Multiplexing and channel coding),
3GPP TS 38.213(Physical layer procedures for control),
3GPP TS 38.214(Physical layer procedures for data),
3GPP TR 38.901(Study on channel model for frequencies from 0.5 to 100 GHz).