5G-based System-level Integrated Sensing and Communication Simulator

STILL UNDER DEVELOPING and DEBUGGING

NOTE: R2023a or above is NOT available for this simulator

Codes for the paper: 'A Performance Evaluation Software Platform for 5G-based Integrated Sensing and Communication'

System-level Simulator (SLS) for NR-based Integrated Sensing and Communication (ISAC).

Incooperates the following parts:

Scenario generation,

Based on the OpenStreetMap™ open-source data

Multi-node ISAC network simulation,

Focus on implementing key techniques of ISAC

Communication simulation functions (MIMO), including:

APP layers modeling
RLC layers modeling
MAC layers modeling
PHY layers modeling
CDL channel modeling
Pathloss modeling
Simulation visualization tools

Sensing simulation functions (mono-static sensing), including:

Radar echo modeling
Mono-static radar sensing modeling
Radar detection algorithms (2D-CFAR)
Radar estimation algorithms (2D-FFT and MUSIC)

Initial 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, P. R. China.

MATLAB version and toolboxes required:

R2019(not tested)-R2022, (IMPORTANT NOTE: R2023a and above is not available!) 
5G Toolbox, Phased Array System Toolbox, Wireless Communication Toolbox.

Getting Started

To simulate the system-level ISAC scenario,
first, deploy the scenario in the 'scenarios' folder,
and then locate the corresponding file name in the 'launcherFiles' folder to run the simulation.

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

[email protected] (currently in charge)
[email protected]

3GPP Standards:

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).

5G_based_System_level_Integrated_Sensing_and_Communication_Simulator
5G_based_System_level_Integrated_Sensing_and_Communication_Simulator copied to clipboard

Metadata

5G-based System-level Integrated Sensing and Communication Simulator

STILL UNDER DEVELOPING and DEBUGGING

NOTE: R2023a or above is NOT available for this simulator

Codes for the paper: 'A Performance Evaluation Software Platform for 5G-based Integrated Sensing and Communication'

Incooperates the following parts:

Scenario generation,

Multi-node ISAC network simulation,

Communication simulation functions (MIMO), including:

Sensing simulation functions (mono-static sensing), including:

Initial members participated in this project:

MATLAB version and toolboxes required:

Getting Started

Documentation

License

Contact

3GPP Standards:

← Metadata

Owner

Metadata

5G_based_System_level_Integrated_Sensing_and_Communication_Simulator 5G_based_System_level_Integrated_Sensing_and_Communication_Simulator copied to clipboard

Metadata

5G-based System-level Integrated Sensing and Communication Simulator

STILL UNDER DEVELOPING and DEBUGGING

NOTE: R2023a or above is NOT available for this simulator

Codes for the paper: 'A Performance Evaluation Software Platform for 5G-based Integrated Sensing and Communication'

Incooperates the following parts:

Scenario generation,

Multi-node ISAC network simulation,

Communication simulation functions (MIMO), including:

Sensing simulation functions (mono-static sensing), including:

Initial members participated in this project:

MATLAB version and toolboxes required:

Getting Started

Documentation

License

Contact

3GPP Standards:

← Metadata

Owner

Metadata

5G_based_System_level_Integrated_Sensing_and_Communication_Simulator
5G_based_System_level_Integrated_Sensing_and_Communication_Simulator copied to clipboard