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Secure ISAC MIMO systems: exploiting interference with Bayesian Cramér-Rao bound optimization.

Nanchi Su1,2,3, Fan Liu2, Christos Masouros3

  • 1Guangdong Provincial Key Laboratory of Aerospace Communication and Networking Technology, Harbin Institute of Technology (Shenzhen), Shenzhen, 518055 China.

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|March 3, 2025
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Summary
This summary is machine-generated.

This study introduces a secure integrated sensing and communication (ISAC) design to enhance physical layer security. The novel signaling strategy optimizes sensing performance while protecting communication links from eavesdroppers.

Keywords:
Bayesian Cramér–Rao boundConstructive interferenceIntegrated sensing and communicationPhysical layer securitySuccessive convex approximation

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Area of Science:

  • Electrical Engineering
  • Information Theory
  • Signal Processing

Background:

  • Integrated Sensing and Communication (ISAC) systems offer dual functionality but face security challenges.
  • Potential eavesdroppers can exploit communication signals for surveillance.
  • Optimizing sensing performance while ensuring communication security is crucial for ISAC.

Purpose of the Study:

  • To develop a signaling design for secure ISAC systems.
  • To optimize target sensing performance while maintaining communication quality of service.
  • To enhance the physical layer security of ISAC systems against eavesdropping.

Main Methods:

  • Utilizing a dual-functional MIMO base station for simultaneous communication and sensing.
  • Minimizing the Bayesian Cramér-Rao bound for sensing performance optimization.
  • Exploiting constructive interference to create destructive signal regions for eavesdroppers.
  • Employing a successive convex approximation method to solve the non-convex optimization problem.

Main Results:

  • The proposed signaling design effectively enhances the physical layer security of ISAC systems.
  • The method successfully optimizes sensing performance by minimizing the Bayesian Cramér-Rao bound.
  • Numerical results demonstrate superior performance compared to traditional block-level precoding techniques.
  • Constructive interference is strategically used to degrade eavesdropper decoding probability.

Conclusions:

  • The developed secure ISAC signaling design is effective in simultaneously achieving sensing optimization and communication security.
  • The proposed successive convex approximation method provides an efficient solution for the complex optimization problem.
  • This work significantly advances the physical layer security capabilities of ISAC systems.