Feng, Y., Chen, J., Lv, L., Zhou, Y., Yang, L., Al-Dhahir, N., & Adachi, F. (2024). Intelligent Reflecting Surface-Assisted Symbiotic Radio Systems: A Double-Reflection Covert Communication Design. arXiv preprint arXiv:2410.10276v1.
This paper investigates the potential of using intelligent reflecting surfaces (IRS) to enhance covert communication in symbiotic radio (SR) systems. The authors aim to design and optimize a system that minimizes the probability of a warden detecting the covert communication.
The authors develop a theoretical framework for an IRS-assisted covert communication system in both parasitic SR (PSR) and commensal SR (CSR) scenarios. They derive a closed-form expression for the average detection error probability (DEP) of the warden. They then formulate optimization problems to maximize the DEP by jointly optimizing the transmit power, backscatter reflection coefficient, and IRS phase-shifter. To solve these problems, they propose the Phase Alignment Pursuit (PAP) algorithm for the PSR case and the Power Leakage Minimization (PLM) algorithm for the CSR case.
This research demonstrates the feasibility and effectiveness of using IRS to enhance covert communication in SR systems. The proposed strategies and optimization algorithms provide a practical framework for designing secure and stealthy communication systems for future wireless networks.
This work contributes significantly to the field of physical layer security by introducing a novel approach to covert communication using IRS in SR systems. The findings have important implications for applications requiring secure and hidden communication, such as military communications, secure IoT, and privacy-sensitive data transmission.
The study assumes perfect channel state information (CSI) for legitimate links and statistical CSI for the warden link. Future research could investigate the impact of imperfect CSI on system performance. Additionally, exploring the use of multiple antennas at the receiver and investigating the system's robustness against active warden attacks are promising directions for future work.
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