Secure Downlink Transmission of Active RIS Aided Cell-Free System

Limeng Dong; Zihang Huang; Xiao Tang; Tong Xing Zheng; Jiale Shi

doi:10.1109/LWC.2024.3491184

Secure Downlink Transmission of Active RIS Aided Cell-Free System

Limeng Dong, Zihang Huang, Xiao Tang, Tong Xing Zheng, Jiale Shi

School of Electronics and Information

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

This letter considers an active reconfigurable intelligent surfaces (RIS) aided secure cell-free system, and focuses on enhancing the secure transmission performance of legitimate users by assuming imperfect channel state information of malicious eavesdropper. To achieve this goal, an efficient alternating optimization (AO) algorithm is proposed to maximize the worst case downlink signal to interference plus noise ratio of users under eavesdropping attack. In particular, a Dinkelbach and successive approximation combined algorithm is proposed to optimize the phase shift and amplification coefficients at RIS with detailed proof of convergence. Simulation results have verified the significant performance gain returned by the proposed algorithm compared with benchmark schemes.

Original language	English
Pages (from-to)	168-172
Number of pages	5
Journal	IEEE Wireless Communications Letters
Volume	14
Issue number	1
DOIs	https://doi.org/10.1109/LWC.2024.3491184
State	Published - 2025

Keywords

Active reconfigurable intelligent surface
cell-free
eavesdropper
imperfect channel state information

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10.1109/LWC.2024.3491184

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title = "Secure Downlink Transmission of Active RIS Aided Cell-Free System",

abstract = "This letter considers an active reconfigurable intelligent surfaces (RIS) aided secure cell-free system, and focuses on enhancing the secure transmission performance of legitimate users by assuming imperfect channel state information of malicious eavesdropper. To achieve this goal, an efficient alternating optimization (AO) algorithm is proposed to maximize the worst case downlink signal to interference plus noise ratio of users under eavesdropping attack. In particular, a Dinkelbach and successive approximation combined algorithm is proposed to optimize the phase shift and amplification coefficients at RIS with detailed proof of convergence. Simulation results have verified the significant performance gain returned by the proposed algorithm compared with benchmark schemes.",

keywords = "Active reconfigurable intelligent surface, cell-free, eavesdropper, imperfect channel state information",

author = "Limeng Dong and Zihang Huang and Xiao Tang and Zheng, {Tong Xing} and Jiale Shi",

note = "Publisher Copyright: {\textcopyright} 2012 IEEE.",

year = "2025",

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AU - Huang, Zihang

AU - Tang, Xiao

AU - Zheng, Tong Xing

AU - Shi, Jiale

PY - 2025

Y1 - 2025

N2 - This letter considers an active reconfigurable intelligent surfaces (RIS) aided secure cell-free system, and focuses on enhancing the secure transmission performance of legitimate users by assuming imperfect channel state information of malicious eavesdropper. To achieve this goal, an efficient alternating optimization (AO) algorithm is proposed to maximize the worst case downlink signal to interference plus noise ratio of users under eavesdropping attack. In particular, a Dinkelbach and successive approximation combined algorithm is proposed to optimize the phase shift and amplification coefficients at RIS with detailed proof of convergence. Simulation results have verified the significant performance gain returned by the proposed algorithm compared with benchmark schemes.

AB - This letter considers an active reconfigurable intelligent surfaces (RIS) aided secure cell-free system, and focuses on enhancing the secure transmission performance of legitimate users by assuming imperfect channel state information of malicious eavesdropper. To achieve this goal, an efficient alternating optimization (AO) algorithm is proposed to maximize the worst case downlink signal to interference plus noise ratio of users under eavesdropping attack. In particular, a Dinkelbach and successive approximation combined algorithm is proposed to optimize the phase shift and amplification coefficients at RIS with detailed proof of convergence. Simulation results have verified the significant performance gain returned by the proposed algorithm compared with benchmark schemes.

KW - Active reconfigurable intelligent surface

KW - cell-free

KW - eavesdropper

KW - imperfect channel state information

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SP - 168

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JO - IEEE Wireless Communications Letters

JF - IEEE Wireless Communications Letters

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Secure Downlink Transmission of Active RIS Aided Cell-Free System

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