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Autores principales: Wang, Zhaole, Liu, Naijin, Tang, Xiao, Yuan, Shuai, Wang, Chenxi, Zhai, Zhi, Du, Qinghe, Liu, Jinxin
Formato: Preprint
Publicado: 2025
Materias:
Acceso en línea:https://arxiv.org/abs/2508.20455
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author Wang, Zhaole
Liu, Naijin
Tang, Xiao
Yuan, Shuai
Wang, Chenxi
Zhai, Zhi
Du, Qinghe
Liu, Jinxin
author_facet Wang, Zhaole
Liu, Naijin
Tang, Xiao
Yuan, Shuai
Wang, Chenxi
Zhai, Zhi
Du, Qinghe
Liu, Jinxin
contents Satellite communication is envisioned as a key enabler of future 6G networks, yet its wide coverage with high link attenuation poses significant challenges for physical layer security. In this paper, we investigate secure multi-beam, multi-group satellite communications assisted by aerial reconfigurable intelligent surfaces (ARISs). To maximize the sum of achievable multicast rates among the groups while constraining wiretap rates, we formulate a joint optimization problem involving transmission and reflection beamforming, ARIS-group association, and ARIS deployment. Due to the mixed-integral and non-convex nature of the formulated problem, we propose to decompose the problem and employ the block coordinate descent framework that iteratively solves the subproblems. Simulation results demonstrate that the proposed ARIS-assisted multi-beam satellite system provides a notable improvement in secure communication performance under various network scenarios, offering useful insights into the deployment and optimization of intelligent surfaces in future secure satellite networks.
format Preprint
id arxiv_https___arxiv_org_abs_2508_20455
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Secure Satellite Communications via Multiple Aerial RISs: Joint Optimization of Reflection, Association, and Deployment
Wang, Zhaole
Liu, Naijin
Tang, Xiao
Yuan, Shuai
Wang, Chenxi
Zhai, Zhi
Du, Qinghe
Liu, Jinxin
Information Theory
Satellite communication is envisioned as a key enabler of future 6G networks, yet its wide coverage with high link attenuation poses significant challenges for physical layer security. In this paper, we investigate secure multi-beam, multi-group satellite communications assisted by aerial reconfigurable intelligent surfaces (ARISs). To maximize the sum of achievable multicast rates among the groups while constraining wiretap rates, we formulate a joint optimization problem involving transmission and reflection beamforming, ARIS-group association, and ARIS deployment. Due to the mixed-integral and non-convex nature of the formulated problem, we propose to decompose the problem and employ the block coordinate descent framework that iteratively solves the subproblems. Simulation results demonstrate that the proposed ARIS-assisted multi-beam satellite system provides a notable improvement in secure communication performance under various network scenarios, offering useful insights into the deployment and optimization of intelligent surfaces in future secure satellite networks.
title Secure Satellite Communications via Multiple Aerial RISs: Joint Optimization of Reflection, Association, and Deployment
topic Information Theory
url https://arxiv.org/abs/2508.20455