Secrecy Performance of a RIS-Assisted Wireless Network: A Comprehensive Analysis Under Outdated CSI

IF 6.3 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Open Journal of the Communications Society Pub Date : 2025-03-05 DOI:10.1109/OJCOMS.2025.3547960

Tasneem Alshamaseen;Elmehdi Illi;Syed Waqas Haider Shah;Saud Althunibat;Marwa Qaraqe

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引用次数: 0

Abstract

Reconfigurable intelligent surfaces have manifested notable merits in enhancing networks’ security from a physical layer perspective by leveraging smart genuine signal reflection using its reflective elements (REs) towards legitimate users. However, outdated channel state information (CSI) poses a major challenge to RIS’s physical layer security gains. This work explores the impact of varying degrees of outdated CSI on the secrecy performance of RIS-assisted wireless networks. More specifically, the system in consideration consists of a source communicating with a legitimate receiver via an RIS in the presence of a potential eavesdropper. To this end, the secrecy outage probability (SOP) metric is derived under the presence of outdated CSI (aging) at the RIS controller, considering four scenarios based on the availability of direct links between the transmitter and both receivers (i.e., the legitimate one and the eavesdropper). This provides a comprehensive evaluation of the system’s resilience to CSI aging. Additionally, numerical evaluations are provided to determine the minimum number of RIS REs required to achieve a target SOP. The obtained results demonstrate that the adopted system can achieve an acceptable SOP level even with 10% outdated CSI (i.e.,

$\rho = 0.9$

). This resilience indicates that the system can reduce channel estimation frequency to reconfigure the RIS, thus decreasing overall system overhead and complexity and improving energy efficiency. Moreover, increasing the number of REs can mitigate CSI aging effects where an SOP level of

$3 \times 10^{-5}$

can be achieved with 140 REs at

$\rho = 0.9$

in the absence of a transmitter-receiver direct link. Lastly, Monte Carlo simulations validate the analytical findings.

查看原文本刊更多论文

ris辅助无线网络的保密性能：过时CSI下的综合分析

可重构智能表面通过对合法用户使用其反射元素（REs）来利用智能真实信号反射，从物理层角度增强网络安全性，显示出显著的优点。然而，过时的通道状态信息（CSI）对RIS的物理层安全收益构成了重大挑战。这项工作探讨了不同程度的过时CSI对ris辅助无线网络保密性能的影响。更具体地说，所考虑的系统包括在潜在窃听者存在的情况下，通过RIS与合法接收者通信的源。为此，在RIS控制器存在过时的CSI（老化）的情况下，考虑基于发射器和接收器（即合法接收器和窃听者）之间直接链路的可用性的四种情况，推导出保密中断概率（SOP）度量。这为系统对CSI老化的弹性提供了一个全面的评估。此外，还提供了数值评估，以确定实现目标SOP所需的RIS REs的最小数量。结果表明，即使CSI过时率为10%（即$\rho = 0.9$），所采用的系统也能达到可接受的SOP水平。这种弹性表明系统可以降低信道估计频率来重新配置RIS，从而降低整体系统开销和复杂性，提高能源效率。此外，增加REs的数量可以减轻CSI老化效应，在没有收发直接链路的情况下，在$\rho = 0.9$时，140 REs可以达到$3 \ × 10^{-5}$的SOP水平。最后，蒙特卡罗模拟验证了分析结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

IEEE Open Journal of the Communications Society Multiple-

CiteScore

13.70

自引率

3.80%

发文量

审稿时长

10 weeks

期刊介绍： The IEEE Open Journal of the Communications Society (OJ-COMS) is an open access, all-electronic journal that publishes original high-quality manuscripts on advances in the state of the art of telecommunications systems and networks. The papers in IEEE OJ-COMS are included in Scopus. Submissions reporting new theoretical findings (including novel methods, concepts, and studies) and practical contributions (including experiments and development of prototypes) are welcome. Additionally, survey and tutorial articles are considered. The IEEE OJCOMS received its debut impact factor of 7.9 according to the Journal Citation Reports (JCR) 2023. The IEEE Open Journal of the Communications Society covers science, technology, applications and standards for information organization, collection and transfer using electronic, optical and wireless channels and networks. Some specific areas covered include: Systems and network architecture, control and management Protocols, software, and middleware Quality of service, reliability, and security Modulation, detection, coding, and signaling Switching and routing Mobile and portable communications Terminals and other end-user devices Networks for content distribution and distributed computing Communications-based distributed resources control.