Adaptive RIS Design and Optimization for Cooperative RIS-Assisted Wireless Systems

IF 4.8 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Open Journal of Vehicular Technology Pub Date : 2025-07-14 DOI:10.1109/OJVT.2025.3588543

Tarun Jain;Sainath Bitragunta;Ashutosh Bhatia

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Abstract

We propose an adaptive RIS-based cooperative transmission strategy that jointly selects one of two RIS paths and dynamically optimizes the number of active meta-atoms to maximize physical layer (PHY) secrecy capacity under a total average power constraint. Unlike existing approaches that fix the RIS size K or assume identical fading on all links, our framework uses long-term statistics to probabilistically choose between two RISs (upper or lower) with arbitrary first-hop fading, and leverages instantaneous channel state information (CSI) on the selected path to solve a convex K-sizing problem via a Lagrangian multiplier approach. We derive and present the solution for optimal K, and numerically evaluate the average PHY secrecy capacity and average PHY secrecy efficiency for the proposed optimal strategy. Numerical results show that the proposed optimal-

$\text{K}$

strategy achieves up to 35% higher average PHY secrecy capacity and 50% improvement in average PHY secrecy efficiency compared to a fixed-K benchmark strategy across moderate power thresholds. Furthermore, we present an insightful asymptotic analysis for average PHY secrecy capacity in an interesting scaling regime. Our findings demonstrate the practical benefits of adaptive RIS for cooperative PHY secure and energy-efficient beyond fifth generation (B5G) wireless systems.

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协同RIS辅助无线系统的自适应RIS设计与优化

提出了一种基于自适应RIS的协同传输策略，该策略在总平均功率约束下，共同选择两条RIS路径中的一条，并动态优化活动元原子的数量，以最大化物理层（PHY）保密能力。与现有的固定RIS大小K或假设所有链路上的衰落相同的方法不同，我们的框架使用长期统计数据在任意第一跳衰落的两个RISs（上或下）之间进行概率选择，并利用所选路径上的瞬时信道状态信息（CSI）通过拉格朗日乘子方法解决凸K大小问题。我们推导并给出了最优K的解，并对所提出的最优策略的平均PHY保密容量和平均PHY保密效率进行了数值计算。数值结果表明，在中等功率阈值下，与固定K基准策略相比，所提出的最优-$\text{K}$策略的平均PHY保密容量提高了35%，平均PHY保密效率提高了50%。此外，我们提出了一个有见地的渐进分析平均PHY保密能力在一个有趣的缩放制度。我们的研究结果证明了自适应RIS在第五代（B5G）无线系统之后的协作PHY安全和节能方面的实际优势。

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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