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Beamforming Optimization for Extremely Large-Scale RIS-Aided Near-Field Secure Communications

Information Theory 2026-03-09 v1 math.IT

Abstract

This paper studies an extremely large-scale reconfigurable intelligent surface (XL-RIS)-aided near-field physical layer security (PLS) communication system, aiming to maximize the secrecy rate by jointly optimizing precoding vector at the BS and the reflection coefficient matrix at the XL-RIS. Artifi-cial jamming was introduced to further enhance communication security. To solve the non-convex secrecy rate problem, an alternate optimization-based algorithm is adopted to decompose it into two sub-problems. Specifically, when optimizing the transmit beamformer at the BS, the non-convex prob-lem is transformed into a convex one through the weighted minimum mean-square error and the successive convex approximation-based algorithms. For the optimization problem of the XL-RIS phase-shifting matrix, a low-complexity alternating direction method of multipliers-based algorithm is employed to enhance the flexibility of the design. The proposed algorithm is capable of accommodating discrete phase optimization for the XL-RIS, thus better aligning with practical system requirements. Simulation results demonstrate that when the eavesdropper reside in the same direction as the legitimate user and is located closer to the XL-RIS, the proposed scheme in this paper can still ensure the secure communication.

Keywords

Cite

@article{arxiv.2603.05922,
  title  = {Beamforming Optimization for Extremely Large-Scale RIS-Aided Near-Field Secure Communications},
  author = {Xiaotong Xu and Qian Zhang and Yunxiao Li and Xuejun Cheng and Meihui Liu and Ju Liu},
  journal= {arXiv preprint arXiv:2603.05922},
  year   = {2026}
}
R2 v1 2026-07-01T11:06:12.074Z