We investigate the achievable secrecy sum-rate in a multi-user XL-MIMO system, on which user distances to the base station become comparable to the antenna array dimensions. We show that the consideration of spherical-wavefront propagation inherent to these set-ups is beneficial for physical-layer security, as it provides immunity against eavesdroppers located in similar angular directions that would otherwise prevent secure communication under classical planar-wavefront propagation. A leakage subspace precoding strategy is also proposed for joint secure precoding and user scheduling, which allows to improve the secrecy sum-rate compared to conventional zero-forcing based strategies, under different eavesdropper collusion strategies.
@article{arxiv.2205.11335,
title = {Leakage Subspace Precoding and Scheduling for Physical Layer Security in Multi-User XL-MIMO Systems},
author = {Gonzalo J. Anaya-Lopez and Jose P. Gonzalez-Coma and F. Javier Lopez-Martinez},
journal= {arXiv preprint arXiv:2205.11335},
year = {2024}
}
Comments
5 pages and 4 figures. This work has been submitted to the IEEE for possible publication