In this paper, the programmable signal propagation paradigm, enabled by Reconfigurable Intelligent Surfaces (RISs), is exploited for high accuracy 3-Dimensional (3D) user localization with a single multi-antenna base station. Capitalizing on the tunable reflection capability of passive RISs, we present a two-stage user localization method leveraging the multi-reflection wireless environment. In the first stage, we deploy an off-grid compressive sensing approach, which is based on the atomic norm minimization, for estimating the angles of arrival associated with each RIS, which is followed, in the second stage, by a maximum likelihood location estimation initialized with a least-squares line intersection technique. The presented numerical results showcase the high accuracy of the proposed 3D localization method, verifying our theoretical Cram\'er Rao lower bound analysis.
@article{arxiv.2210.15242,
title = {Compressed-Sensing-Based 3D Localization with Distributed Passive Reconfigurable Intelligent Surfaces},
author = {Jiguang He and Aymen Fakhreddine and Henk Wymeersch and George C. Alexandropoulos},
journal= {arXiv preprint arXiv:2210.15242},
year = {2022}
}
Comments
5 pages, 4 figures, invited paper for IEEE ICASSP 2023