通信学报2026,Vol.47Issue(4):29-39,11.DOI:10.11959/j.issn.1000-436x.2026081
基于RIS子结构的压缩感知多径抑制直接定位算法
RIS substructure-based direct localization algorithm with multipath suppression via compressed sensing
摘要
Abstract
To address the limited positioning accuracy of reconfigurable intelligent surface(RIS)-aided system in mul-tipath environments,a high-precision localization algorithm based on RIS substructures was proposed.A single RIS was divided into multiple substructures,and time-sequential orthogonal coding was applied to each substructure,enabling the reflected signal components from different substructures to be accurately separated at the receiver through orthogonal de-coding.In this way,a single RIS was made equivalent to multiple virtual anchor points,and the spatial observation di-mension of the system was significantly improved under a single RIS and single antenna configuration.On this basis,a compressed-sensing-based direct localization framework was constructed using an angle-domain signal model.An obser-vation dictionary was established according to the geometric mapping relationship between candidate positions and the substructures,and the target was directly estimated in the position domain,thereby avoiding the cascaded errors intro-duced by the estimation of intermediate parameters,such as the angle of arrival(AoA),in conventional two-step meth-ods.By jointly exploiting the consistency constraint of the target position and the sparsity of multipath components,the target path was effectively distinguished from multipath interference.Simulation results show that the proposed algo-rithm exhibits good robustness in complex multipath environments,achieves sub-meter-level positioning accuracy,and provides a new solution for low-cost and high-precision positioning aided by RIS.关键词
定位/可重构智能表面/多径环境/压缩感知Key words
positioning/reconfigurable intelligent surface/multipath environment/compressed sensing分类
信息技术与安全科学引用本文复制引用
李菁菁,王建辉,刘利豪,张艳语,胡南..基于RIS子结构的压缩感知多径抑制直接定位算法[J].通信学报,2026,47(4):29-39,11.基金项目
国家自然科学基金资助项目(No.62171468,No.62331024) The National Natural Science Foundation of China(No.62171468,No.62331024) (No.62171468,No.62331024)
