Wireless Localization with Space-Time Coded Reconfigurable Intelligent Surfaces

TL;DR

This paper introduces a low-cost, hardware-efficient wireless localization method using space-time coded reconfigurable intelligent surfaces, validated through experiments, which accurately determines the direction of arrival with minimal complexity.

Contribution

It presents a novel localization approach leveraging RIS with 1-bit coding, reducing hardware complexity and demonstrating effectiveness through experimental validation.

Findings

Accurate AOA estimation using RIS with single-bit codes

Reduced hardware complexity compared to previous methods

Experimental validation confirms practical viability

Abstract

In this paper, a novel approach for wireless localization is proposed and experimentally validated that leverages space-time coded reconfigurable intelligent surfaces (RIS). It is demonstrated that applying proper single-bit codes to each RIS element, enables accurate determination of the direction of arrival (AOA) at the receiver. Moreover, we introduce different scenarios that such technique can be used for localization. By incorporating RIS, a passive component, the method significantly reduces the complexity found in previous localization techniques. Additionally, the use of 1-bit codes minimizes hardware requirements, offering a reliable, low-cost solution for localization in advanced telecommunications networks.