Bi-Static Sensing for Near-Field RIS Localization
Paper in proceeding, 2022

We address the localization of a reconfigurable intelligent surface (RIS) for a single-input single-output multicarrier system using bi-static sensing between a fixed transmitter and a fixed receiver. Due to the deployment of RISs with a large dimension, near-field (NF) scenarios are likely to occur, especially for indoor applications, and are the focus of this work. We first derive the Cram´er-Rao bounds (CRBs) on the estimation error of the RIS position and orientation and the time of arrival (TOA) for the path transmitter-RIS-receiver. We propose a multi-stage low-complexity estimator for RIS localization purposes. In this proposed estimator, we first perform a line search to estimate the TOA. Then, we use the far-field approximation of the NF signal model to implicitly estimate the angle of arrival and the angle of departure at the RIS center. Finally, the RIS position and orientation estimate are refined via a quasi-Newton method. Simulation results reveal that the proposed estimator can attain the CRBs. We also investigate the effects of several influential factors on the accuracy of the proposed estimator like the RIS size, transmitted power, system bandwidth, and RIS position and orientation.

RIS Localization

Near-Field

CRB

Author

Reza Ghazalian

Aalto University

Kamran Keykhosravi

Chalmers, Electrical Engineering, Communication, Antennas and Optical Networks

Hui Chen

Chalmers, Electrical Engineering, Communication, Antennas and Optical Networks

Henk Wymeersch

Chalmers, Electrical Engineering, Communication, Antennas and Optical Networks

Riku Jäntti

Aalto University

GLOBECOM - IEEE Global Telecommunications Conference

6457-6462
9781665435406 (ISBN)

IEEE Global Communications Conference
Rio de Janeiro, Brazil,

Reconfigurable Intelligent Sustainable Environments for 6G Wireless Networks

European Commission (EC) (EC/2020/101017011), 2021-01-01 -- 2023-12-31.

Subject Categories

Telecommunications

Signal Processing

DOI

10.1109/GLOBECOM48099.2022.10001209

More information

Latest update

10/27/2023