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Main Authors: Zheng, Yi Ning, Zhang, Lei, Chen, Xiao Qing, Rossi, Marco, Castaldi, Giuseppe, Liu, Shuo, Cui, Tie Jun, Galdi, Vincenzo
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2505.03266
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author Zheng, Yi Ning
Zhang, Lei
Chen, Xiao Qing
Rossi, Marco
Castaldi, Giuseppe
Liu, Shuo
Cui, Tie Jun
Galdi, Vincenzo
author_facet Zheng, Yi Ning
Zhang, Lei
Chen, Xiao Qing
Rossi, Marco
Castaldi, Giuseppe
Liu, Shuo
Cui, Tie Jun
Galdi, Vincenzo
contents Reconfigurable intelligent surfaces (RISs) have emerged as a key technology for shaping smart wireless environments in next-generation wireless communication systems. To support the large-scale deployment of RISs, a reliable and efficient diagnostic method is essential to ensure optimal performance. In this work, a robust and efficient approach for RIS diagnostics is proposed using a space-time coding strategy with orthogonal codes. The method encodes the reflected signals from individual RIS elements into distinct code channels, enabling the recovery of channel power at the receiving terminals for fault identification. Theoretical analysis shows that the normally functioning elements generate high power in their respective code channels, whereas the faulty elements exhibit significantly lower power. This distinction enables rapid and accurate diagnostics of elements' operational states through simple signal processing techniques. Simulation results validate the effectiveness of the proposed method, even under high fault ratios and varying reception angles. Proof-of-principle experiments on two RIS prototypes are conducted, implementing two coding strategies: direct and segmented. Experimental results in a realistic scenario confirm the reliability of the diagnostic method, demonstrating its potential for large-scale RIS deployment in future wireless communication systems and radar applications.
format Preprint
id arxiv_https___arxiv_org_abs_2505_03266
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Rapid diagnostics of reconfigurable intelligent surfaces using space-time-coding modulation
Zheng, Yi Ning
Zhang, Lei
Chen, Xiao Qing
Rossi, Marco
Castaldi, Giuseppe
Liu, Shuo
Cui, Tie Jun
Galdi, Vincenzo
Optics
Information Theory
Signal Processing
Reconfigurable intelligent surfaces (RISs) have emerged as a key technology for shaping smart wireless environments in next-generation wireless communication systems. To support the large-scale deployment of RISs, a reliable and efficient diagnostic method is essential to ensure optimal performance. In this work, a robust and efficient approach for RIS diagnostics is proposed using a space-time coding strategy with orthogonal codes. The method encodes the reflected signals from individual RIS elements into distinct code channels, enabling the recovery of channel power at the receiving terminals for fault identification. Theoretical analysis shows that the normally functioning elements generate high power in their respective code channels, whereas the faulty elements exhibit significantly lower power. This distinction enables rapid and accurate diagnostics of elements' operational states through simple signal processing techniques. Simulation results validate the effectiveness of the proposed method, even under high fault ratios and varying reception angles. Proof-of-principle experiments on two RIS prototypes are conducted, implementing two coding strategies: direct and segmented. Experimental results in a realistic scenario confirm the reliability of the diagnostic method, demonstrating its potential for large-scale RIS deployment in future wireless communication systems and radar applications.
title Rapid diagnostics of reconfigurable intelligent surfaces using space-time-coding modulation
topic Optics
Information Theory
Signal Processing
url https://arxiv.org/abs/2505.03266