R3C: Reliability and Control Cost Co-Aware in RIS-Assisted Wireless Control Systems for IIoT | IEEE Journals & Magazine | IEEE Xplore

R3C: Reliability and Control Cost Co-Aware in RIS-Assisted Wireless Control Systems for IIoT


Abstract:

The wireless control system (WCS) operating with massive ultrareliable and low-latency communications is viewed as a promising technology for the Industrial Internet of T...Show More

Abstract:

The wireless control system (WCS) operating with massive ultrareliable and low-latency communications is viewed as a promising technology for the Industrial Internet of Things (IIoT). However, the co-design of sensing, control, and communications is full of challenges, and the tradeoff between reliability and control performance in a closed-loop WCS under blind areas of the wireless network’s coverage is still to be solved. In this article, we exploit reconfigurable intelligence surface (RIS) to assist the device located in the blind areas of the wireless network’s coverage in transmitting sensing and control information over the wireless channels. Furthermore, we formulate a joint optimization of reliability and control cost for an RIS-assisted closed-loop WCS. Specifically, we apply a linear quadratic regulator (LQR) cost to measure the control performance, and a tradeoff performance metric called reliability-to-control efficiency (RCE) is proposed for the WCS. In addition, we maximize the minimum RCE of IIoT devices while meeting the requirements of reliability, control cost, and communication resources. An alternating optimization-based maximum the minimum RCE algorithm (AO-MmRCEA) is formulated to jointly optimize the transmission power, transmission time, beamforming, and reflecting coefficients of RIS. The convergence and complexity of the proposed AO-MmRCEA algorithm are analyzed. Simulation results demonstrate the convergence and effectiveness of the proposed AO-MmRCEA algorithm for closed-loop WCS.
Published in: IEEE Internet of Things Journal ( Volume: 11, Issue: 8, 15 April 2024)
Page(s): 13692 - 13707
Date of Publication: 04 December 2023

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