Joint Beamforming and Mode Selection Design for Hybrid RIS Assisted Integrated Sensing and Communications

In this paper, we investigate a hybrid reconfigurable intelligent surface (RIS) enabled integrated sensing and commu-nication (ISAC) system, in which a hybrid RIS is employed to assist a base station (BS) to sense a specified target, while interacting with multiple communication users (CUs) simultan...

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Bibliographic Details
Main Authors: Zhao, Rui, Hu, Xiaoyan, Liu, Chaowen, Xiao, Han, Zheng, Tong-Xing, Wong, Kai-Kit, Lu, Guangyue
Format: Conference Proceeding
Language:English
Subjects:
Array signal processing
block coordinate descent
Hybrid power systems
Hybrid reconfigurable intelligent surface
integrated sensing and communication
joint beamforming and mode selection
Power demand
Radar
Reconfigurable intelligent surfaces
Simulation
Switches
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Summary:In this paper, we investigate a hybrid reconfigurable intelligent surface (RIS) enabled integrated sensing and commu-nication (ISAC) system, in which a hybrid RIS is employed to assist a base station (BS) to sense a specified target, while interacting with multiple communication users (CUs) simultaneously. In particular, a hybrid RIS is introduced such that each of its surface module is able to switch between active and passive modes, reducing the system's power consumption. Subsequently, an optimization problem is formulated with the aim of maximizing the radar output signal-to-noise ratio while satisfying communication requirement for each CU, transmit power constraint for BS and the active RIS elements, by jointly optimizing radar recieve filter, BS's transmit beamforming matrix, RIS reflection coefficients, and the selection matrix that determines the working modes for each unite of the hybrid RIS. Since this design problem is not convex, we propose an alternating optimization based method to solve this problem. Eventually, upon the simulation analysis, we demonstrate that the performance achievable by the proposed scheme is significantly better than the counterparts assisted solely by the active or passive RIS.
ISSN:1558-2612
DOI:10.1109/WCNC57260.2024.10571105