Kavli Affiliate: Long Zhang
| First 5 Authors: Yu Yao, Junhao Zhang, Pu Miao, Long Zhang, Gaojie Chen
| Summary:
Unlike the conventional fully-passive and fully-active reconfigurable
intelligent surfaces (RISs), a hybrid RIS consisting of active and passive
reflection units has recently been concerned, which can exploit their
integrated advantages to alleviate the RIS-induced path loss. In this paper, we
investigate a novel security strategy where the multiple hybrid RIS-aided
integrated sensing and communication (ISAC) system communicates with downlink
users and senses an extended target synchronously. Assuming imperfectly known
target location (TL), we consider the joint design of the transmit signal and
receive filter bank of the base station (BS), the receive beamformers of all
users and the weights of the hybrid RIS. An optimization problem is formulated
for maximizing the worst-case sensing signal-to-interference-plus-noise-ratio
(SINR) subject to secure communication and system power budget constraints. To
address this non-convex problem, we leverage generalized fractional programming
(GFP) and penalty-dual-decomposition (PDD), and propose a security solution
that efficiently optimizes all variables by employing convex optimization
approaches. Simulation results show that by incorporating the multiple hybrid
RIS into the optimization design, the extended target detection and secure
transmission performance of ISAC systems are improved over the state-of-the-art
RIS-aided ISAC approaches.
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