Multi-IRS-Aided Doppler-Tolerant Wideband DFRC System
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Intelligence reflecting surface (IRS) is recognized as the enabler of future dual-function radar-communications (DFRC) for improving spectral efficiency, coverage, parameter estimation, and interference suppression. Prior studies on IRS-aided DFRC focus on either narrowband processing, single-IRS deployment, static targets, non-clutter scenario, or under-utilized line-of-sight (LoS) and non-line-of-sight (NLoS) paths. In this paper, we address the aforementioned shortcomings by optimizing a wideband DFRC system that comprises multiple IRSs and a dual-function base station that jointly processes the LoS and NLoS wideband multi-carrier signals to extract communications symbols and moving target parameters in the presence of clutter. We formulate the transmit and IRS beamformer design as the maximization of the worst-case radar signal-to-interference-plus-noise ratio (SINR) subject to transmit power and communications SINR. We tackle this nonconvex problem under the alternating optimization framework, where the subproblems are solved by a combination of the Dinkelbach algorithm, consensus alternating direction method of multipliers, and Riemannian steepest decent. Our numerical experiments show that the proposed multi-IRS-aided wideband DFRC provides over 6 dB radar SINR and 40
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