This work proposes a STAR-RIS-assisted communication radar coexistence system to address the mutual interference between the communication and radar systems. The key highlights are:
The proposed system utilizes a STAR-RIS, which can simultaneously transmit and reflect signals, to improve communication performance while suppressing interference and providing full space coverage.
The authors derive closed-form expressions for the achievable spectral efficiencies (SEs) at the radar and communication receiver side, considering correlated Rayleigh fading channels.
An alternating optimization (AO) framework is developed to optimize the STAR-RIS passive beamforming and the radar beamforming. The STAR-RIS optimization is performed using a projected gradient ascent algorithm (PGAM) that can simultaneously optimize the amplitudes and phase shifts.
The proposed optimization based on statistical channel state information (CSI) can be performed less frequently compared to instantaneous CSI, reducing overhead and complexity.
Simulation results demonstrate the superior performance of the proposed STAR-RIS-assisted architecture over the conventional RIS counterpart. A benchmark full instantaneous CSI-based design is also provided, showing higher sum-rate but with increased overhead.
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