Litcius/Paper detail

QoS-Aware Precoder Optimization for Radar Sensing and Multiuser Communications Under Per-Antenna Power Constraints

Chao Wang, Zan Li, Naofal Al‐Dhahir, Kyeong Jin Kim, Kai‐Kit Wong

2023IEEE Transactions on Signal Processing18 citationsDOIOpen Access PDF

Abstract

In this work, we concentrate on designing the precoder for the multiple-input multiple-output (MIMO) dual functional radar-communication (DFRC) system, where the dual-functional waveform is designed for performing multiuser downlink transmission and radar sensing simultaneously. Specifically, considering the signal-independent interference and signal-dependent clutter, we investigate the optimization of transmit precoding for maximizing the sensing signal-to-interference-plus-noise ratio (SINR) at the radar receiver under the constraint of the minimum SINR received at multiple communication users and per-antenna power budget. The formulated problem is challenging to solve due to the nonconovex objective function and nonconvex per-antenna power constraint. In particular, for the signal-independent interference case, we propose a distance-majorization induced algorithm to approximate the nonconvex problem as a sequence of convex problems whose optima can be obtained in closed form. Subsequently, our complexity analysis shows that our proposed algorithm has a much lower computational complexity than the widely-adopted semidefinite relaxation (SDR)-based algorithm. For the signal-dependent clutter case, we employ the fractional programming to transform the nonconvex problem into a sequence of subproblems, and then we propose a distance-majorization based algorithm to obtain the solution of each subproblem in closed form. Finally, simulation results confirm the performance superiority of our proposed algorithms when compared with the SDR-based approach. In conclusion, the novelty of this work is to propose an efficient algorithm for handling the typical problem in designing the DFRC precoder, which achieves better performance with a much lower complexity than the state-of-the-art algorithm.

Topics & Concepts

Computer scienceMathematical optimizationSignal-to-interference-plus-noise ratioPrecodingClutterAlgorithmMIMORadarComputational complexity theoryOptimization problemTelecommunications linkSemidefinite programmingArtificial noiseTransmitter power outputMathematicsBeamformingPower (physics)TelecommunicationsTransmitterChannel (broadcasting)PhysicsQuantum mechanicsRadar Systems and Signal ProcessingPAPR reduction in OFDMAdvanced SAR Imaging Techniques