Litcius/Paper detail

Low-Complexity Joint Transceiver Optimization for MmWave/THz MU-MIMO ISAC Systems

Peilan Wang, Jun Fang, Xianlong Zeng, Zhi Chen, Hongbin Li

2024IEEE Internet of Things Journal9 citationsDOI

Abstract

In this article, we consider the problem of joint transceiver design for millimeter-wave (mmWave)/terahertz (THz) multiuser MIMO integrated sensing and communication (ISAC) systems. Such a problem is formulated into a nonconvex optimization problem, with the objective of maximizing a weighted sum of communication users’ rates and the passive radar’s signal-to-clutter-and-noise ratio (SCNR). By exploring a low-dimensional subspace property of the optimal precoder, a low-dimensional subspace property-inspired block-coordinate-descent (LS-BCD)-based algorithm is proposed with remarkably reduced computational complexity. Our analysis reveals that the hybrid analog/digital beamforming structure can attain the same performance as that of a fully digital precoder, provided that the number of radio frequency (RF) chains is no less than the number of resolvable signal paths. Also, through expressing the precoder as a sum of a communication-precoder and a sensing-precoder, we develop an analytical solution to the joint transceiver design problem by generalizing the idea of block diagonalization (BD) to the ISAC system. Simulation results show that with a proper tradeoff parameter, the proposed methods can achieve a decent compromise between communication and sensing, where the performance of each communication/sensing task experiences only a mild performance loss as compared with the performance attained by optimizing exclusively for a single task.

Topics & Concepts

TransceiverComputer scienceMIMOJoint (building)Terahertz radiationElectronic engineeringTelecommunicationsComputer networkWirelessOptoelectronicsPhysicsEngineeringBeamformingArchitectural engineeringAdvanced MIMO Systems OptimizationMillimeter-Wave Propagation and ModelingCooperative Communication and Network Coding