Two Birds, One Stone: A Per-Frame Approach for Joint Channel Estimation and Target Tracking in HBF-DFRC Systems

• Published in: IEEE transactions on communications p. 1
• Main Authors: Cheng, Ziyang, Wu, Linlong, Li, Yu, Liao, Bin, Shankar, Bhavani, Li, Huiyong
• Format: Journal Article
• Language: English
• Published: IEEE 2025
• Subjects: Array signal processing; channel estimation; Doppler frequency; Dual-function radar-communication; Estimation; hybrid beamforming; Radar; Radar tracking; Radio frequency; Signal to noise ratio; Symbols; Target tracking; Training; Transmitters
• ISSN: 0090-6778; 1558-0857
• DOI: 10.1109/TCOMM.2025.3571899

In dual-function radar-communication (DFRC) systems, precise and concurrent estimations of channel state information (CSI) and target directions are imperative to ensure simultaneous communications and sensing. This paper delves into a massive MIMO system employing hybrid beamforming (HBF), identified as a viable solution for achieving significant antenna gains while maintaining manageable hardware costs. The study focuses on a MIMO-DFRC system with a subarray-connection HBF architecture, proposing a preamble-by-preamble methodology to enable simultaneous wireless communications and target tracking on a per-frame basis. In the initial frames, we exploit the Doppler discrepancies between communication paths and fast-moving targets to segregate them. This sets the stage for iterative refinements of Doppler frequencies, angles of departure (AoDs), and angles of arrival (AoAs) estimations in the least square manner. Utilizing these estimations accrued from previous frames, the hybrid precoder and combiner of the subsequent frames are designed to boost a weighted signal-to-noise ratio (SNR), safeguarding the target tracking accuracy while concurrently refining the CSI estimation. Numerical simulations validate the proposed algorithm, demonstrating effective tracking performance with low overhead in MIMO-DFRC systems.