Dual-Function Beamforming Design For Multi-Target Localization and Reliable Communications
Abstract
This paper investigates the transmit beamforming design for multiple-input multiple-output systems to support both multi-target localization and multi-user communications. To enhance the target localization performance, we derive the asymptotic Cram\'{e}r-Rao bound (CRB) for target angle estimation by assuming that the receive array is linear and uniform. Then we formulate a beamforming design problem based on minimizing an upper bound on the asymptotic CRB (which is shown to be equivalent to {maximizing} the harmonic mean of the weighted beampattern responses at the target directions). Moreover, we impose a constraint on the SINR of each received communication signal to guarantee reliable communication performance. Two iterative algorithms are derived to tackle the non-convex design problem: one is based on the alternating direction method of multipliers, and the other uses the majorization-minimization technique to solve an equivalent minimax problem. Numerical results show that, through elaborate dual-function beamforming matrix design, the proposed algorithms can simultaneously achieve superior angle estimation performance as well as high-quality multi-user communications.
Cite
@article{arxiv.2501.07270,
title = {Dual-Function Beamforming Design For Multi-Target Localization and Reliable Communications},
author = {Bo Tang and Da Li and Wenjun Wu and Astha Saini and Prabhu Babu and Petre Stoica},
journal= {arXiv preprint arXiv:2501.07270},
year = {2025}
}
Comments
31 pages, 14 figures