English

Quantum-inspired Beamforming Optimization for Quantized Phase-only Massive MIMO Arrays

Applied Physics 2025-05-29 v3

Abstract

This paper introduces an innovative quantum-inspired method for beamforming (BF) optimization in multiple-input multiple-output (MIMO) arrays. The method leverages the simulated bifurcation (SB) algorithm to address the complex combinatorial optimization problem due to the quantized phase configuration. We propose novel encoding techniques for high-bit phase quantization, which are then mapped into Ising spins. This enables efficient construction of the Hamiltonians and subsequent optimization of BF patterns. The results clearly demonstrate that the SB optimizer surpasses traditional schemes such as digital BF, holographic algorithms and genetic algorithms, offering faster convergence and higher solution quality. The impressive capability of the SB optimizer to handle complex BF scenarios, including sidelobe suppression and multiple beams with nulls, is undoubtedly demonstrated through several application cases. These findings strongly suggest that quantum-inspired methods have great potential to advance MIMO techniques in next-generation wireless communication.

Keywords

Cite

@article{arxiv.2409.19938,
  title  = {Quantum-inspired Beamforming Optimization for Quantized Phase-only Massive MIMO Arrays},
  author = {Yutong Jiang and Hangyu Ge and Bi-Ying Wang and Shuai S. A. Yuan and Shi-Jie Pan and Hongjing Xu and Xiaopeng Cui and Man-Hong Yung and Feng Liu and Wei E. I. Sha},
  journal= {arXiv preprint arXiv:2409.19938},
  year   = {2025}
}
R2 v1 2026-06-28T19:01:39.585Z