English

Discrete Diffusion for Codebook-Based Beam Candidate Generation

Signal Processing 2026-04-10 v1

Abstract

Millimeter-wave (mmWave) communication enables high data rates through large bandwidths and highly directional beamforming, but its sensitivity to blockage and mobility makes reliable beam alignment a central challenge. Limited-probing beam management is a fundamental problem in codebook-based mmWave systems, where only a small subset of beams can be evaluated simultaneously, and the serving decision is restricted to the probed set. Under mobility and noisy feedback, this leads to a sequential and partially observable decision problem in which performance depends critically on the quality of the proposed beam candidates. In this paper, we consider limited-probing beam management and develop a history-conditioned discrete denoising diffusion probabilistic model for beam candidate generation. The proposed method learns from logged probing histories a conditional distribution over promising beam indices, which is then used to construct probing candidates online. Numerical analysis shows that the proposed approach consistently achieves better signal-to-noise ratio, beam-miss probability, and conditional probe regret under tight probing budgets compared with strong learning-based and discriminative baselines. The gains are especially pronounced in low-probing regimes, where accurate candidate generation is most critical.

Keywords

Cite

@article{arxiv.2604.08197,
  title  = {Discrete Diffusion for Codebook-Based Beam Candidate Generation},
  author = {Amirhossein Azarbahram and Onel L. A. López},
  journal= {arXiv preprint arXiv:2604.08197},
  year   = {2026}
}
R2 v1 2026-07-01T12:01:06.094Z