English

A k-space approach to modeling multi-channel parametric array loudspeaker systems

Audio and Speech Processing 2025-07-31 v1 Sound

Abstract

Multi-channel parametric array loudspeaker (MCPAL) systems offer enhanced flexibility and promise for generating highly directional audio beams in real-world applications. However, efficient and accurate prediction of their generated sound fields remains a major challenge due to the complex nonlinear behavior and multi-channel signal processing involved. To overcome this obstacle, we propose a k-space approach for modeling arbitrary MCPAL systems arranged on a baffled planar surface. In our method, the linear ultrasound field is first solved using the angular spectrum approach, and the quasilinear audio sound field is subsequently computed efficiently in k-space. By leveraging three-dimensional fast Fourier transforms, our approach not only achieves high computational and memory efficiency but also maintains accuracy without relying on the paraxial approximation. For typical configurations studied, the proposed method demonstrates a speed-up of more than four orders of magnitude compared to the direct integration method. Our proposed approach paved the way for simulating and designing advanced MCPAL systems.

Keywords

Cite

@article{arxiv.2507.22628,
  title  = {A k-space approach to modeling multi-channel parametric array loudspeaker systems},
  author = {Tao Zhuang and Longbiao He and Feng Niu and Jia-Xin Zhong and Jing Lu},
  journal= {arXiv preprint arXiv:2507.22628},
  year   = {2025}
}
R2 v1 2026-07-01T04:25:57.069Z