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A spherical wave expansion for a steerable parametric array loudspeaker using Zernike polynomials.

Jiaxin Zhong1, Ray Kirby1, Mahmoud Karimi1

  • 1Centre for Audio, Acoustics and Vibration, University of Technology Sydney, New South Wales 2007, Australia.

The Journal of the Acoustical Society of America
|November 1, 2022
PubMed
Summary
This summary is machine-generated.

A new method models steerable parametric array loudspeakers (PALs) efficiently for accurate audio beam prediction. This Zernike polynomial expansion works in near and far fields, overcoming limitations of current models.

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Area of Science:

  • Acoustics
  • Signal Processing
  • Computational Physics

Background:

  • Steerable parametric array loudspeakers (PALs) offer directional audio control.
  • Accurate modeling of PALs in both near and far fields with low computational cost is challenging.
  • Existing models often lack accuracy in near-field predictions or rely on paraxial approximations.

Purpose of the Study:

  • To develop a computationally efficient and accurate model for steerable PALs.
  • To extend spherical wave expansion for modeling audio sound pressure.
  • To validate the model's performance for single and dual beam steering.

Main Methods:

  • Proposed an extension of spherical wave expansion using Zernike polynomials to represent the velocity profile on the radiation surface.
  • Derived an expression for radiated audio sound via superposition of Zernike modes.
  • Incorporated algebraic correction to the Westervelt equation for local effects, avoiding paraxial approximations.

Main Results:

  • The Zernike expansion model accurately predicts audio sound pressure in both near and far fields for single beams.
  • Demonstrated computational efficiency compared to existing methods.
  • Revealed limitations of far-field models by showing dual beams are not well-separated in the near field with the proposed method.

Conclusions:

  • The proposed Zernike polynomial expansion provides a computationally efficient and rigorous method for modeling steerable PALs.
  • The model accurately predicts single-beam steering in near and far fields.
  • The study highlights the inability of existing far-field models to predict near-field dual-beam separation issues.