Non-uniform time-stepping in k-space pseudospectral time domain models of acoustic propagation

TL;DR

This paper extends k-space correction methods in pseudo-spectral time domain acoustic models to support non-uniform time stepping, enabling improved accuracy and efficiency in heterogeneous domain simulations like breast ultrasound tomography.

Contribution

It introduces a novel extension of k-space correction for non-uniform time steps in pseudo-spectral models, enhancing simulation flexibility and performance.

Findings

Extended k-space correction to non-uniform time stepping.

Demonstrated improved accuracy in heterogeneous acoustic simulations.

Potential for reduced computational cost in complex domains.

Abstract

Non-uniform time stepping in acoustic propagation models can be used to preserve accuracy or reduce computational cost for an acoustic simulation with a wave front propagating through a domain with both heterogeneous and homogenous regions, such as for a simulation of breast ultrasound tomography. The k-space correction already exist within the literature to remove numerical dispersion caused by the time stepping procedure in pseudo-spectral time domain models, but requires a uniform time step. Here we expand this correction to be able to account for a non-uniform time stepping method and illustrate the potential advantages and considerations. A version of this Article has been submitted for review to the Journal of Theoretical and Computational Acoustics.