English

A Sparse Stochastic Collocation Technique for High-Frequency Wave Propagation with Uncertainty

Numerical Analysis 2015-09-11 v2

Abstract

We consider the wave equation with highly oscillatory initial data, where there is uncertainty in the wave speed, initial phase and/or initial amplitude. To estimate quantities of interest related to the solution and their statistics, we combine a high-frequency method based on Gaussian beams with sparse stochastic collocation. Although the wave solution, uεu^\varepsilon, is highly oscillatory in both physical and stochastic spaces, we provide theoretical arguments and numerical evidence that quantities of interest based on local averages of uε2|u^\varepsilon|^2 are smooth, with derivatives in the stochastic space uniformly bounded in ε\varepsilon, where ε\varepsilon denotes the short wavelength. This observable related regularity makes the sparse stochastic collocation approach more efficient than Monte Carlo methods. We present numerical tests that demonstrate this advantage.

Keywords

Cite

@article{arxiv.1507.05508,
  title  = {A Sparse Stochastic Collocation Technique for High-Frequency Wave Propagation with Uncertainty},
  author = {Gabriela Malenova and Mohammad Motamed and Olof Runborg and Raul Tempone},
  journal= {arXiv preprint arXiv:1507.05508},
  year   = {2015}
}
R2 v1 2026-06-22T10:15:03.468Z