Analysis and computation of the elastic wave equation with random coefficients

by M. Motamed, F. Nobile, R. Tempone
Manuscripts Year: 2015

Bibliography

M. Motamed, F. Nobile, R. Tempone, Analysis and computation of the elastic wave equation with random coefficients, Computers and Mathematics with Applications, Vol. 70, Issue 10, pp. 2454–2473, November 2015.​​​

Abstract

We analyze the stochastic initial-boundary value problem for the elastic wave equation with random coefficients and deterministic data. We propose a stochastic collocation method for computing statistical moments of the solution or statistics of some given quantities of interest. We study the convergence rate of the error in the stochastic collocation method. In particular, we show that, the rate of convergence depends on the regularity of the solution or the quantity of interest in the stochastic space, which is in turn related to the regularity of the deterministic
data in the physical space and the type of the quantity of interest. We demonstrate that a fast rate of convergence is possible in two cases: for the elastic wave solutions with high regular data; and for some high regular quantities of interest even in the presence of low regular data. We perform numerical examples, including a simplified earthquake, which confirm the analysis and show that the collocation method is a valid alternative to the more traditionalMonte Carlo sampling method for problems with high stochastic regularity.

ISSN:

November 2015

Keywords

Uncertainty Quantification stochastic partial differential equations elastic wave equation regularity collocation method error analysis