Metadata only
Datum
2008Typ
- Report
ETH Bibliographie
yes
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Abstract
We describe the analysis and the implementation of two Finite Element (FE) algorithms for the deterministic numerical solution of elliptic boundary value problems with stochastic
coefficients. They are based on separation of deterministic and stochastic parts of the input data by a Karhunen-Lo`eve expansion, truncated after M terms. With a change of measure we convert
the problem to a sequence of M-dimensional, parametric deterministic problems. Two sparse, high order polynomial approximations of the random solution’s joint pdf’s, parametrized in the input
data’s Karhunen-Lo`eve expansion coordinates, are analyzed: a sparse stochastic Galerkin FEM (sparse sGFEM) and a sparse stochastic Collocation FEM (sparse sCFEM). A-priori and a-posteriori
error analysis is used to tailor the sparse polynomial approximations of the random solution’s joint pdf’s to the stochastic regularity of the input data. sCFEM and sGFEM yield deterministic
approximations of the random solutions joint pdf’s that converge spectrally in the number of deterministic problems to be solved. Numerical examples with random inputs of small correlation
length in diffusion problems are presented. High order gPC approximations of solutions with stochastic parameter spaces of dimension up to M = 80 are computed on workstations. Mehr anzeigen
Publikationsstatus
publishedZeitschrift / Serie
Research ReportBand
(22)Verlag
Seminar für Angewandte Mathematik, ETHOrganisationseinheit
03435 - Schwab, Christoph / Schwab, Christoph
03217 - Künsch, Hans Rudolf
Anmerkungen
Shorted version published: Computer Methods in Applied Mechanics and Engineering, Volume 198, Issues 13-14, March 2009, Pages 1149-1170, NEBIS Systemnr. 000045255, DOI:
10.1016/j.cma.2008.08.019.ETH Bibliographie
yes
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