Efficient adaptive stochastic Galerkin methods for parametric operator equations

Alex Bespalov; David Silvester

doi:10.1137/15M1027048

Efficient adaptive stochastic Galerkin methods for parametric operator equations

Alex Bespalov, David Silvester

Mathematics

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15 Citations (Scopus)

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Abstract

This paper is concerned with the design and implementation of efficient solution algorithms for elliptic PDE problems with correlated random data. The energy orthogonality that is built into stochastic Galerkin approximations is cleverly exploited to give an innovative energy error estimation strategy that utilizes the tensor product structure of the approximation space. An associated error estimator is constructed and shown theoretically and numerically to be an effective mechanism for driving an adaptive refinement process. The codes used in the numerical studies are available online.

Original language	English
Pages (from-to)	A2118–A2140
Number of pages	23
Journal	SIAM Journal on Scientific Computing
Volume	38
Issue number	4
DOIs	https://doi.org/10.1137/15M1027048
Publication status	Published - 7 Jul 2016

Keywords

stochastic Galerkin methods
stochastic finite elements
PDEs with random data
error estimation
a posteriori error analysis
adaptive methods
parametric operator equations

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BespalovA2016Efficient
© Society for Industrial and Applied Mathematics.
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abstract = "This paper is concerned with the design and implementation of efficient solution algorithms for elliptic PDE problems with correlated random data. The energy orthogonality that is built into stochastic Galerkin approximations is cleverly exploited to give an innovative energy error estimation strategy that utilizes the tensor product structure of the approximation space. An associated error estimator is constructed and shown theoretically and numerically to be an effective mechanism for driving an adaptive refinement process. The codes used in the numerical studies are available online.",

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AB - This paper is concerned with the design and implementation of efficient solution algorithms for elliptic PDE problems with correlated random data. The energy orthogonality that is built into stochastic Galerkin approximations is cleverly exploited to give an innovative energy error estimation strategy that utilizes the tensor product structure of the approximation space. An associated error estimator is constructed and shown theoretically and numerically to be an effective mechanism for driving an adaptive refinement process. The codes used in the numerical studies are available online.

KW - stochastic Galerkin methods

KW - stochastic finite elements

KW - PDEs with random data

KW - error estimation

KW - a posteriori error analysis

KW - adaptive methods

KW - parametric operator equations

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DO - 10.1137/15M1027048

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SP - A2118–A2140

JO - SIAM Journal on Scientific Computing

JF - SIAM Journal on Scientific Computing

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ER -

Efficient adaptive stochastic Galerkin methods for parametric operator equations

Abstract

Keywords

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