2016 / March Volume 11 No.1
A Model Reduction Method for Elliptic PDEs with Random Input Using the Heterogeneous Stochastic FEM Framework
Published Date |
2016 / March
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Title | A Model Reduction Method for Elliptic PDEs with Random Input Using the Heterogeneous Stochastic FEM Framework |
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Pagination | 179-216 |
Abstract | We introduce a model reduction method for elliptic PDEs with random input, which
follows the heterogeneous stochastic finite element method framework and exploits the
compactness of the solution operator in the stochastic direction on local regions of the
spatial domain. This method consists of two stages and suits the multi-query setting. In
the offline stage, we adaptively construct local stochastic basis functions that can capture the stochastic structure of the solution space in local regions of the domain. This is achieved through local Hilbert-Karhunen-Loève expansions of sampled stochastic solutions with randomly chosen forcing functions. In the online stage, for given forcing functions, we discretize the equation using the heterogeneous coupling of spatial basis with the constructed local stochastic basis, and obtain the numerical solutions through Galerkin projection. Convergence of the online numerical solutions is proved based on the thresholding in the offline stage. Numerical results are presented to demonstrate the effectiveness of this model reduction method.
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AMS Subject Classification |
65N30.
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Received |
2015-09-16
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Accepted |
2015-09-16
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