A Fully Adaptive Multilevel Stochastic Collocation Strategy for Solving Elliptic PDEs with Random Data

Submission Status:in press
  • We propose and analyse a fully adaptive strategy for solving elliptic PDEs with random data in this work. A hierarchical sequence of adaptive mesh refinements for the spatial approximation is combined with adaptive anisotropic sparse Smolyak grids in the stochastic space in such a way as to minimize the computational cost. The novel aspect of our strategy is that the hierarchy of spatial approximations is sample dependent so that the computational effort at each collocation point can be optimised individually. We outline a rigorous analysis for the convergence and computational complexity of the adaptive multilevel algorithm and we provide optimal choices for error tolerances at each level. Two numerical examples demonstrate the reliability of the error control and the significant decrease in the complexity that arises when compared to single level algorithms and multilevel algorithms that employ adaptivity solely in the spatial discretisation or in the collocation procedure.

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Metadaten
Author:Jens Lang, Robert Scheichl, David Silvester
DOI:https://doi.org/doi:10.1016/j.jcp.2020.109692
Document Type:Article
Language:English
Date of Publication (online):2021/02/27
Date of first Publication:2021/02/27
Release Date:2021/02/27
Volume:Journal of Computational Physics
Issue:419
Subprojects:B01
Licence (German):License LogoCreative Commons - CC0 1.0 - Universell - Public Domain Dedication