Uncertainty quantification for random domains using periodic random variables
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A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä
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en
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45
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Numerische Mathematik, Volume 156, issue 1, pp. 273-317
Abstract
We consider uncertainty quantification for the Poisson problem subject to domain uncertainty. For the stochastic parameterization of the random domain, we use the model recently introduced by Kaarnioja et al. (SIAM J. Numer. Anal., 2020) in which a countably infinite number of independent random variables enter the random field as periodic functions. We develop lattice quasi-Monte Carlo (QMC) cubature rules for computing the expected value of the solution to the Poisson problem subject to domain uncertainty. These QMC rules can be shown to exhibit higher order cubature convergence rates permitted by the periodic setting independently of the stochastic dimension of the problem. In addition, we present a complete error analysis for the problem by taking into account the approximation errors incurred by truncating the input random field to a finite number of terms and discretizing the spatial domain using finite elements. The paper concludes with numerical experiments demonstrating the theoretical error estimates.Description
Funding Information: F. Y. Kuo and I. H. Sloan acknowledge the support from the Australian Research Council (DP210100831). This research includes computations using the computational cluster Katana supported by Research Technology Services at UNSW Sydney []. Publisher Copyright: © 2024, The Author(s).
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Hakula, H, Harbrecht, H, Kaarnioja, V, Kuo, F Y & Sloan, I H 2024, 'Uncertainty quantification for random domains using periodic random variables', Numerische Mathematik, vol. 156, no. 1, pp. 273-317. https://doi.org/10.1007/s00211-023-01392-6