Hiptmair, R. and Scarabosio, L. and Schillings, Claudia and Schwab, Ch.
(2018)
*Large deformation shape uncertainty quantification in acoustic scattering.*
Advances in Computational Mathematics, 44
.
pp. 1475-1518.

Full text not available from this repository.

Official URL: https://doi.org/10.1007/s10444-018-9594-8

## Abstract

We address shape uncertainty quantification for the two-dimensional Helmholtz transmission problem, where the shape of the scatterer is the only source of uncertainty. In the framework of the so-called deterministic approach, we provide a high-dimensional parametrization for the interface. Each domain configuration is mapped to a nominal configuration, obtaining a problem on a fixed domain with stochastic coefficients. To compute surrogate models and statistics of quantities of interest, we apply an adaptive, anisotropic Smolyak algorithm, which allows to attain high convergence rates that are independent of the number of dimensions activated in the parameter space. We also develop a regularity theory with respect to the spatial variable, with norm bounds that are independent of the parametric dimension. The techniques and theory presented in this paper can be easily generalized to any elliptic problem on a stochastic domain.

Item Type: | Article |
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Subjects: | Mathematical and Computer Sciences > Mathematics > Applied Mathematics |

Divisions: | Department of Mathematics and Computer Science > Institute of Mathematics > Deterministic and Stochastic PDEs Group |

ID Code: | 2992 |

Deposited By: | Ulrike Eickers |

Deposited On: | 05 Jun 2023 12:20 |

Last Modified: | 05 Jun 2023 12:20 |

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