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2022 | OriginalPaper | Chapter

On the Selection of Random Field Evaluation Points in the p-MLQMC Method

Authors : Philippe Blondeel, Pieterjan Robbe, Stijn François, Geert Lombaert, Stefan Vandewalle

Published in: Monte Carlo and Quasi-Monte Carlo Methods

Publisher: Springer International Publishing

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Abstract

Engineering problems are often characterized by significant uncertainty in their material parameters. A typical example coming from geotechnical engineering is the slope stability problem where the soil’s cohesion is modeled as a random field. An efficient manner to account for this uncertainty is the novel sampling method called p-refined Multilevel Quasi-Monte Carlo (p-MLQMC). The p-MLQMC method uses a hierarchy of p-refined finite element meshes combined with a deterministic Quasi-Monte Carlo sampling rule. This combination yields a significant computational cost reduction with respect to classic Multilevel Monte Carlo. However, in previous work, not enough consideration was given to how to incorporate the uncertainty, modeled as a random field, in the finite element model with the p-MLQMC method. In the present work we investigate how this can be adequately achieved by means of the integration point method. We therefore investigate how the evaluation points of the random field are to be selected in order to obtain a variance reduction over the levels. We consider three different approaches. These approaches will be benchmarked on a slope stability problem in terms of computational runtime. We find that for a given tolerance the local nested approach yields a speedup up to a factor five with respect to the non-nested approach.

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previous chapter A fresh Take on ‘Barker Dynamics’ for MCMC

next chapter Scalable Control Variates for Monte Carlo Methods Via Stochastic Optimization

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Title: On the Selection of Random Field Evaluation Points in the p-MLQMC Method
Authors: Philippe Blondeel
Pieterjan Robbe
Stijn François
Geert Lombaert
Stefan Vandewalle
Publisher: Springer International Publishing
Book: Monte Carlo and Quasi-Monte Carlo Methods
Print ISBN: 978-3-030-98318-5

Electronic ISBN: 978-3-030-98319-2

Copyright Year: 2022
DOI: https://doi.org/10.1007/978-3-030-98319-2_9

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