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Efficient Implementation of the Bayesian Inversion by MCMC with Acceleration of Posterior Sampling Using Surrogate Models
- 1.0543700 - ÚGN 2022 RIV CH eng C - Conference Paper (international conference)
Domesová, Simona - Béreš, Michal - Blaheta, Radim
Efficient Implementation of the Bayesian Inversion by MCMC with Acceleration of Posterior Sampling Using Surrogate Models.
Lecture Notes in Civil Engineering. Cham: Springer, 2021 - (Barla, M.; Di Donna, A.; Sterpi, D.), (2021), s. 846-853. ISBN 978-3-030-64513-7. ISSN 2366-2557.
[International Conference of the International Association for Computer Methods and Advances in Geomechanics /16./. Turin (IT), 05.05.2021-08.05.2021]
R&D Projects: GA TA ČR(CZ) TK02010118
EU Projects: European Commission(XE) 847593 - EURAD
Institutional support: RVO:68145535
Keywords : Bayesian inversion * posterior sampling * delayed acceptance Metropolis-Hastings algorithm * surrogate model * inverse problems in hydro-mechanics
OECD category: Applied mathematics
Method of publishing: Limited access
https://link.springer.com/chapter/10.1007%2F978-3-030-64514-4_91
The contribution is motivated by the Bayesian approach to the solution of material identification problems which frequently appear in geo-engineering. We shall consider the cases with associated forward model describing flow in porous media with or without fractures as well as coupled hydro-mechanical processes. When assuming uncertainties in observed data, the use of the Bayesian inversion is natural. In comparison to deterministic methods, which lead only to a point estimate of the identified parameters, the Bayesian approach provides their probability distribution. The implementation of the Bayesian inversion is realized via Markov Chain Monte Carlo methods. The paper aims at the acceleration of the posterior sampling using a surrogate model that provides a polynomial approximation of the full forward model. The sampling procedure is based on the delayed acceptance Metropolis-Hastings (DAMH) algorithm. Therefore, for each proposed sample, the acceptance decision contains a preliminary step, which works only with an approximated posterior distribution constructed using the surrogate model. Furthermore, the approximated posterior distribution is being updated using new snapshots obtained during the sampling process. The posterior distribution updates are realized via updates of the surrogate model. The application of the described approach is shown through several model examples including flow in porous media with fractures and hydro-mechanical coupling.
Permanent Link: http://hdl.handle.net/11104/0320877
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