Multilevel Markov chain Monte Carlo for Bayesian inverse problem for Navier-Stokes equation
Bayesian inverse problems for inferring the unknown forcing and initial condition of Navier-Stokes equation play important roles in many practi-cal areas. The computation cost of sampling the posterior probability measure can be exceedingly high. We develop the Finite Element Multilevel Markov Chain...
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sg-ntu-dr.10356-1688762023-06-21T02:09:32Z Multilevel Markov chain Monte Carlo for Bayesian inverse problem for Navier-Stokes equation Yang, Juntao Hoang, Viet Ha School of Physical and Mathematical Sciences Science::Mathematics Finite Element Approximation Random Forcing Bayesian inverse problems for inferring the unknown forcing and initial condition of Navier-Stokes equation play important roles in many practi-cal areas. The computation cost of sampling the posterior probability measure can be exceedingly high. We develop the Finite Element Multilevel Markov Chain Monte Carlo (FE-MLMCMC) sampling method for approximating ex-pectation with respect to the posterior probability measure of quantities of interest for a model problem of Navier-Stokes equation in the two dimensional periodic torus. We first consider the case where the forcing and the initial condition are bounded for all the realizations and depend linearly on a countable set of random variables which are uniformly distributed in a compact interval. We establish the essentially optimal convergence rate of the method and verify it numerically. The method follows from that developed in V. H. Hoang, Ch. Schwab and A. M. Stuart, Inverse problems, vol. 29, 2013 for inferring the coefficients of linear elliptic forward equations under the uniform prior probability measure. In the case of the Gaussian prior probability measure, numerical re-sults, using the MLMCMC method developed for the Gaussian prior in V. H. Hoang, J. H. Quek and Ch. Schwab, Inverse problems, vol. 36, 2020, indicate the essentially optimal convergence rates. However, a rigorous theory for the MLMCMC sampling procedure is not available, due to the non-integrability with respect to the Gaussian prior of the theoretical finite element errors of the forward solvers that are available in the literature. 2023-06-21T02:09:32Z 2023-06-21T02:09:32Z 2023 Journal Article Yang, J. & Hoang, V. H. (2023). Multilevel Markov chain Monte Carlo for Bayesian inverse problem for Navier-Stokes equation. Inverse Problems and Imaging, 17(1), 106-135. https://dx.doi.org/10.3934/ipi.2022033 1930-8337 https://hdl.handle.net/10356/168876 10.3934/ipi.2022033 2-s2.0-85144334283 1 17 106 135 en Inverse Problems and Imaging © 2023 American Institute of Mathematical Sciences. All rights reserved. |
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Science::Mathematics Finite Element Approximation Random Forcing Yang, Juntao Hoang, Viet Ha Multilevel Markov chain Monte Carlo for Bayesian inverse problem for Navier-Stokes equation |
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Bayesian inverse problems for inferring the unknown forcing and initial condition of Navier-Stokes equation play important roles in many practi-cal areas. The computation cost of sampling the posterior probability measure can be exceedingly high. We develop the Finite Element Multilevel Markov Chain Monte Carlo (FE-MLMCMC) sampling method for approximating ex-pectation with respect to the posterior probability measure of quantities of interest for a model problem of Navier-Stokes equation in the two dimensional periodic torus. We first consider the case where the forcing and the initial condition are bounded for all the realizations and depend linearly on a countable set of random variables which are uniformly distributed in a compact interval. We establish the essentially optimal convergence rate of the method and verify it numerically. The method follows from that developed in V. H. Hoang, Ch. Schwab and A. M. Stuart, Inverse problems, vol. 29, 2013 for inferring the coefficients of linear elliptic forward equations under the uniform prior probability measure. In the case of the Gaussian prior probability measure, numerical re-sults, using the MLMCMC method developed for the Gaussian prior in V. H. Hoang, J. H. Quek and Ch. Schwab, Inverse problems, vol. 36, 2020, indicate the essentially optimal convergence rates. However, a rigorous theory for the MLMCMC sampling procedure is not available, due to the non-integrability with respect to the Gaussian prior of the theoretical finite element errors of the forward solvers that are available in the literature. |
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School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Yang, Juntao Hoang, Viet Ha |
| format |
Article |
| author |
Yang, Juntao Hoang, Viet Ha |
| author_sort |
Yang, Juntao |
| title |
Multilevel Markov chain Monte Carlo for Bayesian inverse problem for Navier-Stokes equation |
| title_short |
Multilevel Markov chain Monte Carlo for Bayesian inverse problem for Navier-Stokes equation |
| title_full |
Multilevel Markov chain Monte Carlo for Bayesian inverse problem for Navier-Stokes equation |
| title_fullStr |
Multilevel Markov chain Monte Carlo for Bayesian inverse problem for Navier-Stokes equation |
| title_full_unstemmed |
Multilevel Markov chain Monte Carlo for Bayesian inverse problem for Navier-Stokes equation |
| title_sort |
multilevel markov chain monte carlo for bayesian inverse problem for navier-stokes equation |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/168876 |
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1772827715873800192 |