Transport Map sampling with PGD model reduction for fast dynamical Bayesian data assimilation |
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Authors: | Paul-Baptiste Rubio François Louf Ludovic Chamoin |
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Affiliation: | LMT, ENS Paris-Saclay, Cachan, France |
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Abstract: | The motivation of this work is to address real-time sequential inference of parameters with a full Bayesian formulation. First, the proper generalized decomposition (PGD) is used to reduce the computational evaluation of the posterior density in the online phase. Second, Transport Map sampling is used to build a deterministic coupling between a reference measure and the posterior measure. The determination of the transport maps involves the solution of a minimization problem. As the PGD model is quasi-analytical and under a variable separation form, the use of gradient and Hessian information speeds up the minimization algorithm. Eventually, uncertainty quantification on outputs of interest of the model can be easily performed due to the global feature of the PGD solution over all coordinate domains. Numerical examples highlight the performance of the method. |
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Keywords: | Bayesian inference data assimilation proper generalized decomposition Transport Map sampling uncertainty quantification real-time simulation |
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