Research reports

Sparse deterministic approximation of Bayesian inverse problems

by Ch. Schwab and A. M. Stuart

(Report number 2011-16)

Abstract
We present a parametric deterministic formulation of Bayesian inverse problems with input parameter from infinite dimensional, separable Banach spaces. In this formulation, the forward problems are parametric, deterministic elliptic partial differential equations, and the inverse problem is to determine the unknown, parametric deterministic coefficients from noisy observations comprising linear functionals of the solution. We prove a generalized polynomial chaos representation of the posterior density with respect to the prior measure, given noisy observational data. We analyze the sparsity of the posterior density in terms of the summability of the input data's coefficient sequence. To this end, we estimate the fluctuations in the prior. We exhibit sufficient conditions on the prior model in order for approximations of the posterior density to converge at a given algebraic rate, in terms of the number $N$ of unknowns appearing in the parameteric representation of the prior measure. Similar sparsity and approximation results are also exhibited for the solution and covariance of the elliptic partial differential equation under the posterior. These results then form the basis for efficient uncertainty quantification, in the presence of data with noise.

Keywords:

BibTeX
@Techreport{SS11_100,
  author = {Ch. Schwab and A. M. Stuart},
  title = {Sparse deterministic approximation of Bayesian inverse problems },
  institution = {Seminar for Applied Mathematics, ETH Z{\"u}rich},
  number = {2011-16},
  address = {Switzerland},
  url = {https://www.sam.math.ethz.ch/sam_reports/reports_final/reports2011/2011-16.pdf },
  year = {2011}
}

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