Abstract
A method is presented for inferring the presence of an inclusion inside a domain; the proposed approach is suitable to be used in a diagnostic device with low computational power. Specifically, we use the Bayesian framework for the inference of stiff inclusions embedded in a soft matrix, mimicking tumors in soft tissues. We rely on a polynomial chaos (PC) surrogate to accelerate the inference process. The PC surrogate predicts the dependence of the displacements field with the random elastic moduli of the materials, and are computed by means of the stochastic Galerkin (SG) projection method. Moreover, the inclusion's geometry is assumed to be unknown, and this is addressed by using a dictionary consisting of several geometrical models with different configurations. A model selection approach based on the evidence provided by the data (Bayes factors) is used to discriminate among the different geometrical models and select the most suitable one. The idea of using a dictionary of pre-computed geometrical models helps to maintain the computational cost of the inference process very low, as most of the computational burden is carried out off-line for the resolution of the SG problems. Numerical tests are used to validate the methodology, assess its performance, and analyze the robustness to model errors. © 2016 Elsevier Ltd
Original language | English (US) |
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Pages (from-to) | 107-119 |
Number of pages | 13 |
Journal | Probabilistic Engineering Mechanics |
Volume | 46 |
DOIs | |
State | Published - Sep 19 2016 |
Bibliographical note
KAUST Repository Item: Exported on 2020-10-01Acknowledgements: We wish to thank the anonymous reviewers for their valuable comments and suggestions. This work was supported by the US Department of Energy (DOE), Office of Science, Office of Advanced Scientific Computing Research, under Award Number DE-SC0008789. Support from the SRI Center for Uncertainty Quantification in Computational Science and Engineering at King Abdullah University of Science and Technology is also acknowledged.