%0 Journal Article %1 citeulike:9827495 %A Huynh, D. B. P. %A Knezevic, D. J. %A Patera, A. T. %D 2012 %J Computer Methods in Applied Mechanics and Engineering %K 93b11-system-structure-simplification 65n30-pdes-bvps-finite-elements 65n99-pdes-bvps-none-of-the-above 34c20-odes-transformation-and-reduction %P 13--24 %R 10.1016/j.cma.2011.09.011 %T Certified reduced basis model validation: A frequentistic uncertainty framework %U http://dx.doi.org/10.1016/j.cma.2011.09.011 %V 201-204 %X We introduce a frequentistic validation framework for assessment — acceptance or rejection — of the consistency of a proposed parametrized partial differential equation model with respect to (noisy) experimental data from a physical system. Our method builds upon the Hotelling T2 statistical hypothesis test for bias first introduced by Balci & Sargent in 1984 and subsequently extended by McFarland & Mahadevan 2008. Our approach introduces two new elements: a spectral representation of the misfit which reduces the dimensionality and variance of the underlying multivariate Gaussian but without introduction of the usual regression assumptions; a certified (verified) reduced basis approximation — reduced order model — which greatly accelerates computational performance but without any loss of rigor relative to the full (finite element) discretization. We illustrate our approach with examples from heat transfer and acoustics, both based on synthetic data. We demonstrate that we can efficiently identify possibility regions that characterize parameter uncertainty; furthermore, in the case that the possibility region is empty, we can deduce the presence of ” unmodeled physics” such as cracks or heterogeneities.

@article{citeulike:9827495, abstract = {{We introduce a frequentistic validation framework for assessment — acceptance or rejection — of the consistency of a proposed parametrized partial differential equation model with respect to (noisy) experimental data from a physical system. Our method builds upon the Hotelling T2 statistical hypothesis test for bias first introduced by Balci \& Sargent in 1984 and subsequently extended by McFarland \& Mahadevan 2008. Our approach introduces two new elements: a spectral representation of the misfit which reduces the dimensionality and variance of the underlying multivariate Gaussian but without introduction of the usual regression assumptions; a certified (verified) reduced basis approximation — reduced order model — which greatly accelerates computational performance but without any loss of rigor relative to the full (finite element) discretization. We illustrate our approach with examples from heat transfer and acoustics, both based on synthetic data. We demonstrate that we can efficiently identify possibility regions that characterize parameter uncertainty; furthermore, in the case that the possibility region is empty, we can deduce the presence of ” unmodeled physics” such as cracks or heterogeneities.}}, added-at = {2017-06-29T07:13:07.000+0200}, author = {Huynh, D. B. P. and Knezevic, D. J. and Patera, A. T.}, biburl = {https://www.bibsonomy.org/bibtex/2e94d604f27e46c45f44f6a58b8a6b690/gdmcbain}, citeulike-article-id = {9827495}, citeulike-linkout-0 = {http://dx.doi.org/10.1016/j.cma.2011.09.011}, doi = {10.1016/j.cma.2011.09.011}, interhash = {015c437ad34f263e53a6b82c634162fe}, intrahash = {e94d604f27e46c45f44f6a58b8a6b690}, issn = {00457825}, journal = {Computer Methods in Applied Mechanics and Engineering}, keywords = {93b11-system-structure-simplification 65n30-pdes-bvps-finite-elements 65n99-pdes-bvps-none-of-the-above 34c20-odes-transformation-and-reduction}, month = jan, pages = {13--24}, posted-at = {2012-09-20 11:54:22}, priority = {2}, timestamp = {2020-08-06T03:50:40.000+0200}, title = {{Certified reduced basis model validation: A frequentistic uncertainty framework}}, url = {http://dx.doi.org/10.1016/j.cma.2011.09.011}, volume = {201-204}, year = 2012 }