Abstract
We present a technique for the rapid and reliable prediction of linear-functional outputs of elliptic (and parabolic) partial differential equations with affine parameter dependence. The essential components are (i) (provably) rapidly convergent global reduced-basis approximations—Galerkin projection onto a space WN spanned by solutions of the governing partial differential equation at N selected points in parameter space; (ii) a posteriori error estimation—relaxations of the error-residual equation that provide inexpensive yet sharp and rigorous bounds for the error in the outputs of interest; and (iii) off-line/on-line computational procedures methods which decouple the generation and projection stages of the approximation process. The operation count for the on-line stage in which, given a new parameter value, we calculate the output of interest and associated error bound, depends only on N (typically very small) and the parametric complexity of the problem; the method is thus ideally suited for the repeated and rapid evaluations required in the context of parameter estimation, design, optimization, and real-time control.
Highlights
The optimization, control, and characterization of an engineering component or system requires the prediction of certain ‘‘quantities of interest,’’ or performance metrics, which we shall denote outputs—for example deflections, maximum stresses, maximum temperatures, heat transfer rates, flowrates, or lift and drags
We present a technique for the rapid and reliable prediction of linear-functional outputs of elliptic partial differential equations with affine parameter dependence
These outputs are typically expressed as functionals of field variables associated with a parametrized partial differential equation which describes the physical behavior of the component or system
Summary
Christophe Prud’Homme, Dimitrios Rovas, Karen Veroy, Luc Machiels, Yvon Maday, Anthony T. To cite this version: Christophe Prud’Homme, Dimitrios Rovas, Karen Veroy, Luc Machiels, Yvon Maday, et al. Reliable Real-Time Solution of Parametrized Partial Differential Equations: Reduced-Basis Output Bound Methods. The documents may come from teaching and research institutions in France or abroad, or from public or private research centers. L’archive ouverte pluridisciplinaire HAL, est destinée au dépôt et à la diffusion de documents scientifiques de niveau recherche, publiés ou non, émanant des établissements d’enseignement et de recherche français ou étrangers, des laboratoires publics ou privés. Reliable Real-Time Solution of Parametrized Partial Differential Equations: Reduced-Basis Output Bound Methods. Laboratoire d’Analyse Numérique, Université Pierre et Marie Curie, Boîte courrier 187, 75252 Paris, Cedex 05, France
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