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Autores principales: Codina, Ramon, Ausas, Roberto Federico, Bazon, Pedro Balbão, Gebhardt, Cristian Guillermo
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2512.20254
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author Codina, Ramon
Ausas, Roberto Federico
Bazon, Pedro Balbão
Gebhardt, Cristian Guillermo
author_facet Codina, Ramon
Ausas, Roberto Federico
Bazon, Pedro Balbão
Gebhardt, Cristian Guillermo
contents We consider the primal and dual forms of the optimality conditions for PDE-contrained optimization problems arising in Data-Driven Computational Mechanics when specialized to the reaction-diffusion context. Starting with the continuous setting, we establish well-posedness of such concomitant formulations. Then, we propose stable and consistent finite element approximations for these underlying primal and dual problems relying on the Variational MultiScale framework. For quasi-uniform finite element partitions, we investigate approximations' general properties and establish well-posedness for two canonical choices of the sub-grid scales, i.e., the Algebraic Sub-Grid Scale and Orthogonal Sub-Grid Scale. Moreover, for continuous finite element functions, we are able to move back and forth between the discrete primal and dual formulations only by changing the design of the stabilization parameters. To conclude, we stress-test the proposed approximations through a series of progressively sophisticated cases, providing both a comparative and qualitative assessment of their numerical performance.
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institution arXiv
publishDate 2025
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spellingShingle A variational multiscale approach to PDE-constrained optimization problems arising in Data-Driven Computational Mechanics
Codina, Ramon
Ausas, Roberto Federico
Bazon, Pedro Balbão
Gebhardt, Cristian Guillermo
Numerical Analysis
We consider the primal and dual forms of the optimality conditions for PDE-contrained optimization problems arising in Data-Driven Computational Mechanics when specialized to the reaction-diffusion context. Starting with the continuous setting, we establish well-posedness of such concomitant formulations. Then, we propose stable and consistent finite element approximations for these underlying primal and dual problems relying on the Variational MultiScale framework. For quasi-uniform finite element partitions, we investigate approximations' general properties and establish well-posedness for two canonical choices of the sub-grid scales, i.e., the Algebraic Sub-Grid Scale and Orthogonal Sub-Grid Scale. Moreover, for continuous finite element functions, we are able to move back and forth between the discrete primal and dual formulations only by changing the design of the stabilization parameters. To conclude, we stress-test the proposed approximations through a series of progressively sophisticated cases, providing both a comparative and qualitative assessment of their numerical performance.
title A variational multiscale approach to PDE-constrained optimization problems arising in Data-Driven Computational Mechanics
topic Numerical Analysis
url https://arxiv.org/abs/2512.20254