Christian Gómez scite author profile

The aim of this note is to deduce error estimates for a fully-discrete finite element method approximation of a kind of degenerate mixed parabolic equations. The obtained results consider regularity assumptions about the main variable according to the degenerate character of the problem, given by the term involving the time-derivative, which is represented with a non-invertible linear operator R. We show two different approaches to obtain the error estimates. The first one needs to introduce an extension operator of R and the second one requires to add a new ellipticity property for this operator. These error estimates can be applied to analyze the fully-discrete finite element method approximation of an eddy current model. Résumé.Le but de cette note est de déduire des estimations d'erreur pour une approximation par la méthode des éléments finis entièrement discrets d'un type d'équations paraboliques mixtes dégénérées. Les résultats obtenus considèrent des hypothèses de régularité sur la variable principale selon le caractère dégénéré du problème, donné par le terme impliquant la dérivée temporelle, qui est représentée par un opérateur linéaire non inversible R. Nous présentons deux approches différentes pour obtenir les estimations d'erreur. La première nécessite d'introduire un opérateur d'extension de R et la seconde nécessite d'ajouter une nouvelle propriété d'ellipticité pour cet opérateur. Ces estimations d'erreur peuvent être appliquées pour analyser l'approximation par la méthode des éléments finis entièrement discrets d'un modèle de courants de Foucault.

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Fully-Discrete Finite Element Approximation for a Family of Degenerate Parabolic Problems

Acevedo

Gómez

López-Rodríguez

2022

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The aim of this work is to show an abstract framework to analyze the numerical approximation by using a finite element method in space and a BackwardEuler scheme in time of a family of degenerate parabolic problems. We deduce sufficient conditions to ensure that the fully-discrete problem has a unique solution and to prove quasi-optimal error estimates for the approximation. Finally, we show a degenerate parabolic problem which arises from electromagnetic applications and deduce its well-posedness and convergence by using the developed abstract theory, including numerical tests to illustrate the performance of the method and confirm the theoretical results.

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Christian Gómez

Well-posedness of a family of degenerate parabolic mixed equations

Fully discrete finite element approximation for a family of degenerate parabolic mixed equations

Numerical analysis of a FEM based on a time-primitive of the electric field for solving a nonlinear transient eddy current problem

Finite element error estimates for a mixed degenerate parabolic model

Fully-Discrete Finite Element Approximation for a Family of Degenerate Parabolic Problems

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