We prove that all Gradient Schemes - which include Finite Element, Mixed Finite Element, Finite Volume methods - converge uniformly in time when applied to a family of nonlinear parabolic equations which contains Richards and Stefan's models. We also provide numerical results to confirm our theoretical analysis
International audienceWe study the behaviour of solutions to a class of nonlinear degenerate parabol...
This paper deals with a weighted average scheme (or θ-scheme) for solving a nonlinear singularly per...
A time discretization method for the saturation-based formulation of Richards’ equation is analysed ...
We prove that all Gradient Schemes – which include Finite Element, Mixed Finite Element, Finite Volu...
Abstract We prove that all Gradient Schemes – which include Finite Element, Mixed Finite Element, Fi...
We prove that all Gradient Schemes - which include Finite Element, some Mixed Finite Element and Fin...
We prove that all Gradient Schemes - which include Finite Element, Mixed Finite Element, Finite Volu...
Gradient schemes is a framework that enables the unified convergence analysis of many numerical meth...
summary:We develop gradient schemes for the approximation of the Perona-Malik equations and nonlinea...
The notion of gradient schemes, designed for linear and nonlinear elliptic and parabolic problems ha...
We consider a numerical scheme for a class of degenerate parabolic equations, including both slow an...
We study an asymptotic preserving scheme for the temporal discretization of a system of parabolic se...
The gradient scheme family, which includes the conforming and mixed finite elements as well as the m...
Part I We derive a model equation for the linearized equation of an invariant curve for a Poincare ...
La notion de schémas gradients, conçue pour les équations elliptiques et paraboliques, linéaires et ...
International audienceWe study the behaviour of solutions to a class of nonlinear degenerate parabol...
This paper deals with a weighted average scheme (or θ-scheme) for solving a nonlinear singularly per...
A time discretization method for the saturation-based formulation of Richards’ equation is analysed ...
We prove that all Gradient Schemes – which include Finite Element, Mixed Finite Element, Finite Volu...
Abstract We prove that all Gradient Schemes – which include Finite Element, Mixed Finite Element, Fi...
We prove that all Gradient Schemes - which include Finite Element, some Mixed Finite Element and Fin...
We prove that all Gradient Schemes - which include Finite Element, Mixed Finite Element, Finite Volu...
Gradient schemes is a framework that enables the unified convergence analysis of many numerical meth...
summary:We develop gradient schemes for the approximation of the Perona-Malik equations and nonlinea...
The notion of gradient schemes, designed for linear and nonlinear elliptic and parabolic problems ha...
We consider a numerical scheme for a class of degenerate parabolic equations, including both slow an...
We study an asymptotic preserving scheme for the temporal discretization of a system of parabolic se...
The gradient scheme family, which includes the conforming and mixed finite elements as well as the m...
Part I We derive a model equation for the linearized equation of an invariant curve for a Poincare ...
La notion de schémas gradients, conçue pour les équations elliptiques et paraboliques, linéaires et ...
International audienceWe study the behaviour of solutions to a class of nonlinear degenerate parabol...
This paper deals with a weighted average scheme (or θ-scheme) for solving a nonlinear singularly per...
A time discretization method for the saturation-based formulation of Richards’ equation is analysed ...