International audienceWe present an application of the discrete duality finite volume method to the numerical approximation of the 2D Stokes or (unsteady) Navier–Stokes equations associated to Dirichlet boundary conditions. The finite volume method is based on the use of discrete differential operators obeying some discrete duality principles. The scheme may be seen as an extension of the classical MAC scheme to almost arbitrary meshes, thanks to an appropriate choice of degrees of freedom. Different numerical examples over triangular, cartesian, quadrangular and locally refined meshes are led in order to illustrate the possibilities and weaknesses of the method
International audience''Discrete Duality Finite Volume'' schemes (DDFV for short) on general 2D mesh...
International audienceWe derive an a posteriori error estimation for the discrete duality finite vol...
International audienceWe propose and analyze non-overlapping Schwarz algorithms for the domain decom...
International audienceWe present an application of the discrete duality finite volume method to the ...
International audienceWe present an application of the discrete duality finite volume method to the ...
Abstract. Discrete Duality Finite Volume (DDFV) schemes have recently been developed in 2D to approx...
International audienceWe focus on the Discrete Duality Finite Volume (DDFV) method whose particular-...
The aim of this work is to analyze " Discrete Duality Finite Volume " schemes (DDFV for short) on ge...
International audienceWe develop a Discrete Duality Finite Volume (\DDFV{}) method for the three-dim...
International audienceWe propose a Discrete Duality Finite Volume scheme (DDFV for short) for the un...
Abstract. Discrete duality nite volume schemes on general meshes, introduced by Hermeline in [22] an...
Abstract. We derive an a posteriori error estimation for the discrete duality finite volume (DDFV) d...
Abstract. “Discrete Duality Finite Volume ” schemes (DDFV for short) on general 2D meshes, in partic...
This manuscript deals with the development and numerical analysis of finite volume schemes of type d...
Abstract. This work is intended to provide a convenient tool for the mathematical analysis of a part...
International audience''Discrete Duality Finite Volume'' schemes (DDFV for short) on general 2D mesh...
International audienceWe derive an a posteriori error estimation for the discrete duality finite vol...
International audienceWe propose and analyze non-overlapping Schwarz algorithms for the domain decom...
International audienceWe present an application of the discrete duality finite volume method to the ...
International audienceWe present an application of the discrete duality finite volume method to the ...
Abstract. Discrete Duality Finite Volume (DDFV) schemes have recently been developed in 2D to approx...
International audienceWe focus on the Discrete Duality Finite Volume (DDFV) method whose particular-...
The aim of this work is to analyze " Discrete Duality Finite Volume " schemes (DDFV for short) on ge...
International audienceWe develop a Discrete Duality Finite Volume (\DDFV{}) method for the three-dim...
International audienceWe propose a Discrete Duality Finite Volume scheme (DDFV for short) for the un...
Abstract. Discrete duality nite volume schemes on general meshes, introduced by Hermeline in [22] an...
Abstract. We derive an a posteriori error estimation for the discrete duality finite volume (DDFV) d...
Abstract. “Discrete Duality Finite Volume ” schemes (DDFV for short) on general 2D meshes, in partic...
This manuscript deals with the development and numerical analysis of finite volume schemes of type d...
Abstract. This work is intended to provide a convenient tool for the mathematical analysis of a part...
International audience''Discrete Duality Finite Volume'' schemes (DDFV for short) on general 2D mesh...
International audienceWe derive an a posteriori error estimation for the discrete duality finite vol...
International audienceWe propose and analyze non-overlapping Schwarz algorithms for the domain decom...