Add to ORKGWe present a nonlinear technique to correct a general Finite Volume scheme for anisotropic diffusion problems, which provides a discrete maximum principle. We point out general properties satisfied by many Finite Volume schemes and prove the proposed corrections also preserve these properties. We then study two specific corrections proving, under numerical assumptions, that the corresponding solutions converge to the continuous one as the size of the mesh tends to 0. Finally we present numerical results showing these corrections suppress local minima produced by the initial Finite Volume scheme
In this paper, we apply a special finite-volume scheme, limited to smooth temperature distributions ...
International audienceThis work addresses the development and analysis of a second-order accurate fi...
We present an abstract discretization framework and demonstrate that various cell-centered and hybri...
We present a nonlinear technique to correct a general Finite Volume scheme for anisotropic diffusion...
International audienceWe introduce a new finite volume method for highly anisotropic diffusion opera...
A new finite volume for the discretization of anisotropic diffusion problems on general unstructured...
We present a new scheme for the discretization of heterogeneous anisotropic diffusion problems on ge...
We present a new scheme for the discretization of heterogeneous anisotropic diffusion problems on ge...
We propose a new second-order finite volume scheme for non-homogeneous and anisotropic diffusion pro...
Abstract. A new finite volume for the discretization of anisotropic diffusion problems on general un...
International audienceWe present a new scheme for the discretization of heterogeneous anisotropic di...
International audienceWe introduce a new finite volume method for highly anisotropic diffusion opera...
International audienceWe present here a number of test cases and meshes which were designed to form ...
International audienceIn the present work, we deal with the convergence of cell-centered nonlinear f...
International audienceFinite volume methods for problems involving second order operators with full ...
In this paper, we apply a special finite-volume scheme, limited to smooth temperature distributions ...
International audienceThis work addresses the development and analysis of a second-order accurate fi...
We present an abstract discretization framework and demonstrate that various cell-centered and hybri...
We present a nonlinear technique to correct a general Finite Volume scheme for anisotropic diffusion...
International audienceWe introduce a new finite volume method for highly anisotropic diffusion opera...
A new finite volume for the discretization of anisotropic diffusion problems on general unstructured...
We present a new scheme for the discretization of heterogeneous anisotropic diffusion problems on ge...
We present a new scheme for the discretization of heterogeneous anisotropic diffusion problems on ge...
We propose a new second-order finite volume scheme for non-homogeneous and anisotropic diffusion pro...
Abstract. A new finite volume for the discretization of anisotropic diffusion problems on general un...
International audienceWe present a new scheme for the discretization of heterogeneous anisotropic di...
International audienceWe introduce a new finite volume method for highly anisotropic diffusion opera...
International audienceWe present here a number of test cases and meshes which were designed to form ...
International audienceIn the present work, we deal with the convergence of cell-centered nonlinear f...
International audienceFinite volume methods for problems involving second order operators with full ...
In this paper, we apply a special finite-volume scheme, limited to smooth temperature distributions ...
International audienceThis work addresses the development and analysis of a second-order accurate fi...
We present an abstract discretization framework and demonstrate that various cell-centered and hybri...