International audienceWe derive an a posteriori error estimation for the discrete duality finite volume (DDFV) discretization of the stationary Stokes equations on very general twodimensional meshes, when a penalty term is added in the incompressibility equation to stabilize the variational formulation. Two different estimators are provided: one for the error on the velocity and one for the error on the pressure. They both include a contribution related to the error due to the stabilization of the scheme, and a contribution due to the discretization itself. The estimators are globally upper as well as locally lower bounds for the errors of the DDFV discretization. They are fully computable as soon as a lower bound for the inf-sup constant i...
We introduce a new method for computing a posteriori bounds on engineering outputs from finite eleme...
International audience''Discrete Duality Finite Volume'' schemes (DDFV for short) on general meshes ...
International audienceDiscrete Duality Finite Volume (DDFV) schemes have recently been developed in ...
International audienceWe derive an a posteriori error estimation for the discrete duality finite vol...
Abstract. We derive an a posteriori error estimation for the discrete duality finite volume (DDFV) d...
International audienceAn efficient and fully computable a posteriori error bound is derived for the ...
International audienceWe present an application of the discrete duality finite volume method to the ...
AbstractThis paper focusses on a residual-based a posteriori error estimator for the L2-error of the...
The final publication is available at Springer via http://dx.doi.org/10.1007/s10092-018-0259-2This w...
In this article we consider the application of the generalization of the symmetric version of the in...
International audience''Discrete Duality Finite Volume'' schemes (DDFV for short) on general 2D mesh...
International audienceWe develop a Discrete Duality Finite Volume (\DDFV{}) method for the three-dim...
In this paper, a unified framework for a posteriori error estimation for the Stokes problem is devel...
We present two a posteriori error estimators for the mini-element discretization of the Stokes equat...
Recent works showed that pressure-robust modifications of mixed finite element methods for the Stoke...
We introduce a new method for computing a posteriori bounds on engineering outputs from finite eleme...
International audience''Discrete Duality Finite Volume'' schemes (DDFV for short) on general meshes ...
International audienceDiscrete Duality Finite Volume (DDFV) schemes have recently been developed in ...
International audienceWe derive an a posteriori error estimation for the discrete duality finite vol...
Abstract. We derive an a posteriori error estimation for the discrete duality finite volume (DDFV) d...
International audienceAn efficient and fully computable a posteriori error bound is derived for the ...
International audienceWe present an application of the discrete duality finite volume method to the ...
AbstractThis paper focusses on a residual-based a posteriori error estimator for the L2-error of the...
The final publication is available at Springer via http://dx.doi.org/10.1007/s10092-018-0259-2This w...
In this article we consider the application of the generalization of the symmetric version of the in...
International audience''Discrete Duality Finite Volume'' schemes (DDFV for short) on general 2D mesh...
International audienceWe develop a Discrete Duality Finite Volume (\DDFV{}) method for the three-dim...
In this paper, a unified framework for a posteriori error estimation for the Stokes problem is devel...
We present two a posteriori error estimators for the mini-element discretization of the Stokes equat...
Recent works showed that pressure-robust modifications of mixed finite element methods for the Stoke...
We introduce a new method for computing a posteriori bounds on engineering outputs from finite eleme...
International audience''Discrete Duality Finite Volume'' schemes (DDFV for short) on general meshes ...
International audienceDiscrete Duality Finite Volume (DDFV) schemes have recently been developed in ...