In this work we develop an anisotropic a posteriori error analysis of the advection–diffusion–reaction and the Stokes problems. This is the first step towards the study of more complex situations, such as the Oseen and Navier–Stokes equations, which are very common in Computational Fluid Dynamic (CFD) applications. The leading idea of our analysis consists of combining the anisotropic interpolation error estimates for affine triangular finite elements provided in [Numer. Math. 89 (2001) 641; Numer. Math. 94 (2003) 67] with the a posteriori error analysis based on a dual problem associated with the problem at hand [East–West J. Numer. Math. 4 (1996) 237; Comput. Methods Appl. Mech. Engrg. 166 (1998) 99]. Anisotropic interpolation estimates t...
We present a new recovery-based anisotropic error estimator for discontinuous Galerkin finite elemen...
Because of the increasingly complex geometries involved in flow problems of industrial relevance, nu...
The aim of this paper is to propose an effective anisotropic mesh adaptation procedure for the solut...
In this work we develop an anisotropic a posteriori error analysis of the advection–diffusion–reacti...
An adaptive finite element algorithm to compute transonic viscous flows around a wing is presented. ...
We present different metrics derived from a posteriori error estimates for the Pois-son problem and ...
International audienceThis work is motivated by the success of the anisotropic adaptive finite eleme...
AbstractWe propose an a posteriori error estimator for the Stokes problem using the Crouzeix–Raviart...
The solution of complex three-dimensional computational fluid dynamics (CFD) problems in general nec...
The paper presents a posteriori error estimators for the stationary Stokes problem. We consider anis...
A basic feature in finite-element method (FEM) is the initial choice of an interpolation for the unk...
When the finite element method is used to solve boundary value problems, the corresponding finite el...
International audienceThe paper presents a posteriori error estimators for the stationary Stokes pro...
Many physical problems lead to boundary value problems for partial differential equations, which can...
We present a goal-oriented error analysis for the calculation of low Reynolds steady compressible fl...
We present a new recovery-based anisotropic error estimator for discontinuous Galerkin finite elemen...
Because of the increasingly complex geometries involved in flow problems of industrial relevance, nu...
The aim of this paper is to propose an effective anisotropic mesh adaptation procedure for the solut...
In this work we develop an anisotropic a posteriori error analysis of the advection–diffusion–reacti...
An adaptive finite element algorithm to compute transonic viscous flows around a wing is presented. ...
We present different metrics derived from a posteriori error estimates for the Pois-son problem and ...
International audienceThis work is motivated by the success of the anisotropic adaptive finite eleme...
AbstractWe propose an a posteriori error estimator for the Stokes problem using the Crouzeix–Raviart...
The solution of complex three-dimensional computational fluid dynamics (CFD) problems in general nec...
The paper presents a posteriori error estimators for the stationary Stokes problem. We consider anis...
A basic feature in finite-element method (FEM) is the initial choice of an interpolation for the unk...
When the finite element method is used to solve boundary value problems, the corresponding finite el...
International audienceThe paper presents a posteriori error estimators for the stationary Stokes pro...
Many physical problems lead to boundary value problems for partial differential equations, which can...
We present a goal-oriented error analysis for the calculation of low Reynolds steady compressible fl...
We present a new recovery-based anisotropic error estimator for discontinuous Galerkin finite elemen...
Because of the increasingly complex geometries involved in flow problems of industrial relevance, nu...
The aim of this paper is to propose an effective anisotropic mesh adaptation procedure for the solut...