The aim of this paper is to propose an effective anisotropic mesh adaptation procedure for the solution of the shallow water equations. The hyperbolic partial differential equation system is solved via the streamline diffusion FEM, suitably modified by a shock-capturing correction. The proposed adaptation procedure relies on a recovery-based error estimator. In particular, we look for an anisotropic error estimator able to select not only the size but also the shape and the orientation of the mesh elements, with the aim of optimizing the computational advantages yielded by a standard isotropic mesh adaptation strategy. The robustness of the proposed estimator is assessed when either a single physical quantity, meaningful for the problem at ...
When the finite element method is used to solve boundary value problems, the corresponding finite el...
A recovery-based error estimator for anisotropic mesh adaptation in CFD∗ P.E. Farrell†, S. Michelett...
In this paper we aim at controlling physically meaningful quantities with emphasis on environmental ...
The aim of this paper is to propose an effective anisotropic mesh adaptation procedure for the solut...
We present a new recovery-based anisotropic error estimator for discontinuous Galerkin finite elemen...
We consider metric-based mesh adaptation methods for steady-state partial differential equations (PD...
International audienceThis study presents a novel goal-oriented error estimate for the nonlinear sha...
We provide a unifying framework that generalizes the 2D and 3D settings proposed in [32] and [17], ...
In this work we develop an anisotropic a posteriori error analysis of the advection–diffusion–reacti...
An adaptive finite element algorithm is presented for the wave equation in two space dimensions. The...
Accurate numerical simulation of reaction-diffusion systems can come with a high cost. A system may ...
Abstract. A new anisotropic mesh adaptation strategy for finite element solution of el-liptic differ...
Abstract. A new anisotropic mesh adaptation strategy for finite element solution of elliptic differe...
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 ...
When the finite element method is used to solve boundary value problems, the corresponding finite el...
A recovery-based error estimator for anisotropic mesh adaptation in CFD∗ P.E. Farrell†, S. Michelett...
In this paper we aim at controlling physically meaningful quantities with emphasis on environmental ...
The aim of this paper is to propose an effective anisotropic mesh adaptation procedure for the solut...
We present a new recovery-based anisotropic error estimator for discontinuous Galerkin finite elemen...
We consider metric-based mesh adaptation methods for steady-state partial differential equations (PD...
International audienceThis study presents a novel goal-oriented error estimate for the nonlinear sha...
We provide a unifying framework that generalizes the 2D and 3D settings proposed in [32] and [17], ...
In this work we develop an anisotropic a posteriori error analysis of the advection–diffusion–reacti...
An adaptive finite element algorithm is presented for the wave equation in two space dimensions. The...
Accurate numerical simulation of reaction-diffusion systems can come with a high cost. A system may ...
Abstract. A new anisotropic mesh adaptation strategy for finite element solution of el-liptic differ...
Abstract. A new anisotropic mesh adaptation strategy for finite element solution of elliptic differe...
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 ...
When the finite element method is used to solve boundary value problems, the corresponding finite el...
A recovery-based error estimator for anisotropic mesh adaptation in CFD∗ P.E. Farrell†, S. Michelett...
In this paper we aim at controlling physically meaningful quantities with emphasis on environmental ...