This study is devoted to a comparative analysis of three 'Adaptive ZOOM' (ZOom Overlapping Multi-level) methods based on similar concepts of hierarchical multigrid local refinement: LDC (Local Defect Correction), FAC (Fast Adaptive Composite), and FIC (Flux Interface Correction)--which we proposed recently. These methods are tested on two examples of a bidimensional elliptic problem. We compare, for V-cycle procedures, the asymptotic evolution of the global error evaluated by discrete norms, the corresponding local errors, and the convergence rates of these algorithms
*Abstract. * For the solution of convection-diffusion problems we present a multilevel self-adaptive...
This thesis describes the formulation and application of an adaptive multigrid method for the effici...
In this paper we study the multigrid methods for adaptively refined finite element meshes. In our mu...
International audienceThe aim of this paper is to describe some numerical aspects linked to incompre...
Adaptive Mesh Refinement (AMR) is a numerical technique for locally tailoring the resolution computa...
We investigate multigrid algorithms on locally refined quadrilateral meshes. In contrast to a standa...
The multilevel (multigrid) adaptive technique, a general strategy of solving continuous problems by ...
A local multilevel product algorithm and its additive version are analyzed for linear systems arisin...
AbstractWe study the convergence behavior of the FAC (fast adaptive composite) multigrid method as a...
International audienceIn this paper, an adaptive mesh refinement (AMR) method, called the local defe...
New adaptive local refinement (ALR) strategies are developed, the goal of which is to reach a given ...
We analyze a special case of the Local Defect Correction (LDC) method introduced in [4]. We restrict...
After introduction of the model problem we derive its weak formulation, show the existence and the u...
This work studies three multigrid variants for matrix-free finite-element computations on locally re...
We consider the convergence theory of adaptive multigrid methods for second-order elliptic problems ...
*Abstract. * For the solution of convection-diffusion problems we present a multilevel self-adaptive...
This thesis describes the formulation and application of an adaptive multigrid method for the effici...
In this paper we study the multigrid methods for adaptively refined finite element meshes. In our mu...
International audienceThe aim of this paper is to describe some numerical aspects linked to incompre...
Adaptive Mesh Refinement (AMR) is a numerical technique for locally tailoring the resolution computa...
We investigate multigrid algorithms on locally refined quadrilateral meshes. In contrast to a standa...
The multilevel (multigrid) adaptive technique, a general strategy of solving continuous problems by ...
A local multilevel product algorithm and its additive version are analyzed for linear systems arisin...
AbstractWe study the convergence behavior of the FAC (fast adaptive composite) multigrid method as a...
International audienceIn this paper, an adaptive mesh refinement (AMR) method, called the local defe...
New adaptive local refinement (ALR) strategies are developed, the goal of which is to reach a given ...
We analyze a special case of the Local Defect Correction (LDC) method introduced in [4]. We restrict...
After introduction of the model problem we derive its weak formulation, show the existence and the u...
This work studies three multigrid variants for matrix-free finite-element computations on locally re...
We consider the convergence theory of adaptive multigrid methods for second-order elliptic problems ...
*Abstract. * For the solution of convection-diffusion problems we present a multilevel self-adaptive...
This thesis describes the formulation and application of an adaptive multigrid method for the effici...
In this paper we study the multigrid methods for adaptively refined finite element meshes. In our mu...