The three-dimensional simulation of physical phenomena involving moving bodies undergoing large displacements represents a real challenge. These simulations, combine the issues related to instability, meshing and Fluid-Structure Interaction, are generally difficult to perform and very costly in terms of computation time. We present in this research report an overview on moving mesh methods used in the literature. Several mesh deformation methods are proposed, local remeshing operations are explained and finally different approaches that uses PDE are detailed
The mesh movement is necessary in fluid-structure computations in order to define clearly the deform...
In this paper we present an application of our Bezier-based approach to moving meshes [1] to Navier-...
This paper describes a simple modifi cationto an Eulerian fl uidsimulation that permits the underlyi...
The three-dimensional simulation of physical phenomena involving moving bodies undergoing large disp...
International audienceThis paper deals with numerical simulations involving three-dimensional moving...
AbstractThree-dimensional real-life simulations are generally unsteady and involve moving geometries...
International audienceThree-dimensional real-life simulations are generally unsteady and involve mov...
Abstract. In this paper, we present an adaptive moving mesh algorithm for meshes of unstructured pol...
International audienceThis work is motivated by the success of the adaptive finite element methods i...
This paper presents an adaptive mesh moving technique for three-dimensional (3D) fluid flow problems...
Moving grid or mesh deformation is a challenging task for numerical simulation of fluid-structure in...
Fluid-Structure Interaction simulations have gained popularity in the research community because of ...
An unstructured, three-dimensional, moving-mesh algorithm is developed for free-surface flow simulat...
Accurate modelling of scientific problems that are governed by partial differential equations (PDEs)...
Report on activity presented to RAS.The presence of moving meshes when motions of fluids and solids ...
The mesh movement is necessary in fluid-structure computations in order to define clearly the deform...
In this paper we present an application of our Bezier-based approach to moving meshes [1] to Navier-...
This paper describes a simple modifi cationto an Eulerian fl uidsimulation that permits the underlyi...
The three-dimensional simulation of physical phenomena involving moving bodies undergoing large disp...
International audienceThis paper deals with numerical simulations involving three-dimensional moving...
AbstractThree-dimensional real-life simulations are generally unsteady and involve moving geometries...
International audienceThree-dimensional real-life simulations are generally unsteady and involve mov...
Abstract. In this paper, we present an adaptive moving mesh algorithm for meshes of unstructured pol...
International audienceThis work is motivated by the success of the adaptive finite element methods i...
This paper presents an adaptive mesh moving technique for three-dimensional (3D) fluid flow problems...
Moving grid or mesh deformation is a challenging task for numerical simulation of fluid-structure in...
Fluid-Structure Interaction simulations have gained popularity in the research community because of ...
An unstructured, three-dimensional, moving-mesh algorithm is developed for free-surface flow simulat...
Accurate modelling of scientific problems that are governed by partial differential equations (PDEs)...
Report on activity presented to RAS.The presence of moving meshes when motions of fluids and solids ...
The mesh movement is necessary in fluid-structure computations in order to define clearly the deform...
In this paper we present an application of our Bezier-based approach to moving meshes [1] to Navier-...
This paper describes a simple modifi cationto an Eulerian fl uidsimulation that permits the underlyi...