Add to ORKGThe definition of a computational mesh uniquely suited to a given model is a difficult and time consuming process. Using spatial and flow property quality definitions a method has been developed to adapt and optimise any given mesh. Through complex data structures, efficient surface definition and statistical analysis efficient cellular and interface manipulation routines are initiated. Cellular fission/fusion, nodal convection and interface manipulation are detailed and benefits of the adaption listed. The development of such techniques into a fully automated grid generation process is discussed
While traditional computer aided design (CAD) is mainly based on piecewise polynomial surface repres...
While traditional computer aided design (CAD) is mainly based on piecewise polynomial surface repres...
Algorithms for generating three-dimensional detailed computational meshes are considered. The algori...
A parallel tetrahedral mesh adaptation code is expanded to treat general, mixed-element unstructured...
In this paper we present some new techniques for generating high quality hexahedral meshes. The meth...
An overview of unstructured mesh generation algorithms and adaption methodologies is given. Some gen...
AbstractA mesh generation approach that allows the local modification of meshes of simplices is revi...
International audienceIn this chapter we are concerned with mesh generation methods and mesh adaptiv...
Marine bodies have complex geometry and are subject to various physical phenomenon, such as the free...
An unstructured grid adaptation technique has been developed and successfully applied to several thr...
This book is an introduction to structured and unstructured grid methods in scientific computing, ad...
In this paper, we report the development of a parallel mesh multiplication code to subdivide a base ...
The efficient use of computational resources while maintaining a certain level of solution accuracy ...
The developments in mesh generation are usually driven by the needs of new applications and/or novel...
IntroductionUnless the boundary element method (see Brebbia and Wrobel 1980), mesh less methods such...
While traditional computer aided design (CAD) is mainly based on piecewise polynomial surface repres...
While traditional computer aided design (CAD) is mainly based on piecewise polynomial surface repres...
Algorithms for generating three-dimensional detailed computational meshes are considered. The algori...
A parallel tetrahedral mesh adaptation code is expanded to treat general, mixed-element unstructured...
In this paper we present some new techniques for generating high quality hexahedral meshes. The meth...
An overview of unstructured mesh generation algorithms and adaption methodologies is given. Some gen...
AbstractA mesh generation approach that allows the local modification of meshes of simplices is revi...
International audienceIn this chapter we are concerned with mesh generation methods and mesh adaptiv...
Marine bodies have complex geometry and are subject to various physical phenomenon, such as the free...
An unstructured grid adaptation technique has been developed and successfully applied to several thr...
This book is an introduction to structured and unstructured grid methods in scientific computing, ad...
In this paper, we report the development of a parallel mesh multiplication code to subdivide a base ...
The efficient use of computational resources while maintaining a certain level of solution accuracy ...
The developments in mesh generation are usually driven by the needs of new applications and/or novel...
IntroductionUnless the boundary element method (see Brebbia and Wrobel 1980), mesh less methods such...
While traditional computer aided design (CAD) is mainly based on piecewise polynomial surface repres...
While traditional computer aided design (CAD) is mainly based on piecewise polynomial surface repres...
Algorithms for generating three-dimensional detailed computational meshes are considered. The algori...