Add to ORKGThe octree technique is developed into the finite octree, and an overview is given. Modeler requirements are given. The octree discretization is discussed along with geometric communication operators. Geometric communication operators returning topological associativity and geometric communication operators returning spatial data are also discussed and illustrated. The advantages are given of the boundary representation and of geometric communication operators. The implementation plays an important role in the integration with a variety of geometric modelers. The capabilities of closed loop processes within a complete finite element system are presented
Object representation is the backbone of any solid modelling system. Hierarchical spatial decomposit...
We describe an algorithm to generate a manifold mesh from an octree while preserving surface feature...
Describes a method to code a decimated model of an isosurface on an octree representation while main...
Finite element meshes derived automatically from solid models through recursive spatial subdivision ...
The Octree [1] technique is one of the most popular methods to produce hex-dominantmeshes. It starts...
Nowadays large part of the time needed to perform a numerical simulation is spent in preprocessing, ...
In this paper, an octree geometric modeler is presented. It builds solid models on the basis of geom...
International audienceThis paper describes the use of the eXtended Finite Element Method in the cont...
Finite element meshes are used to approximate the solution to some differential equation when no exa...
Volume models can be effectively represented by means of octree structures, that recursively subdivi...
Solid modelers must be based on reliable and fast algorithms for Boolean operations. The octree mode...
International audienceWe propose a unified solution for the creation of levels of detail on very lar...
Existent algorithms to perform geometric transformations on octrees can be classified in two familie...
Existent algorithms to perform geometric transformations on octrees can be classified in two famili...
This paper describes the Extended Octree model that are an exact representation for polyhedra. Boole...
Object representation is the backbone of any solid modelling system. Hierarchical spatial decomposit...
We describe an algorithm to generate a manifold mesh from an octree while preserving surface feature...
Describes a method to code a decimated model of an isosurface on an octree representation while main...
Finite element meshes derived automatically from solid models through recursive spatial subdivision ...
The Octree [1] technique is one of the most popular methods to produce hex-dominantmeshes. It starts...
Nowadays large part of the time needed to perform a numerical simulation is spent in preprocessing, ...
In this paper, an octree geometric modeler is presented. It builds solid models on the basis of geom...
International audienceThis paper describes the use of the eXtended Finite Element Method in the cont...
Finite element meshes are used to approximate the solution to some differential equation when no exa...
Volume models can be effectively represented by means of octree structures, that recursively subdivi...
Solid modelers must be based on reliable and fast algorithms for Boolean operations. The octree mode...
International audienceWe propose a unified solution for the creation of levels of detail on very lar...
Existent algorithms to perform geometric transformations on octrees can be classified in two familie...
Existent algorithms to perform geometric transformations on octrees can be classified in two famili...
This paper describes the Extended Octree model that are an exact representation for polyhedra. Boole...
Object representation is the backbone of any solid modelling system. Hierarchical spatial decomposit...
We describe an algorithm to generate a manifold mesh from an octree while preserving surface feature...
Describes a method to code a decimated model of an isosurface on an octree representation while main...