AbstractMeshes with (recursive) subdivision connectivity, such as subdivision surfaces, are increasingly popular in computer graphics. They present several advantages over their Delaunay-type based counterparts, e.g., Triangulated Irregular Networks (TINs), such as efficient processing, compact storage and numerical robustness. A mesh having subdivision connectivity can be described using a tree structure and recent work exploits this inherent hierarchy in applications such as progressive terrain visualization, surface compression and transmission. We propose a hierarchical, fine to coarse (i.e., using vertex decimation) algorithm to reduce the number of vertices in meshes whose connectivity is based on quadrilateral quadrisection (e.g., su...
In this paper we discuss how a given triangle mesh can be analysed in order to decide whether it has...
AbstractA new progressive compression algorithm for arbitrary topology with highly detailed triangle...
2003-2004 > Academic research: refereed > Publication in refereed journalVersion of RecordPublishe
Meshes with (recursive) subdivision connectivity, such as subdivision surfaces, are increasingly pop...
AbstractMeshes with (recursive) subdivision connectivity, such as subdivision surfaces, are increasi...
Meshes with (recursive) subdivision connectivity, such as subdivision surfaces, are increasingly pop...
AbstractThe use of polygonal meshes for the representation of highly complex geometric objects has b...
In this paper we introduce a fast and efficient linear time and space algorithm to detect and recons...
AbstractTriangle meshes are a standard representation for surface geometry in computer graphics and ...
This paper presents a linear running time optimization algorithm for meshes with subdivision connect...
For twenty years, it has been clear that many datasets are excessively complex for applications such...
Due to the surface meshes produced at increasing complexity in many applications, interest in effici...
Due to the surface meshes produced at increasing complexity in many applications, interest in effici...
Several recent SIGGRAPH papers on surface simplification are described. Keywords: Mesh simplificati...
The thesis studies the optimization of a specific type of computer graphic representation: polygon-b...
In this paper we discuss how a given triangle mesh can be analysed in order to decide whether it has...
AbstractA new progressive compression algorithm for arbitrary topology with highly detailed triangle...
2003-2004 > Academic research: refereed > Publication in refereed journalVersion of RecordPublishe
Meshes with (recursive) subdivision connectivity, such as subdivision surfaces, are increasingly pop...
AbstractMeshes with (recursive) subdivision connectivity, such as subdivision surfaces, are increasi...
Meshes with (recursive) subdivision connectivity, such as subdivision surfaces, are increasingly pop...
AbstractThe use of polygonal meshes for the representation of highly complex geometric objects has b...
In this paper we introduce a fast and efficient linear time and space algorithm to detect and recons...
AbstractTriangle meshes are a standard representation for surface geometry in computer graphics and ...
This paper presents a linear running time optimization algorithm for meshes with subdivision connect...
For twenty years, it has been clear that many datasets are excessively complex for applications such...
Due to the surface meshes produced at increasing complexity in many applications, interest in effici...
Due to the surface meshes produced at increasing complexity in many applications, interest in effici...
Several recent SIGGRAPH papers on surface simplification are described. Keywords: Mesh simplificati...
The thesis studies the optimization of a specific type of computer graphic representation: polygon-b...
In this paper we discuss how a given triangle mesh can be analysed in order to decide whether it has...
AbstractA new progressive compression algorithm for arbitrary topology with highly detailed triangle...
2003-2004 > Academic research: refereed > Publication in refereed journalVersion of RecordPublishe