by Craig Gotsman, Stefan Gumhold, Leif Kobbelt
Abstract:
We survey recent developments in compact representations of 3D mesh data. This includes: methods to reduce the complexity of meshes by simplification, thereby reducing the number of vertices and faces in the mesh; methods to resample the geometry in order to optimize the vertex distribution; methods to compactly represent the connectivity data (the graph structure defined by the edges) of the mesh; methods to compactly represent the geometry data (the vertex coordinates) of a mesh.
Reference:
Tutorials on Multiresolution in Geometric Modelling (Craig Gotsman, Stefan Gumhold, Leif Kobbelt), Chapter in Simplification and Compression of 3D Meshes, Springer, 2002.
Bibtex Entry:
@INBOOK{Gotsman-2002-Tutorialsa,
AUTHOR = {Craig Gotsman and Stefan Gumhold and Leif Kobbelt},
CHAPTER = {Simplification and Compression of 3D Meshes},
AFFILIATIONS = {CGV,GRIS},
AREAS = {areagp},
PAGES = {319--362},
PUBLISHER = {Springer},
SERIES = {Mathematics and Visualization},
TITLE = {Tutorials on Multiresolution in Geometric Modelling},
YEAR = {2002},
KEYWORDS = {GRIS},
ISBN = {3-540-43639-1},
URL = {http://tu-dresden.de/die_tu_dresden/fakultaeten/fakultaet_informatik/smt/cgv/publikationen/2002/saco3dm/SimplificationAndCompression.pdf},
ABSTRACT = {We survey recent developments in compact representations of 3D mesh data.
This includes: methods to reduce the complexity of meshes by simplification, thereby
reducing the number of vertices and faces in the mesh; methods to resample the
geometry in order to optimize the vertex distribution; methods to compactly represent
the connectivity data (the graph structure defined by the edges) of the mesh;
methods to compactly represent the geometry data (the vertex coordinates) of a mesh.},
DOI = {10.1007/978-3-662-04388-2_12}
}