DocumentCode
862710
Title
A versatile hierarchical mesh for subdivision surfaces
Author
Fünfzig, Christoph ; Müller, Kerstin ; JanetzeK, Rafael ; Techmann, Ttorsten
Author_Institution
PRISM Lab., Arizona State Univ., Tempe, AZ
Volume
27
Issue
5
fYear
2008
Firstpage
20
Lastpage
25
Abstract
Most of the needs that occur in applications using subdivision surfaces are covered by our hierarchical mesh data structure. We tested the proposed data structure in some implementations for adaptive visualizations where a highly efficient data structure is essential. Primarily, this means our mesh must support a fast hierarchical refinement of the object with a fast access to the vertices in the different subdivision levels. Only the parts of the object with a contribution to the light transport are computed and stored up to an adequate subdivision depth. A rapid and stable navigation on the mesh must be possible, and storing of ancillary information is required. The modular concept of our mesh enables us to exchange the rules of the subdivision scheme easily. With our hierarchical mesh, the rules for Catmull-Clark, Loop and ESubs, which is another subdivison scheme, were easy to implement.
Keywords
computational geometry; data structures; data visualisation; mesh generation; surface fitting; adaptive visualization; hierarchical mesh data structure; object refinement; subdivision surface; Computational modeling; Computer graphics; Data structures; Hardware; Image sampling; Lighting; Navigation; Optical reflection; Ray tracing; Spline;
fLanguage
English
Journal_Title
Potentials, IEEE
Publisher
ieee
ISSN
0278-6648
Type
jour
DOI
10.1109/MPOT.2008.928008
Filename
4625356
Link To Document