DocumentCode
3115839
Title
BlobTree trees
Author
Galbraith, Callum ; MacMurchy, Peter ; Wyvill, Brian
Author_Institution
Dept. of Comput. Sci., Calgary Univ., Alta.
fYear
2004
fDate
19-19 June 2004
Firstpage
78
Lastpage
85
Abstract
In recent years several methods for modeling botanical trees have been proposed. The geometry and topology of tree skeletons can be well described by L-systems; however, there are several approaches to modeling smooth surfaces to represent branches, and not all of the observed phenomena can be represented by current methods. Many tree types exhibit nonsmooth features such as branch bark ridges and collars. In this research a hierarchical implicit modeling system is used to produce models of branching structures that capture smooth branching, branch collars and branch bark ridges. The BlobTree provides several techniques to control the combination of primitives, allowing both smooth and nonsmooth effects to be intuitively combined in a single blend volume. Irregular effects are implemented using precise contact modeling, constructive solid geometry and space warping. We show that smooth blends can be obtained, without noticeable bulging, using summation of distance based implicit surfaces. L-systems are used to create the branching structure allowing botanically based simulations to be used as input
Keywords
botany; computational geometry; computer animation; realistic images; rendering (computer graphics); solid modelling; surface fitting; tree data structures; BlobTree; botanical trees modeling; constructive solid geometry; implicit surfaces; precise contact modeling; smooth surfaces; space warping; tree branching structure; tree skeletons topology; Computer graphics; Computer science; Convolution; Geometry; Phase change materials; Skeleton; Solid modeling; Surface fitting; Topology; Tree graphs;
fLanguage
English
Publisher
ieee
Conference_Titel
Computer Graphics International, 2004. Proceedings
Conference_Location
Crete
ISSN
1530-1052
Print_ISBN
0-7695-2171-1
Type
conf
DOI
10.1109/CGI.2004.1309195
Filename
1309195
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