Title :
Skeletal implicit surface reconstruction from sections for flexible body simulation
Author :
Amrani, M. ; Crespin, B. ; Shariat, B.
Author_Institution :
LIGIM, Univ. of Lyon I, Villeurbanne, France
Abstract :
We describe an automatic surface reconstruction technique from a set of planar data points organised in parallel sections. The reconstruction employs skeletal implicit surfaces. Two key points in this study are: calculation of the 3D skeleton by establishing a correspondence between each paid of the 2D Voronoi skeleton of two neighbouring sections; and the use of a uniform field function necessitating the introduction of the notion of “weighted skeleton”. Another key point of this work is the proposition of an animation methodology by transforming the skeleton into a deformable mass/spring system. This work has been used in the context of a medical project to simulate the dynamic behaviour of organs during the conformal radiotherapy treatment
Keywords :
computational geometry; computer animation; image reconstruction; image thinning; surface reconstruction; 2D Voronoi skeleton; 3D skeleton; animation methodology; automatic surface reconstruction technique; conformal radiotherapy treatment; deformable mass/spring system; flexible body simulation; medical project; organs; planar data points; reconstruction from sections; skeletal implicit surface reconstruction; skeletal implicit surfaces; weighted skeleton; Animation; Biological system modeling; Deformable models; Shape control; Skeleton; Solid modeling; Springs; Surface reconstruction; Surface treatment; Topology;
Conference_Titel :
Information Visualisation, 2001. Proceedings. Fifth International Conference on
Conference_Location :
London
Print_ISBN :
0-7695-1195-3
DOI :
10.1109/IV.2001.942136
