Title :
Shape Inflation with an Adapted Laplacian Operator for Hybrid Quad/Triangle Meshes
Author :
Pinzon, Alexander ; Romero, Eduardo
Author_Institution :
Cimalab Res. Group, Univ. Nac. de Colombia, Bogota, Colombia
Abstract :
This paper proposes a novel modeling method for a hybrid quad/triangle mesh that allows to set a family of possible shapes by controlling a single parameter, the global curvature. The method uses an original extension of the Laplace Beltrami operator that efficiently estimates a curvature parameter which is used to define an inflated shape after a particular operation performed in certain mesh points. Along with the method, this work presents new applications in sculpting and modeling, with subdivision of surfaces and weight vertex groups. A series of graphics examples demonstrates the quality, predictability and flexibility of the method in a real production environment with software Blender.
Keywords :
Laplace equations; computational geometry; mesh generation; Blender software; Laplace Beltrami operator; adapted Laplacian operator; curvature parameter estimation; global curvature; hybrid quad/triangle meshes; shape inflation; surface subdivision; weight vertex groups; Brushes; Equations; Laplace equations; Mathematical model; Shape; Smoothing methods; Surface treatment; curvature; laplacian smooth; sculpting; subdivision surface;
Conference_Titel :
Graphics, Patterns and Images (SIBGRAPI), 2013 26th SIBGRAPI - Conference on
Conference_Location :
Arequipa
DOI :
10.1109/SIBGRAPI.2013.33
