Title :
Curvilinear Spherical Parameterization
Author :
Zayer, Rhaleb ; Rössl, Christian ; Seidel, Hans-Peter
Author_Institution :
MPI Informatik, Saarbrucken
Abstract :
We present an efficient approach for solving the spherical parameterization problem. The essence of the approach is to look for a solution in the curvilinear coordinate system without requiring the additional spherical constraints usually needed in Cartesian formulations. This setup allows us to take full advantage of some existing techniques originally developed for planar parameterization. Our results substantiate the efficiency of the method and confirm its robustness. Meshes of non-trivial geometry with tens of thousands of triangles are processed in a few seconds, always yielding bijective maps. This computational achievement bridges a so far wide gap in performance between spherical and planar parameterization
Keywords :
computational geometry; conformal mapping; mesh generation; Cartesian formulation; curvilinear coordinate system; curvilinear spherical parameterization; mesh generation; nontrivial geometry; planar parameterization; spherical constraint; Bridges; Constraint theory; Convergence of numerical methods; Current measurement; Geometry; Piecewise linear techniques; Robustness; Shape; Solid modeling; Topology;
Conference_Titel :
Shape Modeling and Applications, 2006. SMI 2006. IEEE International Conference on
Conference_Location :
Matsushima
Print_ISBN :
0-7695-2591-1
