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Recent Progress in Mesh Parameterization

Recent Progress in Mesh Parameterization. Speaker : ZhangLei. Decade Retrospect. 75 papers. 2000. 2001. 2002. 2003. 2004. 2005. 2006. 2007. 1997. 1998. 1999. Research Blocks. Planar Parameterization MIPS, LSCM, Mean-value, ABF++,… Manifold Parameterization

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Recent Progress in Mesh Parameterization

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  1. Recent Progress in Mesh Parameterization Speaker : ZhangLei

  2. Decade Retrospect 75 papers 2000 2001 2002 2003 2004 2005 2006 2007 1997 1998 1999

  3. Research Blocks • Planar Parameterization • MIPS, LSCM, Mean-value, ABF++,… • Manifold Parameterization • Spherical parameterization • Simplex parameterization • Inter-surface parameterization • Volumetric Parameterization • To be expected…

  4. Alla Sheffer University of British Columbia M. S. Floater University of Oslo Kai Hormann Clausthal University of Technology Hugues Hoppe Microsoft Research Craig Gotsman Israel Institute of Technology Bruno Levy Pierre Alliez ALICE, GEOMETRICA@INRIA David Xianfeng Gu Stony Brook@State university of NewYOrk

  5. Curvilinear Spherical Prameterization Zayer, R. MPI Rossl, C. INRIA Seidel, H.P. MPI Shape Modeling and Applications, 2006

  6. Curvilinear Coordinates System

  7. Initial Parameterization pole date line pole

  8. Secondary Parameterization • Angle or Area Distortion Control

  9. Local Domain Distortion Reduction • Tangential Laplacian Smoothing

  10. Results

  11. Conclusion • Pros • Easy-to-implement • Robust • Cons • Moderate distortion • Poles and date lines selection

  12. Linear Angle Based Parameterization Levy, B. INRIA-Alice Seidel, H. P. MPI Zayer, R. MPI Eurographics Symposium on Geometry Processing, 2007

  13. ABF&ABF++ • Sheffer, A., de Sturler, E. Parameterization of Faceted Surfaces for Meshing Using Angle Based Flattening. Engineering with Computers, 2001. • Sheffer, A., Levy, B., Mogilnitsky, M., Bogomyakov, A. ABF++: Fast and Robust Angle Based Flattening. ToG, 2005. Coordinate space Angle space Coordinate space

  14. ABF • Planar Angle Constraints • Vertex consistency • Triangle consistency • Wheel consistency

  15. ABF • Lagrange Multiplier Optimization Non-linear

  16. Linearization Denote Logarithmic & Taylor expansion

  17. linear

  18. Linear ABF

  19. Results

  20. Conclusion ABF++ Pros & Linear computation

  21. Discrete Conformal Mappings via Circle Patterns Springborn, B. TU Berlin Kharevych, L. Caltech Schroder, P. Caltech ACM Transactions on Graphics, 2006

  22. Circle Packing William Thurston combinatorics geometry

  23. THEOREM (The Dirichlet Problem) Let K be a complex trangulating a closed topological disc, let A be an angle sum target function of K, and assume that is a function defined on the boundary vertices of K. Then there exists a unique Euclidean packing label R for K with the property that for each boundary vertex . CirclePack http://www.math.utk.edu/~kens/

  24. Circle Pattern

  25. Circle Pattern Problem To reconstruct a circle pattern from an abstract triangulation and the intersection angles.

  26. Circle Pattern • Delaunay Triangulation for interior edges Edge weight for boundary edges

  27. Circle Pattern • Delaunay Triangulation

  28. Circle Pattern Problem • Local Geometry of an Edge For a flat triangle

  29. Variational Circle Patterns

  30. Circle Pattern Problem vs Parameterization To reconstruct a circle pattern from an abstract triangulation and the intersection angles. Discrete conformal parameterization of triangular mesh ?

  31. Parameterization Algorithm Setting the angles for each edge; Minimizing the energy; Generating the layout;

  32. Parameterization Algorithm Setting the angles for each edge; Minimizing the energy; Generating the layout;

  33. Parameterization Algorithm Setting the angles for each edge; Minimizing the energy; Generating the layout;

  34. Results

  35. Conclusion • Pros • Circle version of ABF • … • Cons • Nonlinear

  36. Periodic Global Parameterization Ray, N., Li, W. C., Levy, B. INRIA-Alice Sheffer, A. University of British Columbia Alliez, P. INRIA-Geometrica ACM Transactions on Graphics, 2006

  37. Global Parameterization Given two charts C and C’, if their intersection is a topological disk, then the image of the intersection in parameterization space by and are linked by a geometric transition function : Translation: affine manifold General: complex manifold

  38. Periodic Parameterization Translation Rotation

  39. Problem Input: Output:

  40. Formulation Objective

  41. Transition function

  42. Application • Quad-Remeshing

  43. Most Shape-preserving Mesh Parameteri-zation by Rigid Alignment

  44. Complex Manifold Rigid transformation Translation Rotation

  45. Local Shape-preserving Prameterization • 1-ring Patch: Geodesic Polar Map is an boundary vertex and otherwise

  46. Global Shape-preserving Parameterization • Rigid Alignment

  47. Least-squares Sense To minimize

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