Discrete Surface Geometry and Intrinsic Triangulations

Discrete Surface Geometry and Intrinsic Triangulations

Fields Institute via YouTube Direct link

Intrinsic edge flips

14 of 31

14 of 31

Intrinsic edge flips

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Classroom Contents

Discrete Surface Geometry and Intrinsic Triangulations

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  1. 1 Intro
  2. 2 Surface meshes
  3. 3 Gradients and vector fields
  4. 4 There is no perfect mesh
  5. 5 Robust geometry processing
  6. 6 Gaussian curvature revisited
  7. 7 Basic idea intrinsic edge lengths
  8. 8 A brief history of intrinsic triangulations
  9. 9 Euclidean intrinsic triangles a larger space of triangulations
  10. 10 Intrinsic is enough
  11. 11 Perspective: cone metrics
  12. 12 A non-embeddable intrinsic triangulatio
  13. 13 Key idea: a larger space of triangulation
  14. 14 Intrinsic edge flips
  15. 15 Properties of intrinsic triangulations
  16. 16 Better intrinsic meshes
  17. 17 Delaunay edge flips
  18. 18 Proof sketch
  19. 19 Intrinsic Delaunay triangulations many characterizations & properties
  20. 20 Better basis functions
  21. 21 A-complex
  22. 22 Intrinsic Delaunay refinement
  23. 23 Applications
  24. 24 Nonmanifold intrinsic triangulations
  25. 25 Robustness as a subroutine build a better Laplace matrix
  26. 26 Nonmanifold meshes
  27. 27 Resolving nonmanifoldness assembling the tufted cover
  28. 28 The tufted cover vertex-nonmanifold almost everywhere
  29. 29 Improving algorithms
  30. 30 Properties bounded interpolation
  31. 31 Delaunay flipping distance a motivating example

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