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Curvature and Laplace-Beltrami estimation on triangulated surface meshes

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CURVPACK

A set of routines to calculate curvature and Laplace-Beltrami operation on manifold triangular-element surface meshes.

Includes a icosahedron based spherical surface mesh generator with quadratically increasing refinement (as opposed to exponential increase from subdivision methods).

Six different curvature calculation algorithms and two different Laplace-Beltrami calculation algorithms are included. Examples 4 and 5 shows the rate of convergence convergence in curvature calculation.

The figure shows the mean curvature (MC) and Gaussian curvature (GC) on a spherical surface surface perturbed by $ Y^{2}_{5}$ spherical harmonic. See Example 1.

fig1

The following methods are implemented for curvature:

  1. curvature1: Guoliang Xu, Applied Numerical Mathematics 69 (2013) 1–12. Quadratic approximation of all three coordinates.
  2. curvature2: S. Rusinkiewicz 2004
  3. curvature3: Goldfeather & Interrante
  4. curvature4: Garimella and Schwartz. Local quadric fitting using two ring neighborhood around each vertex
  5. curvature5: Local quadric fitting using one ring vertices and their normals.
  6. curvature6: Local quadric fitting using two ring vertices and normals.

Use the any of 1-4 that work for you. I wrote 5 and 6 just out of curiosity to see what happens. They don't seem to work that great in general.

Laplace Beltrami methods:

  1. curvature1: curvature1 with want_LB=True calculates Laplace-Beltrami of the curvature.

  2. LB1:Guoliang Xu 2004

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