Stanford Easter Bunny - Voronoi

Hi all,

I needed a cool mesh to test some true voronoi patterns.

And in the spirit of Easter;
the Stanford Bunny seemed like the perfect subject!

The cell-center distribution for the voronoi patterns was generated using charge particle simulations:
The particles can move freely within a 1mm thick voxel model of the bunny. They repel and attract each other. And over time they form a near perfect distribution across the surface.

Next, the 1mm wide voronoi pattern was generated within the same 1 mm thick voxel model, resulting in round 1mm wires.

And finally the voxel model was polygonized using a marching cubes algorithm, and cleaned using VCG lib functions.

Stanford_Bunny - Voronoi pattern stl
Is based on single charges, producing a smooth distribution and a honeycomb like pattern.

Stanford_Bunny - Voronoi2 pattern stl
Is based on sets of 2 linked charges, or lines actually. This produces slightly elongated cells. Resulting in a more more crackly pattern.

And although it is not a derivative,
hat-tip to Roman Hegglin's "Stanford Bunny Voronoi style":
http://www.thingiverse.com/thing:291323

Happy Easter everyone!

Info on the Bunny here:
http://www.gvu.gatech.edu/people/faculty/greg.turk/bunny/bunny.html
http://graphics.stanford.edu/data/3Dscanrep/

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