Abstract:
We consider a general theory of curvatures of discrete surfaces equipped with edgewise parallel Gauss images, and where mean and Gaussian curvatures of faces are derived from the faces’ areas and mixed areas. Remarkably these notions are capable of unifying notable previously defined classes of surfaces, such as discrete isothermic minimal surfaces and surfaces of constant mean curvature. We discuss various types of natural Gauss images, the existence of principal curvatures, constant curvature surfaces, Christoffel duality, Koenigs nets, contact element nets, sisothermic nets, and interesting special cases such as discrete Delaunay surfaces derived from elliptic billiards.
Bibtex:
@article{bobenko2010ct,
author = "Alexander Bobenko and Helmut Pottmann and Johannes
Wallner",
title = "A curvature theory for discrete surfaces based
on mesh parallelity",
journal = "Math. Annalen",
year = 2010,
note = "to appear",
url = "http://www.geometrie.tugraz.at/wallner/pkmesh.pdf",
arxiv="0901.4620",
doi="http://dx.doi.org/10.1007/s0020800904679",
}
}

