Paper Info
Title
Spin transformations of discrete surfaces
Abstract
We introduce a new method for computing conformal transformations of triangle meshes in R3. Conformal maps are desirable in digital geometry processing because they do not exhibit shear, and therefore preserve texture fidelity as well as the quality of the mesh itself. Traditional discretizations consider maps into the complex plane, which are useful only for problems such as surface parameterization and planar shape deformation where the target surface is flat. We instead consider maps into the quaternions H, which allows us to work directly with surfaces sitting in R3. In particular, we introduce a quaternionic Dirac operator and use it to develop a novel integrability condition on conformal deformations. Our discretization of this condition results in a sparse linear system that is simple to build and can be used to efficiently edit surfaces by manipulating curvature and boundary data, as demonstrated via several mesh processing applications.
Year
DOI
Venue
2011
10.1145/1964921.1964999
ACM Trans. Graph.
Keywords
Field
DocType
mesh processing application,condition result,target surface,conformal transformation,triangle mesh,conformal map,conformal deformation,discrete surface,novel integrability condition,digital geometry processing,surface parameterization,digital geometry,quaternions,conformal geometry,discrete differential geometry,dirac operator,geometric model,geometric modeling
Topology,Discretization,Discrete differential geometry,Curvature,Polygon mesh,Computer science,Conformal geometry,Conformal map,Spin geometry,Digital geometry
Journal
Volume
Issue
ISSN
30
4
0730-0301
Citations 
PageRank 
References 
29
0.99
15
Authors
3
Name
Order
Citations
PageRank
Keenan Crane158629.28
Ulrich Pinkall249739.52
Peter Schröder35825467.77