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Quad-mesh based isometric mappings and developable surfaces

Caigui Jiang, Cheng Wang, Florian Rist, Johannes Wallner, Helmut Pottmann

2020ACM Transactions on Graphics47 citationsDOI

Abstract

We discretize isometric mappings between surfaces as correspondences between checkerboard patterns derived from quad meshes. This method captures the degrees of freedom inherent in smooth isometries and enables a natural definition of discrete developable surfaces. This definition, which is remarkably simple, leads to a class of discrete developables which is much more flexible in applications than previous concepts of discrete developables. In this paper, we employ optimization to efficiently compute isometric mappings, conformal mappings and isometric bending of surfaces. We perform geometric modeling of developables, including cutting, gluing and folding. The discrete mappings presented here have applications in both theory and practice: We propose a theory of curvatures derived from a discrete Gauss map as well as a construction of watertight CAD models consisting of developable spline surfaces.

Topics & Concepts

Developable surfacePolygon meshDiscretizationConformal mapMathematicsIsometric exerciseComputer scienceSimple (philosophy)Topology (electrical circuits)GeometrySurface (topology)Mathematical analysisCombinatoricsMedicinePhysical therapyPhilosophyEpistemology3D Shape Modeling and AnalysisAdvanced Numerical Analysis TechniquesComputer Graphics and Visualization Techniques
Quad-mesh based isometric mappings and developable surfaces | Litcius