ACM SIGGRAPH 2010 papers
Parameterizing subdivision surfaces
ACM SIGGRAPH 2010 papers
SMI 2011: Full Paper: Displaced subdivision surfaces of animated meshes
Computers and Graphics
SMI 2011: Full Paper: Template-based quadrilateral meshing
Computers and Graphics
SMI 2011: Full Paper: A topology-preserving optimization algorithm for polycube mapping
Computers and Graphics
Simple quad domains for field aligned mesh parametrization
Proceedings of the 2011 SIGGRAPH Asia Conference
Global parametrization of range image sets
Proceedings of the 2011 SIGGRAPH Asia Conference
Global parametrization by incremental flattening
ACM Transactions on Graphics (TOG) - SIGGRAPH 2012 Conference Proceedings
Constructing common base domain by cues from Voronoi diagram
Graphical Models
Proceedings of the 17th International Conference on 3D Web Technology
Improving the Parameterization of Approximate Subdivision Surfaces
Computer Graphics Forum
Controlled-distortion constrained global parametrization
ACM Transactions on Graphics (TOG) - SIGGRAPH 2013 Conference Proceedings
Integer-grid maps for reliable quad meshing
ACM Transactions on Graphics (TOG) - SIGGRAPH 2013 Conference Proceedings
Coarse-grained multiresolution structures for mobile exploration of gigantic surface models
SIGGRAPH Asia 2013 Symposium on Mobile Graphics and Interactive Applications
Special Section on CAD/Graphics 2013: Geometric multi-covering
Computers and Graphics
Special Section on Graphics Interface: Atlas of connectivity maps
Computers and Graphics
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In this paper, we propose a robust, automatic technique to build a global hi-quality parameterization of a two-manifold triangular mesh. An adaptively chosen 2D domain of the parameterization is built as part of the process. The produced parameterization exhibits very low isometric distortion, because it is globally optimized to preserve both areas and angles. The domain is a collection of equilateral triangular 2D regions enriched with explicit adjacency relationships (it is abstract in the sense that no 3D embedding is necessary). It is tailored to minimize isometric distortion, resulting in excellent parameterization qualities, even when meshes with complex shape and topology are mapped into domains composed of a small number of large continuous regions. Moreover, this domain is, in turn, remapped into a collection of 2D square regions, unlocking many advantages found in quad-based domains (e.g., ease of packing). The technique is tested on a variety of cases, including challenging ones, and compares very favorably with known approaches. An open-source implementation is made available.