Title :
Pairwise Harmonics for Shape Analysis
Author :
Youyi Zheng ; Chiew-Lan Tai ; Zhang, Enxia ; Pengfei Xu
Author_Institution :
Geometric Modeling & Sci. Visualization Center, King Abdullah Univ. of Sci. & Technol., Thuwal, Saudi Arabia
Abstract :
This paper introduces a simple yet effective shape analysis mechanism for geometry processing. Unlike traditional shape analysis techniques which compute descriptors per surface point up to certain neighborhoods, we introduce a shape analysis framework in which the descriptors are based on pairs of surface points. Such a pairwise analysis approach leads to a new class of shape descriptors that are more global, discriminative, and can effectively capture the variations in the underlying geometry. Specifically, we introduce new shape descriptors based on the isocurves of harmonic functions whose global maximum and minimum occur at the point pair. We show that these shape descriptors can infer shape structures and consistently lead to simpler and more efficient algorithms than the state-of-the-art methods for three applications: intrinsic reflectional symmetry axis computation, matching shape extremities, and simultaneous surface segmentation and skeletonization.
Keywords :
geometry; harmonics; image matching; image segmentation; shape recognition; geometry processing; global maximum; global minimum; harmonic functions; intrinsic reflectional symmetry axis computation; matching shape extremities; pairwise analysis approach; pairwise harmonics; shape analysis framework; shape analysis mechanism; shape analysis techniques; shape descriptors; shape structures; state-of-the-art methods; surface segmentation; surface skeletonization; Complexity theory; Face; Geometry; Harmonic analysis; Shape; Shape measurement; Surface treatment; Shape analysis; intrinsic symmetry; pairwise harmonics; segmentation and skeletonization; shape correspondence;
Journal_Title :
Visualization and Computer Graphics, IEEE Transactions on
DOI :
10.1109/TVCG.2012.309
