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18 January 2006 POSS: efficient nonlinear optimization for parameterization methods
Fijoy Vadakkumpadan, Yunxia Tong, Yinlong Sun
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Proceedings Volume 6066, Vision Geometry XIV; 60660O (2006) https://doi.org/10.1117/12.643270
Event: Electronic Imaging 2006, 2006, San Jose, California, United States
Abstract
We propose a new, generic method called POSS (Parameterization by Optimization in Spectral Space) to efficiently obtain parameterizations with low distortions for 3D surface meshes. Given a mesh, first we compute a valid initial parameterization using an available method and then express the optimal solution as a linear combination of the initial parameterization and an unknown displacement term. The displacement term is approximated by a linear combination of the eigenvectors with the smallest eigenvalues of a mesh Laplacian. This approximation considerably reduces the number of unknowns while minimizing the deviation from the optimality. Finally, we find a valid parameterization with low distortion using a standard constrained nonlinear optimization procedure. POSS is fast, flexible, generic, and hierarchical. Its advantage has been confirmed by its application to planar parameterizations of surface meshes that represent complex human cortical surfaces. This method has a promising potential to improve the efficiency of all parameterization techniques which involve constrained nonlinear optimization.
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Fijoy Vadakkumpadan, Yunxia Tong, and Yinlong Sun "POSS: efficient nonlinear optimization for parameterization methods", Proc. SPIE 6066, Vision Geometry XIV, 60660O (18 January 2006); https://doi.org/10.1117/12.643270
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KEYWORDS
Direct methods
Brain
Optimization (mathematics)
Image compression
Computer graphics
Image registration
MATLAB
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