J. Chuang, C. Tsai, and M. K. Skeletonization of three-dimensional object using generalized potential field. IEEE Trans. Pattern Analysis and Machine Intelligence, 22(11):1241--1251, 2000. Home/Search Document Not in Database Summary Related Articles Check |
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Skeleton Extraction of 3D Objects with Radial Basis Functions - Ma, Wu, Ouhyoung (2003) (Correct)
....algorithm to extract skeleton from volumetric data. Based on the precalculation distance field, the algorithm first finds the deepest voxels as the centerline, which becomes the initial skeleton. After that, voxels in the skeleton are discarded recursively to refine the skeleton. Chung et al. [6] use a force field model to construct skeletons. They assume each polygonal face of an object produces a force field. They push each node following the force field to a force balanced position as the skeleton candidate. Finally, they connect all of these nodes to get the result. 2. PROBLEM ....
J.H.Chung,C.H.Tsai,andM.C.Ko. Skeletonization of three-dimensional object using generalized potential field. IEEE Transaction on Pattern Analysis and Machine Intelligence, 22(11):1241--1251, 2000.
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J. Chuang, C. Tsai, and M. K. Skeletonization of three-dimensional object using generalized potential field. IEEE Trans. Pattern Analysis and Machine Intelligence, 22(11):1241--1251, 2000.
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J.-H. Chuang, C.-H. Tsai, and M.-C. Ko, "Skeletonization of Three-Dimensional Object Using Generalized Potential Field," IEEE Transactions on Pattern Analysis and Machine Intelligence, Vol. 22, no.11, pp. 1241-1251, November 2000.
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