Hierarchical Structure Recovery of Point‐Sampled Surfaces |
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Authors: | Marco Attene Giuseppe Patanè |
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Affiliation: | Istituto di Matematica Applicata e Tecnologie Informatiche, Consiglio Nazionale delle Ricerche, Italy attene@ge.imati.cnr.it, patane@ge.imati.cnr.it |
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Abstract: | We focus on the class of ‘regular’ models defined by Várady et al. for reverse engineering purposes. Given a 3D surface represented through a dense set of points, we present a novel algorithm that converts to a hierarchical representation . In , the surface is encoded through patches of various shape and size, which form a hierarchical atlas. If belongs to the class of regular models, then captures the most significant features of at all the levels of detail. In this case, we show that can be exploited to interactively select regions of interest on and intuitively re‐design the model. Furthermore, intrinsically encodes a hierarchy of useful ‘segmentations’ of . We present a simple though efficient approach to extract and optimize such segmentations, and we show how they can be used to approximate the input point sets through idealized manifold meshes. |
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Keywords: | hierarchical clustering segmentation shape primitives selection I 3 COMPUTER GRAPHICS I 3 5 Computational Geometry and Object Modeling– Object hierarchies |
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