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Journal Articles Revue Electronique Francophone d'Informatique Graphique Year : 2009

Interpolation multiresolution de formes 2D

Abstract

We present a multiresolution \textit{morphing} algorithm using "as-rigid-as-possible" shape interpolation combined with an angle-length based multiresolution decomposition of simple 2D piecewise curves. This novel multiresolution representation is defined intrinsically and has the advantage that the details' orientation follows any deformation naturally. The multiresolution \textit{morphing} algorithm consists of transforming separately the coarse and detail coefficients of the multiresolution decomposition. Thus all LoD (level of detail) applications like LoD display, compression, LoD editing etc.\ can be applied directly to all morphs without any extra computation. Furthermore, the algorithm can robustly morph between very large size polygons with many local details as illustrated in numerous figures. The intermediate morphs behave natural and least-distorting due to the particular intrinsic multiresolution representation.
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Dates and versions

hal-00387038 , version 1 (22-05-2009)

Identifiers

  • HAL Id : hal-00387038 , version 1

Cite

Mélanie Cornillac, Baptiste Caramiaux, Stefanie Hahmann, Georges-Pierre Bonneau. Interpolation multiresolution de formes 2D. Revue Electronique Francophone d'Informatique Graphique, 2009, 3 (1), pp.21-29. ⟨hal-00387038⟩
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