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Article Dans Une Revue Discrete and Computational Geometry Année : 2022

Corrected Curvature Measures

Jacques-Olivier Lachaud
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Boris Thibert

Résumé

This paper proposes a new mathematical and computational tool for infering the geometry of shapes known only through approximations such as triangulated or digital surfaces. The main idea is to decouple the position of the shape boundary from its normal vector field. To do so, we extend a classical tool of geometric measure theory, the normal cycle, so that it takes as input not only a surface but also a normal vector field. We formalize it as a current in the oriented Grassmann bundle R^3 × S^2. By choosing adequate differential forms, we define geometric measures like area, mean and Gaussian curvatures. We then show the stability of these measures when both position and normal input data are approximations of the underlying continuous shape. As a byproduct, our tool is able to correctly estimate curvatures over polyhedral approximations of shapes with explicit bounds, even when their natural normal are not correct, as long as an external convergent normal vector field is provided. Finally, the accuracy, convergence and stability under noise perturbation is evaluated experimentally onto digital surfaces.
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Dates et versions

hal-02193774 , version 1 (28-07-2019)

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Jacques-Olivier Lachaud, Pascal Romon, Boris Thibert. Corrected Curvature Measures. Discrete and Computational Geometry, 2022, 68, pp.477-524. ⟨10.1007/s00454-022-00399-4⟩. ⟨hal-02193774⟩
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