Deformation Recovery: Localized Learning for Detail-Preserving Deformations - Archive ouverte HAL
Article Dans Une Revue ACM Transactions on Graphics Année : 2024

Deformation Recovery: Localized Learning for Detail-Preserving Deformations

Résumé

We introduce a novel data-driven approach aimed at designing high-quality shape deformations based on a coarse localized input signal. Unlike previous data-driven methods that require a global shape encoding, we observe that detail-preserving deformations can be estimated reliably without any global context in certain scenarios. Building on this intuition, we leverage Jacobians defined in a one-ring neighborhood as a coarse representation of the deformation. Using this as the input to our neural network, we apply a series of MLPs combined with feature smoothing to learn the Jacobian corresponding to the detail-preserving deformation, from which the embedding is recovered by the standard Poisson solve. Crucially, by removing the dependence on a global encoding, every point becomes a training example, making the supervision particularly lightweight. Moreover, when trained on a class of shapes, our approach demonstrates remarkable generalization across different object categories. Equipped with this novel network, we explore three main tasks: refining an approximate shape correspondence, unsupervised deformation and mapping, and shape editing. Our code is made available at https://github.com/sentient07/LJN.
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Dates et versions

hal-04802784 , version 1 (25-11-2024)

Identifiants

Citer

Ramana Sundararaman, Nicolas Donati, Simone Melzi, Etienne Corman, Maks Ovsjanikov. Deformation Recovery: Localized Learning for Detail-Preserving Deformations. ACM Transactions on Graphics, 2024, 43 (6), pp.1-16. ⟨10.1145/3687968⟩. ⟨hal-04802784⟩
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