Many natural shapes have most of their characterizing features concentrated over a few regions in space. For example, humans and animals have distinctive head shapes, while inorganic objects like chairs and airplanes are made of well-localized functional parts with specific geometric features. Often, these features are strongly correlated – a modification of facial traits in a quadruped should induce changes to the body structure. However, in shape modelling applications, these types of edits are among the hardest ones; they require high precision, but also a global awareness of the entire shape. Even in the deep learning era, obtaining manipulable representations that satisfy such requirements is an open problem posing significant constraints. In this work, we address this problem by defining a data-driven model upon a family of linear operators (variants of the mesh Laplacian), whose spectra capture global and local geometric properties of the shape at hand. Modifications to these spectra are translated to semantically valid deformations of the corresponding surface. By explicitly decoupling the global from the local surface features, our pipeline allows to perform local edits while simultaneously maintaining a global stylistic coherence. We empirically demonstrate how our learning-based model generalizes to shape representations not seen at training time, and we systematically analyze different choices of local operators over diverse shape categories.

Localized Shape Modelling with Global Coherence: An Inverse Spectral Approach / Pegoraro, M.; Melzi, S.; Castellani, U.; Marin, R.; Rodolà, E.. - In: COMPUTER GRAPHICS FORUM. - ISSN 0167-7055. - 41:5(2022), pp. 13-24. (Intervento presentato al convegno Symposium on Geometry Processing 2022 tenutosi a Online) [10.1111/cgf.14599].

Localized Shape Modelling with Global Coherence: An Inverse Spectral Approach

M. Pegoraro;S. Melzi;R. Marin;E. Rodolà
2022

Abstract

Many natural shapes have most of their characterizing features concentrated over a few regions in space. For example, humans and animals have distinctive head shapes, while inorganic objects like chairs and airplanes are made of well-localized functional parts with specific geometric features. Often, these features are strongly correlated – a modification of facial traits in a quadruped should induce changes to the body structure. However, in shape modelling applications, these types of edits are among the hardest ones; they require high precision, but also a global awareness of the entire shape. Even in the deep learning era, obtaining manipulable representations that satisfy such requirements is an open problem posing significant constraints. In this work, we address this problem by defining a data-driven model upon a family of linear operators (variants of the mesh Laplacian), whose spectra capture global and local geometric properties of the shape at hand. Modifications to these spectra are translated to semantically valid deformations of the corresponding surface. By explicitly decoupling the global from the local surface features, our pipeline allows to perform local edits while simultaneously maintaining a global stylistic coherence. We empirically demonstrate how our learning-based model generalizes to shape representations not seen at training time, and we systematically analyze different choices of local operators over diverse shape categories.
2022
Symposium on Geometry Processing 2022
shape from spectrum; shape modelling
04 Pubblicazione in atti di convegno::04c Atto di convegno in rivista
Localized Shape Modelling with Global Coherence: An Inverse Spectral Approach / Pegoraro, M.; Melzi, S.; Castellani, U.; Marin, R.; Rodolà, E.. - In: COMPUTER GRAPHICS FORUM. - ISSN 0167-7055. - 41:5(2022), pp. 13-24. (Intervento presentato al convegno Symposium on Geometry Processing 2022 tenutosi a Online) [10.1111/cgf.14599].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1656571
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