BaRe-ESA: A Riemannian Framework for Unregistered Human Body Shapes

November 23, 2022 Β· Declared Dead Β· πŸ› IEEE International Conference on Computer Vision

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Authors Emmanuel Hartman, Emery Pierson, Martin Bauer, Nicolas Charon, Mohamed Daoudi arXiv ID 2211.13185 Category cs.CV: Computer Vision Citations 7 Venue IEEE International Conference on Computer Vision Last Checked 4 months ago
Abstract
We present Basis Restricted Elastic Shape Analysis (BaRe-ESA), a novel Riemannian framework for human body scan representation, interpolation and extrapolation. BaRe-ESA operates directly on unregistered meshes, i.e., without the need to establish prior point to point correspondences or to assume a consistent mesh structure. Our method relies on a latent space representation, which is equipped with a Riemannian (non-Euclidean) metric associated to an invariant higher-order metric on the space of surfaces. Experimental results on the FAUST and DFAUST datasets show that BaRe-ESA brings significant improvements with respect to previous solutions in terms of shape registration, interpolation and extrapolation. The efficiency and strength of our model is further demonstrated in applications such as motion transfer and random generation of body shape and pose.
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