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Main Authors: Nizamani, Awais, Laga, Hamid, Wang, Guanjin, Boussaid, Farid, Bennamoun, Mohammed, Srivastava, Anuj
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2503.03132
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author Nizamani, Awais
Laga, Hamid
Wang, Guanjin
Boussaid, Farid
Bennamoun, Mohammed
Srivastava, Anuj
author_facet Nizamani, Awais
Laga, Hamid
Wang, Guanjin
Boussaid, Farid
Bennamoun, Mohammed
Srivastava, Anuj
contents We propose a novel framework for the statistical analysis of genus-zero 4D surfaces, i.e., 3D surfaces that deform and evolve over time. This problem is particularly challenging due to the arbitrary parameterizations of these surfaces and their varying deformation speeds, necessitating effective spatiotemporal registration. Traditionally, 4D surfaces are discretized, in space and time, before computing their spatiotemporal registrations, geodesics, and statistics. However, this approach may result in suboptimal solutions and, as we demonstrate in this paper, is not necessary. In contrast, we treat 4D surfaces as continuous functions in both space and time. We introduce Dynamic Spherical Neural Surfaces (D-SNS), an efficient smooth and continuous spatiotemporal representation for genus-0 4D surfaces. We then demonstrate how to perform core 4D shape analysis tasks such as spatiotemporal registration, geodesics computation, and mean 4D shape estimation, directly on these continuous representations without upfront discretization and meshing. By integrating neural representations with classical Riemannian geometry and statistical shape analysis techniques, we provide the building blocks for enabling full functional shape analysis. We demonstrate the efficiency of the framework on 4D human and face datasets. The source code and additional results are available at https://4d-dsns.github.io/DSNS/.
format Preprint
id arxiv_https___arxiv_org_abs_2503_03132
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Dynamic Neural Surfaces for Elastic 4D Shape Representation and Analysis
Nizamani, Awais
Laga, Hamid
Wang, Guanjin
Boussaid, Farid
Bennamoun, Mohammed
Srivastava, Anuj
Computer Vision and Pattern Recognition
We propose a novel framework for the statistical analysis of genus-zero 4D surfaces, i.e., 3D surfaces that deform and evolve over time. This problem is particularly challenging due to the arbitrary parameterizations of these surfaces and their varying deformation speeds, necessitating effective spatiotemporal registration. Traditionally, 4D surfaces are discretized, in space and time, before computing their spatiotemporal registrations, geodesics, and statistics. However, this approach may result in suboptimal solutions and, as we demonstrate in this paper, is not necessary. In contrast, we treat 4D surfaces as continuous functions in both space and time. We introduce Dynamic Spherical Neural Surfaces (D-SNS), an efficient smooth and continuous spatiotemporal representation for genus-0 4D surfaces. We then demonstrate how to perform core 4D shape analysis tasks such as spatiotemporal registration, geodesics computation, and mean 4D shape estimation, directly on these continuous representations without upfront discretization and meshing. By integrating neural representations with classical Riemannian geometry and statistical shape analysis techniques, we provide the building blocks for enabling full functional shape analysis. We demonstrate the efficiency of the framework on 4D human and face datasets. The source code and additional results are available at https://4d-dsns.github.io/DSNS/.
title Dynamic Neural Surfaces for Elastic 4D Shape Representation and Analysis
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2503.03132