Isometric Non-Rigid Shape-from-Motion with Riemannian Geometry Solved in Linear Time - Archive ouverte HAL
Article Dans Une Revue IEEE Transactions on Pattern Analysis and Machine Intelligence Année : 2017

Isometric Non-Rigid Shape-from-Motion with Riemannian Geometry Solved in Linear Time

Daniel Pizarro
  • Fonction : Auteur
Adrien Bartoli
  • Fonction : Auteur

Résumé

We study Isometric Non-Rigid Shape-from-Motion (Iso-NRSfM): given multiple intrinsically calibrated monocular images, we want to reconstruct the time-varying 3D shape of a thin-shell object undergoing isometric deformations. We show that Iso-NRSfM is solvable from local warps, the inter-image geometric transformations. We propose a new theoretical framework based on the Riemmanian manifold to represent the unknown 3D surfaces as embeddings of the camera's retinal plane. This allows us to use the manifold's metric tensor and Christoffel Symbol (CS) fields. These are expressed in terms of the first and second order derivatives of the inverse-depth of the 3D surfaces, which are the unknowns for Iso-NRSfM. We prove that the metric tensor and the CS are related across images by simple rules depending only on the warps. This forms a set of important theoretical results. We show that current solvers cannot solve for the first and second order derivatives of the inverse-depth simultaneously. We thus propose an iterative solution in two steps. 1) We solve for the first order derivatives assuming that the second order derivatives are known. We initialise the second order derivatives to zero, which is an infinitesimal planarity assumption. We derive a system of two cubics in two variables for each image pair. The sum-of-squares of these polynomials is independent of the number of images and can be solved globally, forming a well-posed problem for N ≥ 3 images. 2) We solve for the second order derivatives by initialising the first order derivatives from the previous step. We solve a linear system of 4N-4 equations in three variables. We iterate until the first order derivatives converge. The solution for the first order derivatives gives the surfaces' normal fields which we integrate to recover the 3D surfaces. The proposed method outperforms existing work in terms of accuracy and computation cost on synthetic and real datasets.
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Dates et versions

hal-04391633 , version 1 (12-01-2024)

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  • HAL Id : hal-04391633 , version 1

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Shaifali Parashar, Daniel Pizarro, Adrien Bartoli. Isometric Non-Rigid Shape-from-Motion with Riemannian Geometry Solved in Linear Time. IEEE Transactions on Pattern Analysis and Machine Intelligence, 2017. ⟨hal-04391633⟩
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