Lagrangian particle formulations of the large deformation diffeomorphic
metric mapping algorithm (LDDMM) only allow for the study of a single shape. In
this paper, we introduce and discuss both a theoretical and practical setting
for the simultaneous study of multiple shapes that are either stitched to one
another or slide along a submanifold. The method is described within the
optimal control formalism, and optimality conditions are given, together with
the equations that are needed to implement augmented Lagrangian methods.
Experimental results are provided for stitched and sliding surfaces

Arguillère, Sylvain

Trouvé, Alain

Trélat, Emmanuel

Younes, Laurent

English

arXiv

International audienceLagrangian particle formulations of the large deformation diffeomorphic metric mapping algorithm (LDDMM) can be numerically challenging when the number of particles is large. In this paper, we introduce and discuss numerical schemes useful for surface and image matching, which are based on representing the Eulerian velocity over a finite-dimensional basis that deforms in time. The method is described within the optimal control formalism, and optimality conditions are derived, together with the equations that are needed to implement gradient-based methods. Experimental results are shown, both with surfaces and images

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Multiple shape registration using constrained optimal control

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https://hal.archives-ouvertes.fr/hal-01139640/document

Multiple Shape Registration using Constrained Optimal Control

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Archive Ouverte en Sciences de l'Information et de la Communication

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