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Overall Objectives
Bilateral Contracts and Grants with Industry
Bibliography
Overall Objectives
Bilateral Contracts and Grants with Industry
Bibliography


Section: New Results

Riemannian Geometry Learning for Disease Progression Modelling

Participants : Maxime Louis, Raphael Couronne, Igor Koval, Benjamin Charlier, Stanley Durrleman.

The analysis of longitudinal trajectories is a longstanding problem in medical imaging which is often tackled in the context of Riemannian geometry: the set of observations is assumed to lie on an a priori known Riemannian manifold. When dealing with high-dimensional or complex data, it is in general not possible to design a Riemannian geometry of relevance. In this work, we perform Riemannian manifold learning in association with the statistical task of longitudinal trajectory analysis. After inference, we obtain both a submanifold of observations and a Riemannian metric so that the observed progressions are geodesics. This is achieved using a deep generative network, which maps trajectories in a low-dimensional Euclidean space to the observation space.

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