Normalizing Flows (NF) are powerful likelihood-based generative models that are able to trade off between expressivity and tractability to model complex densities. A now well established research avenue leverages optimal transport (OT) and looks for Monge maps, i.e. models with minimal effort between the source and target distributions. This paper introduces a method based on Brenier's polar factorization theorem to transform any trained NF into a more OT-efficient version without changing the final density. We do so by learning a rearrangement of the source (Gaussian) distribution that minimizes the OT cost between the source and the final density. We further constrain the path leading to the estimated Monge map to lie on a geodesic in the...
International audienceWe introduce a numerical method for extracting minimal geodesics along the gro...
Normalizing flows provide an elegant approach to generative modeling that allows for efficient sampl...
Modeling real-world distributions can often be challenging due to sample data that are subjected to ...
Normalizing Flows (NF) are powerful likelihood-based generative models that are able to trade off be...
A normalizing flow is an invertible mapping between an arbitrary probability distribution and a stan...
National audienceNormalization flows are generic and powerful tools for probabilistic modeling and d...
International audienceWe present a general (i.e., independent of the underlying model) interpolation...
Normalizing flows is a promising avenue in both density estimation and variational inference, which ...
Normalizing flows are constructed from a base distribution with a known density and a diffeomorphism...
15 pages, 4 figures. To appear in the Proceedings of the International Conference on Learning Repres...
International audienceOptimal transport (OT) provides effective tools for comparing and mapping prob...
Optimal transport (OT) provides effective tools for comparing and mapping probability measures. We p...
International audienceThe ability to compare two degenerate probability distributions (i.e. two prob...
Monge map refers to the optimal transport map between two probability distributions and provides a p...
Normalizing flow (NF) has gained popularity over traditional maximum likelihood based methods due to...
International audienceWe introduce a numerical method for extracting minimal geodesics along the gro...
Normalizing flows provide an elegant approach to generative modeling that allows for efficient sampl...
Modeling real-world distributions can often be challenging due to sample data that are subjected to ...
Normalizing Flows (NF) are powerful likelihood-based generative models that are able to trade off be...
A normalizing flow is an invertible mapping between an arbitrary probability distribution and a stan...
National audienceNormalization flows are generic and powerful tools for probabilistic modeling and d...
International audienceWe present a general (i.e., independent of the underlying model) interpolation...
Normalizing flows is a promising avenue in both density estimation and variational inference, which ...
Normalizing flows are constructed from a base distribution with a known density and a diffeomorphism...
15 pages, 4 figures. To appear in the Proceedings of the International Conference on Learning Repres...
International audienceOptimal transport (OT) provides effective tools for comparing and mapping prob...
Optimal transport (OT) provides effective tools for comparing and mapping probability measures. We p...
International audienceThe ability to compare two degenerate probability distributions (i.e. two prob...
Monge map refers to the optimal transport map between two probability distributions and provides a p...
Normalizing flow (NF) has gained popularity over traditional maximum likelihood based methods due to...
International audienceWe introduce a numerical method for extracting minimal geodesics along the gro...
Normalizing flows provide an elegant approach to generative modeling that allows for efficient sampl...
Modeling real-world distributions can often be challenging due to sample data that are subjected to ...