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Linear optimal transport embedding: provable Wasserstein classification for certain rigid transformations and perturbations

Caroline Moosmüller, Alexander Cloninger

2022Information and Inference A Journal of the IMA23 citationsDOI

Abstract

Abstract Discriminating between distributions is an important problem in a number of scientific fields. This motivated the introduction of Linear Optimal Transportation (LOT), which embeds the space of distributions into an $L^2$-space. The transform is defined by computing the optimal transport of each distribution to a fixed reference distribution and has a number of benefits when it comes to speed of computation and to determining classification boundaries. In this paper, we characterize a number of settings in which LOT embeds families of distributions into a space in which they are linearly separable. This is true in arbitrary dimension, and for families of distributions generated through perturbations of shifts and scalings of a fixed distribution. We also prove conditions under which the $L^2$ distance of the LOT embedding between two distributions in arbitrary dimension is nearly isometric to Wasserstein-2 distance between those distributions. This is of significant computational benefit, as one must only compute $N$ optimal transport maps to define the $N^2$ pairwise distances between $N$ distributions. We demonstrate the benefits of LOT on a number of distribution classification problems.

Topics & Concepts

EmbeddingDimension (graph theory)Pairwise comparisonSeparable spaceMathematicsDistribution (mathematics)Space (punctuation)ComputationProbability distributionMathematical optimizationApplied mathematicsStatistical physicsMathematical analysisCombinatoricsComputer scienceAlgorithmStatisticsPhysicsArtificial intelligenceOperating systemGenerative Adversarial Networks and Image SynthesisMedical Image Segmentation TechniquesCell Image Analysis Techniques
Linear optimal transport embedding: provable Wasserstein classification for certain rigid transformations and perturbations | Litcius