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Computing the Distance between unbalanced Distributions -- The flat Metric

Main:51 Pages
16 Figures
Bibliography:1 Pages
8 Tables
Appendix:1 Pages
Abstract

We provide an implementation to compute the flat metric in any dimension. The flat metric, also called dual bounded Lipschitz distance, generalizes the well-known Wasserstein distance W1W_1 to the case that the distributions are of unequal total mass. Thus, our implementation adapts very well to mass differences and uses them to distinguish between different distributions. This is of particular interest for unbalanced optimal transport tasks and for the analysis of data distributions where the sample size is important or normalization is not possible. The core of the method is based on a neural network to determine an optimal test function realizing the distance between two given measures. Special focus was put on achieving comparability of pairwise computed distances from independently trained networks. We tested the quality of the output in several experiments where ground truth was available as well as with simulated data.

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@article{schmidt2025_2308.01039,
  title={ Computing the Distance between unbalanced Distributions -- The flat Metric },
  author={ Henri Schmidt and Christian Düll },
  journal={arXiv preprint arXiv:2308.01039},
  year={ 2025 }
}
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