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Unbalancedness in Neural Monge Maps Improves Unpaired Domain Translation.
In: (12th International Conference on Learning Representations, ICLR 2024, 7-11 May 2024, Hybrid, Vienna). 2024.
In optimal transport (OT), a Monge map is known as a mapping that transports a
source distribution to a target distribution in the most cost-efficient way. Recently,
multiple neural estimators for Monge maps have been developed and applied in
diverse unpaired domain translation tasks, e.g. in single-cell biology and computer
vision. However, the classic OT framework enforces mass conservation, which
makes it prone to outliers and limits its applicability in real-world scenarios. The
latter can be particularly harmful in OT domain translation tasks, where the relative
position of a sample within a distribution is explicitly taken into account. While un-
balanced OT tackles this challenge in the discrete setting, its integration into neural
Monge map estimators has received limited attention. We propose a theoretically
grounded method to incorporate unbalancedness into any Monge map estimator.
We improve existing estimators to model cell trajectories over time and to predict
cellular responses to perturbations. Moreover, our approach seamlessly integrates
with the OT flow matching (OT-FM) framework. While we show that OT-FM
performs competitively in image translation, we further improve performance by
incorporating unbalancedness (UOT-FM), which better preserves relevant features.
We hence establish UOT-FM as a principled method for unpaired image translation.
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Publikationstyp
Artikel: Konferenzbeitrag
Konferenztitel
12th International Conference on Learning Representations, ICLR 2024
Konferzenzdatum
7-11 May 2024
Konferenzort
Hybrid, Vienna
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