Schrödinger Bridge Flow for Unpaired Data Translation

Valentin De Bortoli, Iryna Korshunova, Andriy Mnih, Arnaud Doucet
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Abstract

Mass transport problems arise in many areas of machine learning whereby one wants to compute a map transporting one distribution to another. Generative modeling techniques like Generative Adversarial Networks (GANs) and Denoising Diffusion Models (DDMs) have been successfully adapted to solve such transport problems, resulting in CycleGAN and Bridge Matching respectively. However, these methods do not approximate Optimal Transport (OT) maps, which are known to have desirable properties. Existing techniques approximating OT maps for high-dimensional data-rich problems, such as DDM-based Rectified Flow and Schr\"odinger Bridge procedures, require fully training a DDM-type model at each iteration, or use mini-batch techniques which can introduce significant errors. We propose a novel algorithm to compute the Schr\"odinger Bridge, a dynamic entropy-regularised version of OT, that eliminates the need to train multiple DDM-like models. This algorithm corresponds to a discretisation of a flow of path measures, which we call the Schr\"odinger Bridge Flow, whose only stationary point is the Schr\"odinger Bridge. We demonstrate the performance of our algorithm on a variety of unpaired data translation tasks.
用于非配对数据转换的薛定谔桥流
在机器学习的许多领域都会出现大规模传输问题,即人们希望计算将一个分布传输到另一个分布的地图。生成模型技术,如生成对抗网络(GAN)和去噪扩散模型(DDM),已被成功地用于解决此类传输问题,分别产生了循环生成对抗网络(CycleGAN)和桥匹配(Bridge Matching)。然而,这些方法并不能逼近已知具有理想特性的最优传输(OT)图。现有的针对高维数据丰富问题的近似 OT 地图的技术,如基于 DDM 的整流程序和薛定谔桥程序,需要在每次迭代时完全训练一个 DDM 类型的模型,或者使用可能引入重大误差的迷你批处理技术。我们提出了一种计算 Schr\"odinger Bridge 的新算法,即 OT 的动态熵规则化版本,它无需训练多个类似于 DDM 的模型。该算法对应于路径度量流的离散化,我们称之为薛定谔桥流,其唯一的静止点就是薛定谔桥。我们在各种非配对数据转换任务中演示了我们算法的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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