Moment-SoS methods for optimal transport problems

IF 2.1 2区 数学 Q1 MATHEMATICS, APPLIED
Olga Mula, Anthony Nouy
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引用次数: 0

Abstract

Most common optimal transport (OT) solvers are currently based on an approximation of underlying measures by discrete measures. However, it is sometimes relevant to work only with moments of measures instead of the measure itself, and many common OT problems can be formulated as moment problems (the most relevant examples being \(L^p\)-Wasserstein distances, barycenters, and Gromov–Wasserstein discrepancies on Euclidean spaces). We leverage this fact to develop a generalized moment formulation that covers these classes of OT problems. The transport plan is represented through its moments on a given basis, and the marginal constraints are expressed in terms of moment constraints. A practical computation then consists in considering a truncation of the involved moment sequences up to a certain order, and using the polynomial sums-of-squares hierarchy for measures supported on semi-algebraic sets. We prove that the strategy converges to the solution of the OT problem as the order increases. We also show how to approximate linear quantities of interest, and how to estimate the support of the optimal transport map from the computed moments using Christoffel–Darboux kernels. Numerical experiments illustrate the good behavior of the approach.

Abstract Image

优化运输问题的矩-SoS 方法
目前,大多数常见的最优传输(OT)求解器都是基于离散度量对基础度量的近似。然而,有时只处理度量的矩而不是度量本身是有意义的,而且许多常见的 OT 问题都可以表述为矩问题(最相关的例子是 \(L^p\)-Wasserstein 距离、重心和欧几里得空间上的 Gromov-Wasserstein 差异)。我们利用这一事实,开发了一种广义的矩公式,涵盖了这些类型的加时赛问题。运输计划通过其在给定基础上的矩来表示,边际约束则用矩约束来表示。然后,实际计算包括考虑对所涉及的矩序列进行截断,直到达到一定的阶次,并使用多项式平方和层次结构来处理半代数集合上的度量。我们证明,随着阶数的增加,该策略收敛于 OT 问题的解。我们还展示了如何逼近感兴趣的线性量,以及如何使用 Christoffel-Darboux 核从计算矩估计最优传输图的支持度。数值实验说明了该方法的良好性能。
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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来源期刊
Numerische Mathematik
Numerische Mathematik 数学-应用数学
CiteScore
4.10
自引率
4.80%
发文量
72
审稿时长
6-12 weeks
期刊介绍: Numerische Mathematik publishes papers of the very highest quality presenting significantly new and important developments in all areas of Numerical Analysis. "Numerical Analysis" is here understood in its most general sense, as that part of Mathematics that covers: 1. The conception and mathematical analysis of efficient numerical schemes actually used on computers (the "core" of Numerical Analysis) 2. Optimization and Control Theory 3. Mathematical Modeling 4. The mathematical aspects of Scientific Computing
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