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Autori principali: Chen, Yongxin, Georgiou, Tryphon, Pavon, Michele
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2510.27120
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author Chen, Yongxin
Georgiou, Tryphon
Pavon, Michele
author_facet Chen, Yongxin
Georgiou, Tryphon
Pavon, Michele
contents We show that the continuous-time gradient descent in Rn can be viewed as an optimal controlled evolution for a suitable action functional; a similar result holds for stochastic gradient descent. We then provide an analogous characterization for the Wasserstein gradient flow of the (relative) entropy, with an action that mirrors the classical case where the Euclidean gradient is replaced by the Wasserstein gradient of the relative entropy. In the small-step limit, these continuous-time actions align with the Jordan Kinderlehrer Otto scheme. Next, we consider gradient flows for the relative entropy over a Wasserstein product space-a study motivated by the stochastic-control formulation of Schrodinger bridges. We characterize the product-space steepest descent as the solution to a variational problem with two control velocities and a product-space Wasserstein gradient, and we show that the induced fluxes in the two components are equal and opposite. This framework suggests applications to the optimal control evolution of microrobotic swarms that can communicate their present distribution to the other swarm.
format Preprint
id arxiv_https___arxiv_org_abs_2510_27120
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Gradient Flows as Optimal Controlled Evolutions: From Rn to Wasserstein product spaces
Chen, Yongxin
Georgiou, Tryphon
Pavon, Michele
Optimization and Control
47N70
We show that the continuous-time gradient descent in Rn can be viewed as an optimal controlled evolution for a suitable action functional; a similar result holds for stochastic gradient descent. We then provide an analogous characterization for the Wasserstein gradient flow of the (relative) entropy, with an action that mirrors the classical case where the Euclidean gradient is replaced by the Wasserstein gradient of the relative entropy. In the small-step limit, these continuous-time actions align with the Jordan Kinderlehrer Otto scheme. Next, we consider gradient flows for the relative entropy over a Wasserstein product space-a study motivated by the stochastic-control formulation of Schrodinger bridges. We characterize the product-space steepest descent as the solution to a variational problem with two control velocities and a product-space Wasserstein gradient, and we show that the induced fluxes in the two components are equal and opposite. This framework suggests applications to the optimal control evolution of microrobotic swarms that can communicate their present distribution to the other swarm.
title Gradient Flows as Optimal Controlled Evolutions: From Rn to Wasserstein product spaces
topic Optimization and Control
47N70
url https://arxiv.org/abs/2510.27120