Subspace detours meet Gromov–Wasserstein

Clément Bonet; Titouan Vayer; Nicolas Courty; François Septier; Lucas Drumetz

doi:10.3390/a14120366

Subspace detours meet Gromov–Wasserstein

Clément Bonet
, Titouan Vayer
, Nicolas Courty
, François Septier
, Lucas Drumetz

Université Bretagne Sud
Ecole Normale Supérieure de Lyon
LAB-STICC

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

In the context of optimal transport (OT) methods, the subspace detour approach was recently proposed by Muzellec and Cuturi. It consists of first finding an optimal plan between the measures projected on a wisely chosen subspace and then completing it in a nearly optimal transport plan on the whole space. The contribution of this paper is to extend this category of methods to the Gromov–Wasserstein problem, which is a particular type of OT distance involving the specific geometry of each distribution. After deriving the associated formalism and properties, we give an experimental illustration on a shape matching problem. We also discuss a specific cost for which we can show connections with the Knothe–Rosenblatt rearrangement.

langue originale	Anglais
Numéro d'article	366
journal	Algorithms
Volume	14
Numéro de publication	12
Les DOIs	https://doi.org/10.3390/a14120366
état	Publié - 1 déc. 2021
Modification externe	Oui

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10.3390/a14120366

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title = "Subspace detours meet Gromov–Wasserstein",

abstract = "In the context of optimal transport (OT) methods, the subspace detour approach was recently proposed by Muzellec and Cuturi. It consists of first finding an optimal plan between the measures projected on a wisely chosen subspace and then completing it in a nearly optimal transport plan on the whole space. The contribution of this paper is to extend this category of methods to the Gromov–Wasserstein problem, which is a particular type of OT distance involving the specific geometry of each distribution. After deriving the associated formalism and properties, we give an experimental illustration on a shape matching problem. We also discuss a specific cost for which we can show connections with the Knothe–Rosenblatt rearrangement.",

keywords = "Gromov–Wasserstein, Knothe–Rosenblatt, Optimal transport, Subspace detours",

author = "Cl{\'e}ment Bonet and Titouan Vayer and Nicolas Courty and Fran{\c c}ois Septier and Lucas Drumetz",

note = "Publisher Copyright: {\textcopyright} 2021 by the authors. Licensee MDPI, Basel, Switzerland.",

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doi = "10.3390/a14120366",

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T1 - Subspace detours meet Gromov–Wasserstein

AU - Bonet, Clément

AU - Vayer, Titouan

AU - Courty, Nicolas

AU - Septier, François

AU - Drumetz, Lucas

PY - 2021/12/1

Y1 - 2021/12/1

N2 - In the context of optimal transport (OT) methods, the subspace detour approach was recently proposed by Muzellec and Cuturi. It consists of first finding an optimal plan between the measures projected on a wisely chosen subspace and then completing it in a nearly optimal transport plan on the whole space. The contribution of this paper is to extend this category of methods to the Gromov–Wasserstein problem, which is a particular type of OT distance involving the specific geometry of each distribution. After deriving the associated formalism and properties, we give an experimental illustration on a shape matching problem. We also discuss a specific cost for which we can show connections with the Knothe–Rosenblatt rearrangement.

AB - In the context of optimal transport (OT) methods, the subspace detour approach was recently proposed by Muzellec and Cuturi. It consists of first finding an optimal plan between the measures projected on a wisely chosen subspace and then completing it in a nearly optimal transport plan on the whole space. The contribution of this paper is to extend this category of methods to the Gromov–Wasserstein problem, which is a particular type of OT distance involving the specific geometry of each distribution. After deriving the associated formalism and properties, we give an experimental illustration on a shape matching problem. We also discuss a specific cost for which we can show connections with the Knothe–Rosenblatt rearrangement.

KW - Gromov–Wasserstein

KW - Knothe–Rosenblatt

KW - Optimal transport

KW - Subspace detours

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DO - 10.3390/a14120366

M3 - Article

AN - SCOPUS:85121447589

SN - 1999-4893

VL - 14

JO - Algorithms

JF - Algorithms

IS - 12

M1 - 366

ER -

Subspace detours meet Gromov–Wasserstein

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