Measure estimation on manifolds: an optimal transport approach

Vincent Divol

doi:10.1007/s00440-022-01118-z

Measure estimation on manifolds: an optimal transport approach

Vincent Divol

Courant Institute of Mathematical Sciences
New York University

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

Résumé

Assume that we observe i.i.d. points lying close to some unknown d-dimensional C^k submanifold M in a possibly high-dimensional space. We study the problem of reconstructing the probability distribution generating the sample. After remarking that this problem is degenerate for a large class of standard losses (L_p, Hellinger, total variation, etc.), we focus on the Wasserstein loss, for which we build an estimator, based on kernel density estimation, whose rate of convergence depends on d and the regularity s≤ k- 1 of the underlying density, but not on the ambient dimension. In particular, we show that the estimator is minimax and matches previous rates in the literature in the case where the manifold M is a d-dimensional cube. The related problem of the estimation of the volume measure of M for the Wasserstein loss is also considered, for which a minimax estimator is exhibited.

langue originale	Anglais
Pages (de - à)	581-647
Nombre de pages	67
journal	Probability Theory and Related Fields
Volume	183
Numéro de publication	1-2
Les DOIs	https://doi.org/10.1007/s00440-022-01118-z
état	Publié - 1 juin 2022
Modification externe	Oui

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10.1007/s00440-022-01118-z

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title = "Measure estimation on manifolds: an optimal transport approach",

abstract = "Assume that we observe i.i.d. points lying close to some unknown d-dimensional Ck submanifold M in a possibly high-dimensional space. We study the problem of reconstructing the probability distribution generating the sample. After remarking that this problem is degenerate for a large class of standard losses (Lp, Hellinger, total variation, etc.), we focus on the Wasserstein loss, for which we build an estimator, based on kernel density estimation, whose rate of convergence depends on d and the regularity s≤ k- 1 of the underlying density, but not on the ambient dimension. In particular, we show that the estimator is minimax and matches previous rates in the literature in the case where the manifold M is a d-dimensional cube. The related problem of the estimation of the volume measure of M for the Wasserstein loss is also considered, for which a minimax estimator is exhibited.",

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N2 - Assume that we observe i.i.d. points lying close to some unknown d-dimensional Ck submanifold M in a possibly high-dimensional space. We study the problem of reconstructing the probability distribution generating the sample. After remarking that this problem is degenerate for a large class of standard losses (Lp, Hellinger, total variation, etc.), we focus on the Wasserstein loss, for which we build an estimator, based on kernel density estimation, whose rate of convergence depends on d and the regularity s≤ k- 1 of the underlying density, but not on the ambient dimension. In particular, we show that the estimator is minimax and matches previous rates in the literature in the case where the manifold M is a d-dimensional cube. The related problem of the estimation of the volume measure of M for the Wasserstein loss is also considered, for which a minimax estimator is exhibited.

AB - Assume that we observe i.i.d. points lying close to some unknown d-dimensional Ck submanifold M in a possibly high-dimensional space. We study the problem of reconstructing the probability distribution generating the sample. After remarking that this problem is degenerate for a large class of standard losses (Lp, Hellinger, total variation, etc.), we focus on the Wasserstein loss, for which we build an estimator, based on kernel density estimation, whose rate of convergence depends on d and the regularity s≤ k- 1 of the underlying density, but not on the ambient dimension. In particular, we show that the estimator is minimax and matches previous rates in the literature in the case where the manifold M is a d-dimensional cube. The related problem of the estimation of the volume measure of M for the Wasserstein loss is also considered, for which a minimax estimator is exhibited.

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Measure estimation on manifolds: an optimal transport approach

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