Confidence regions in Wasserstein distributionally robust estimation

Author:

Blanchet Jose1,Murthy Karthyek2,Si Nian1

Affiliation:

1. Department of Management Science and Engineering, Stanford University, Huang Engineering Center, 475 Via Ortega, Stanford, California 94305, U.S.A

2. Engineering Systems and Design pillar, Singapore University of Technology and Design, 8 Somapah Road, Singapore 487372

Abstract

Summary Estimators based on Wasserstein distributionally robust optimization are obtained as solutions of min-max problems in which the statistician selects a parameter minimizing the worst-case loss among all probability models within a certain distance from the underlying empirical measure in a Wasserstein sense. While motivated by the need to identify optimal model parameters or decision choices that are robust to model misspecification, these distributionally robust estimators recover a wide range of regularized estimators, including square-root lasso and support vector machines, among others. This paper studies the asymptotic normality of these distributionally robust estimators as well as the properties of an optimal confidence region induced by the Wasserstein distributionally robust optimization formulation. In addition, key properties of min-max distributionally robust optimization problems are also studied; for example, we show that distributionally robust estimators regularize the loss based on its derivative, and we also derive general sufficient conditions which show the equivalence between the min-max distributionally robust optimization problem and the corresponding max-min formulation.

Publisher

Oxford University Press (OUP)

Subject

Applied Mathematics,Statistics, Probability and Uncertainty,General Agricultural and Biological Sciences,Agricultural and Biological Sciences (miscellaneous),General Mathematics,Statistics and Probability

Reference34 articles.

1. Distributionally robust groupwise regularization estimator;Blanchet,;Proc. Mach. Learn. Res.,2017

2. Robust Wasserstein profile inference and applications to machine learning;Blanchet,;J. Appl. Prob.,2019

3. Data-driven optimal transport cost selection for distributionally robust optimization;Blanchet,;Proc. Winter Simulation Conf. (WSC),2019

4. Quantifying distributional model risk via optimal transport;Blanchet,;Math. Oper. Res.,2019

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