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Degrees of the Wasserstein distance to small toric models

Greg DePaul, Serkan Hoşten, Nilava Metya and Ikenna Nometa
Vol. 15 (2024), No. 2, 249–267
DOI: 10.2140/astat.2024.15.249
Abstract

The study of the closest point(s) on a statistical model from a given distribution in the probability simplex with respect to a fixed Wasserstein metric gives rise to a polyhedral norm distance optimization problem. There are two components to the complexity of determining the Wasserstein distance from a data point to a model. One is the combinatorial complexity that is governed by the combinatorics of the Lipschitz polytope of the finite metric to be used. Another is the algebraic complexity, which is governed by the polar degrees of the Zariski closure of the model. We find formulas for the polar degrees of rational normal scrolls and graphical models whose underlying graphs are star trees. Also, the polar degrees of the graphical models with four binary random variables where the graphs are a path on four vertices and the four-cycle, as well as for small, no-three-way interaction models, are computed. We investigate the algebraic degree of computing the Wasserstein distance to a small subset of these models. It is observed that this algebraic degree is typically smaller than the corresponding polar degree.

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Keywords
Wasserstein distance, algebraic degree, polar degree, rational normal scroll, Hirzebruch varieties, toric model
Mathematical Subject Classification
Primary: 13P15, 13P25, 14J26, 14M25, 62R01
Secondary: 14Q20
Milestones
Received: 14 February 2024
Revised: 30 April 2024
Accepted: 3 May 2024
Published: 3 December 2024
Authors
Greg DePaul
University of California
Davis, CA
United States
Serkan Hoşten
San Francisco State University
San Francisco, CA
United States
Nilava Metya
Rutgers University
Piscataway, NJ
United States
Ikenna Nometa
University of Hawai’i at Mānoa
Honolulu, HI
United States
© 2024 MSP (Mathematical Sciences Publishers).