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Likelihood geometry of reflexive polytopes

Carlos Améndola and Janike Oldekop
Vol. 15 (2024), No. 1, 113–143
DOI: 10.2140/astat.2024.15.113
Abstract

We study the problem of maximum likelihood (ML) estimation for statistical models defined by reflexive polytopes. Our focus is on the maximum likelihood degree of these models as an algebraic measure of complexity of the corresponding optimization problem. We compute the ML degrees of all 4319 classes of three-dimensional reflexive polytopes, and observe some surprising behavior in terms of the presence of gaps between ML degrees and degrees of the associated toric varieties. We interpret these drops in the context of discriminants and prove formulas for the ML degree for families of reflexive polytopes, including the hypercube and its dual, the cross polytope, in arbitrary dimension. In particular, we determine a family of embeddings for the d-cube that implies ML degree one. Finally, we discuss generalized constructions of families of reflexive polytopes in terms of their ML degrees.

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Keywords
likelihood geometry, reflexive polytopes, maximum likelihood estimation
Mathematical Subject Classification
Primary: 14M25, 52B12, 52B20, 62F10, 62R01
Milestones
Received: 29 November 2023
Accepted: 3 May 2024
Published: 17 July 2024
Authors
Carlos Améndola
Institut für Mathematik
Technische Universität Berlin
Berlin
Germany
Janike Oldekop
Institut für Mathematik
Technische Universität Berlin
Berlin
Germany
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