Matroid Stratification of ML Degrees of Independence Models

arXiv - MATH - Statistics Theory Pub Date : 2023-12-15 DOI:arxiv-2312.10010
Oliver Clarke, Serkan Hoşten, Nataliia Kushnerchuk, Janike Oldekop
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Abstract

We study the maximum likelihood (ML) degree of discrete exponential independence models and models defined by the second hypersimplex. For models with two independent variables, we show that the ML degree is an invariant of a matroid associated to the model. We use this description to explore ML degrees via hyperplane arrangements. For independence models with more variables, we investigate the connection between the vanishing of factors of its principal $A$-determinant and its ML degree. Similarly, for models defined by the second hypersimplex, we determine its principal $A$-determinant and give computational evidence towards a conjectured lower bound of its ML degree.
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ML 独立度模型的矩阵分层
我们研究了离散指数独立模型和第二超复数定义模型的最大似然度(ML)。对于有两个自变量的模型,我们证明最大似然度是与模型相关的矢量的不变量。我们利用这一描述,通过超平面排列来探索 ML 度。对于有更多变量的独立模型,我们研究了其主$A$决定因素的消失与其 ML 度之间的联系。同样,对于由第二超复数定义的模型,我们确定了它的主$A$-决定因素,并给出了其 ML 度的一个猜想下限的计算证据。
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arXiv - MATH - Statistics Theory
arXiv - MATH - Statistics Theory
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