Efficiently Learning Ising Models on Arbitrary Graphs

Proceedings of the forty-seventh annual ACM symposium on Theory of Computing Pub Date : 2014-11-22 DOI:10.1145/2746539.2746631

Guy Bresler

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引用次数: 178

Abstract

graph underlying an Ising model from i.i.d. samples. Over the last fifteen years this problem has been of significant interest in the statistics, machine learning, and statistical physics communities, and much of the effort has been directed towards finding algorithms with low computational cost for various restricted classes of models. Nevertheless, for learning Ising models on general graphs with p nodes of degree at most d, it is not known whether or not it is possible to improve upon the pd computation needed to exhaustively search over all possible neighborhoods for each node. In this paper we show that a simple greedy procedure allows to learn the structure of an Ising model on an arbitrary bounded-degree graph in time on the order of p2. We make no assumptions on the parameters except what is necessary for identifiability of the model, and in particular the results hold at low-temperatures as well as for highly non-uniform models. The proof rests on a new structural property of Ising models: we show that for any node there exists at least one neighbor with which it has a high mutual information.

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有效地学习任意图上的Ising模型

基于iid样本的Ising模型的图。在过去的15年里，这个问题在统计学、机器学习和统计物理社区中引起了极大的兴趣，并且很多努力都是为了寻找各种受限制的模型类的低计算成本算法。然而，对于在p个节点最多为d度的一般图上学习Ising模型，是否有可能改进pd计算，以便对每个节点的所有可能邻域进行穷举搜索，目前尚不清楚。在本文中，我们证明了一个简单的贪心过程可以在时间上以p2阶学习任意有界度图上的Ising模型的结构。除了模型的可识别性所必需的参数外，我们不对参数作任何假设，特别是在低温和高度不均匀的模型下，结果都是成立的。该证明基于Ising模型的一个新的结构性质:我们证明了对于任何节点，存在至少一个与其具有高互信息的邻居。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the forty-seventh annual ACM symposium on Theory of Computing

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