TORUS GRAPHS FOR MULTIVARIATE PHASE COUPLING ANALYSIS.

IF 1.3 4区 数学 Q2 STATISTICS & PROBABILITY
Annals of Applied Statistics Pub Date : 2020-06-01 Epub Date: 2020-06-29 DOI:10.1214/19-aoas1300
Natalie Klein, Josue Orellana, Scott L Brincat, Earl K Miller, Robert E Kass
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引用次数: 0

Abstract

Angular measurements are often modeled as circular random variables, where there are natural circular analogues of moments, including correlation. Because a product of circles is a torus, a d-dimensional vector of circular random variables lies on a d-dimensional torus. For such vectors we present here a class of graphical models, which we call torus graphs, based on the full exponential family with pairwise interactions. The topological distinction between a torus and Euclidean space has several important consequences. Our development was motivated by the problem of identifying phase coupling among oscillatory signals recorded from multiple electrodes in the brain: oscillatory phases across electrodes might tend to advance or recede together, indicating coordination across brain areas. The data analyzed here consisted of 24 phase angles measured repeatedly across 840 experimental trials (replications) during a memory task, where the electrodes were in 4 distinct brain regions, all known to be active while memories are being stored or retrieved. In realistic numerical simulations, we found that a standard pairwise assessment, known as phase locking value, is unable to describe multivariate phase interactions, but that torus graphs can accurately identify conditional associations. Torus graphs generalize several more restrictive approaches that have appeared in various scientific literatures, and produced intuitive results in the data we analyzed. Torus graphs thus unify multivariate analysis of circular data and present fertile territory for future research.

用于多元相位耦合分析的环形图。
角度测量通常被建模为圆形随机变量,在圆形随机变量中存在自然的类似矩,包括相关性。因为圆的乘积是一个环,所以一个 d 维的圆随机变量向量位于一个 d 维的环上。对于这样的向量,我们在此提出一类基于成对交互作用的全指数族的图形模型,我们称之为环图。环状图和欧几里得空间之间的拓扑区别有几个重要的后果。我们的开发灵感来自于识别大脑中多个电极记录的振荡信号之间的相位耦合问题:跨电极的振荡相位可能趋向于一起前进或后退,这表明大脑各区域之间存在协调。本文分析的数据包括在记忆任务中 840 次实验(重复)中反复测量的 24 个相位角,其中电极位于 4 个不同的脑区,已知这些脑区在存储或检索记忆时都处于活跃状态。在现实的数值模拟中,我们发现标准的成对评估(即相位锁定值)无法描述多变量相位相互作用,而环形图却能准确识别条件关联。环形图概括了各种科学文献中出现的几种限制性较强的方法,并在我们分析的数据中产生了直观的结果。因此,环形图统一了循环数据的多元分析,为未来的研究提供了肥沃的土壤。
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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来源期刊
Annals of Applied Statistics
Annals of Applied Statistics 社会科学-统计学与概率论
CiteScore
3.10
自引率
5.60%
发文量
131
审稿时长
6-12 weeks
期刊介绍: Statistical research spans an enormous range from direct subject-matter collaborations to pure mathematical theory. The Annals of Applied Statistics, the newest journal from the IMS, is aimed at papers in the applied half of this range. Published quarterly in both print and electronic form, our goal is to provide a timely and unified forum for all areas of applied statistics.
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