Consistent Estimation of a Class of Distances Between Covariance Matrices

arXiv - CS - Machine Learning Pub Date : 2024-09-18 DOI:arxiv-2409.11761

Roberto Pereira, Xavier Mestre, Davig Gregoratti

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Abstract

This work considers the problem of estimating the distance between two covariance matrices directly from the data. Particularly, we are interested in the family of distances that can be expressed as sums of traces of functions that are separately applied to each covariance matrix. This family of distances is particularly useful as it takes into consideration the fact that covariance matrices lie in the Riemannian manifold of positive definite matrices, thereby including a variety of commonly used metrics, such as the Euclidean distance, Jeffreys' divergence, and the log-Euclidean distance. Moreover, a statistical analysis of the asymptotic behavior of this class of distance estimators has also been conducted. Specifically, we present a central limit theorem that establishes the asymptotic Gaussianity of these estimators and provides closed form expressions for the corresponding means and variances. Empirical evaluations demonstrate the superiority of our proposed consistent estimator over conventional plug-in estimators in multivariate analytical contexts. Additionally, the central limit theorem derived in this study provides a robust statistical framework to assess of accuracy of these estimators.

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协方差矩阵间一类距离的一致性估计

本研究考虑的问题是直接从数据中估计两个协方差矩阵之间的距离。特别是，我们对可以表示为分别应用于每个协方差矩阵的函数迹之和的距离族感兴趣。这个距离族特别有用，因为它考虑到了协方差矩阵位于正定矩阵的黎曼流形中这一事实，从而包括了各种常用度量，如欧氏距离、杰弗里斯发散和对数欧氏距离。此外，我们还对这类距离估计器的渐近行为进行了统计分析。具体来说，我们提出了一个中心极限定理，该定理证明了这些估计值的渐近高斯性，并提供了相应均值和方差的闭式表达式。经验评估表明，我们提出的一致估计器在多元分析背景下优于传统的插入式估计器。此外，本研究中得出的中心极限定理为评估这些估计器的准确性提供了一个稳健的统计框架。

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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arXiv - CS - Machine Learning

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