Fast robust location and scatter estimation: a depth-based method

IF 2.3 3区 工程技术 Q1 STATISTICS & PROBABILITY
Maoyu Zhang, Yan Song, Wenlin Dai
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引用次数: 0

Abstract

The minimum covariance determinant (MCD) estimator is ubiquitous in multivariate analysis, the critical step of which is to select a subset of a given size with the lowest sample covariance determinant. The concentration step (C-step) is a common tool for subset-seeking; however, it becomes computationally demanding for high-dimensional data. To alleviate the challenge, we propose a depth-based algorithm, termed as \texttt{FDB}, which replaces the optimal subset with the trimmed region induced by statistical depth. We show that the depth-based region is consistent with the MCD-based subset under a specific class of depth notions, for instance, the projection depth. With the two suggested depths, the \texttt{FDB} estimator is not only computationally more efficient but also reaches the same level of robustness as the MCD estimator. Extensive simulation studies are conducted to assess the empirical performance of our estimators. We also validate the computational efficiency and robustness of our estimators under several typical tasks such as principal component analysis, linear discriminant analysis, image denoise and outlier detection on real-life datasets. A R package \textit{FDB} and potential extensions are available in the Supplementary Materials.
快速鲁棒定位和散射估计:一种基于深度的方法
最小协方差行列式(MCD)估计器在多变量分析中普遍存在,其关键步骤是选择具有最低样本协方差行列式的给定大小的子集。集中步骤(C步骤)是一种常见的子集搜索工具;然而,对高维数据的计算要求越来越高。为了缓解这一挑战,我们提出了一种基于深度的算法,称为\texttt{FDB},该算法将最优子集替换为统计深度引起的修剪区域。我们表明,在一类特定的深度概念下,例如投影深度,基于深度的区域与基于MCD的子集是一致的。有了两个建议的深度,\texttt{FDB}估计器不仅在计算上更高效,而且达到了与MCD估计员相同的鲁棒性水平。我们进行了大量的模拟研究来评估我们的估计量的经验性能。我们还验证了我们的估计量在几个典型任务下的计算效率和稳健性,如主成分分析、线性判别分析、图像去噪和真实数据集上的异常值检测。补充材料中提供了R包\textit{FDB}和潜在的扩展。
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
Technometrics
Technometrics 管理科学-统计学与概率论
CiteScore
4.50
自引率
16.00%
发文量
59
审稿时长
>12 weeks
期刊介绍: Technometrics is a Journal of Statistics for the Physical, Chemical, and Engineering Sciences, and is published Quarterly by the  American Society for Quality and the American Statistical Association.Since its inception in 1959, the mission of Technometrics has been to contribute to the development and use of statistical methods in the physical, chemical, and engineering sciences.
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