LARGE COVARIANCE ESTIMATION THROUGH ELLIPTICAL FACTOR MODELS.

IF 3.2 1区数学 Q1 STATISTICS & PROBABILITY

Annals of Statistics Pub Date : 2018-08-01 Epub Date: 2018-06-27 DOI:10.1214/17-AOS1588

Jianqing Fan, Han Liu, Weichen Wang

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引用次数: 84

Abstract

We propose a general Principal Orthogonal complEment Thresholding (POET) framework for large-scale covariance matrix estimation based on the approximate factor model. A set of high level sufficient conditions for the procedure to achieve optimal rates of convergence under different matrix norms is established to better understand how POET works. Such a framework allows us to recover existing results for sub-Gaussian data in a more transparent way that only depends on the concentration properties of the sample covariance matrix. As a new theoretical contribution, for the first time, such a framework allows us to exploit conditional sparsity covariance structure for the heavy-tailed data. In particular, for the elliptical distribution, we propose a robust estimator based on the marginal and spatial Kendall's tau to satisfy these conditions. In addition, we study conditional graphical model under the same framework. The technical tools developed in this paper are of general interest to high dimensional principal component analysis. Thorough numerical results are also provided to back up the developed theory.

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通过椭圆因子模型的大协方差估计。

基于近似因子模型，我们提出了一种用于大规模协方差矩阵估计的通用主正交复数阈值（POET）框架。为了更好地理解POET是如何工作的，建立了该过程在不同矩阵范数下实现最优收敛率的一组高层充分条件。这样的框架允许我们以更透明的方式恢复亚高斯数据的现有结果，该方式仅取决于样本协方差矩阵的浓度特性。作为一种新的理论贡献，这种框架首次允许我们利用重尾数据的条件稀疏性协方差结构。特别是，对于椭圆分布，我们提出了一个基于边缘和空间Kendallτ的鲁棒估计器来满足这些条件。此外，我们还在同一框架下研究了条件图形模型。本文开发的技术工具对高维主成分分析具有普遍的兴趣。文中还提供了较为详尽的数值结果来支持这一理论。

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 Statistics 数学-统计学与概率论

CiteScore

9.30

自引率

8.90%

发文量

119

审稿时长

6-12 weeks

期刊介绍： The Annals of Statistics aim to publish research papers of highest quality reflecting the many facets of contemporary statistics. Primary emphasis is placed on importance and originality, not on formalism. The journal aims to cover all areas of statistics, especially mathematical statistics and applied & interdisciplinary statistics. Of course many of the best papers will touch on more than one of these general areas, because the discipline of statistics has deep roots in mathematics, and in substantive scientific fields.