基于高频数据的时变协方差矩阵最大秩的推断

IF 3.2 1区数学 Q1 STATISTICS & PROBABILITY

Annals of Statistics Pub Date : 2023-04-01 DOI:10.1214/23-aos2273

Markus Reiss, Lars Winkelmann

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引用次数: 0

摘要

我们研究了多维过程X(t)的瞬时或点协方差矩阵ΣX(t)的秩。给定高频观测值X(i/n)， i=0，…，n，我们对所有t针对局部替代方案检验零假设秩(ΣX(t))≤r，其中平均(r+1)st特征值大于某些信号检测率vn。一个主要问题是局部协方差统计中固有的平均会产生偏差，从而扭曲秩统计。我们表明，偏差取决于ΣX(t)的规律性和谱间隙。我们建立了显式矩阵摄动和集中结果，提供了非渐近一致临界值和最佳信号检测率vn。这导致了通过顺序测试的秩估计方法。对于一类随机波动模型，我们通过估计的局部协方差矩阵的归一化p变来确定数据驱动的临界值。通过模拟和对美国政府债券高频数据的应用说明了这些方法。

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Inference on the maximal rank of time-varying covariance matrices using high-frequency data

We study the rank of the instantaneous or spot covariance matrix ΣX(t) of a multidimensional process X(t). Given high-frequency observations X(i/n), i=0,…,n, we test the null hypothesis rank(ΣX(t))≤r for all t against local alternatives where the average (r+1)st eigenvalue is larger than some signal detection rate vn. A major problem is that the inherent averaging in local covariance statistics produces a bias that distorts the rank statistics. We show that the bias depends on the regularity and spectral gap of ΣX(t). We establish explicit matrix perturbation and concentration results that provide nonasymptotic uniform critical values and optimal signal detection rates vn. This leads to a rank estimation method via sequential testing. For a class of stochastic volatility models, we determine data-driven critical values via normed p-variations of estimated local covariance matrices. The methods are illustrated by simulations and an application to high-frequency data of U.S. government bonds.

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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.