Correcting the bias of the sample cross-covariance estimator

IF 1.2 4区数学 Q3 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS Journal of Time Series Analysis Pub Date : 2023-05-29 DOI:10.1111/jtsa.12701

Yifan Li

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Abstract

We derive the finite sample bias of the sample cross-covariance estimator based on a stationary vector-valued time series with an unknown mean. This result leads to a bias-corrected estimator of cross-covariances constructed from linear combinations of sample cross-covariances, which can in theory correct for the bias introduced by the first $h$ lags of cross-covariance with any $h$ not larger than the sample size minus two. Based on the bias-corrected cross-covariance estimator, we propose a bias-adjusted long run covariance (LRCOV) estimator. We derive the asymptotic relations between the bias-corrected estimators and their conventional Counterparts in both the small- $b$ and the fixed- $b$ limit. Simulation results show that: (i) our bias-corrected cross-covariance estimators are very effective in eliminating the finite sample bias of their conventional counterparts, with potential mean squared error reduction when the data generating process is highly persistent; and (ii) the bias-adjusted LRCOV estimators can have superior performance to their conventional counterparts with a smaller bias and mean squared error.

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纠正样本交叉协方差估计器的偏差

我们基于具有未知均值的静态向量时间序列，推导出样本交叉协方差估计器的有限样本偏差。这一结果引出了由样本交叉协方差线性组合构建的交叉协方差偏差校正估计器，该估计器理论上可以校正交叉协方差前 h 个滞后期带来的偏差，且任何 h 都不大于样本量减 2。在偏差修正交叉协方差估计器的基础上，我们提出了偏差调整长期协方差（LRCOV）估计器。我们推导了偏差修正估计器与传统估计器在小 b 和固定 b 限度下的渐近关系。模拟结果表明(i) 我们的偏差校正交叉协方差估计器能非常有效地消除传统估计器的有限样本偏差，当数据生成过程高度持久时，还能减少潜在的均方误差；(ii) 偏差调整 LRCOV 估计器的偏差和均方误差更小，性能优于传统估计器。

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来源期刊

Journal of Time Series Analysis 数学-数学跨学科应用

CiteScore

2.00

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： During the last 30 years Time Series Analysis has become one of the most important and widely used branches of Mathematical Statistics. Its fields of application range from neurophysiology to astrophysics and it covers such well-known areas as economic forecasting, study of biological data, control systems, signal processing and communications and vibrations engineering. The Journal of Time Series Analysis started in 1980, has since become the leading journal in its field, publishing papers on both fundamental theory and applications, as well as review papers dealing with recent advances in major areas of the subject and short communications on theoretical developments. The editorial board consists of many of the world''s leading experts in Time Series Analysis.