时变均值的非参数检测

IF 1 4区数学 Q3 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS

Journal of Time Series Analysis Pub Date : 2026-04-07 Epub Date: 2025-07-09 DOI:10.1111/jtsa.70000

Fabrizio Iacone, A. M. Robert Taylor

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引用次数: 0

摘要

我们提出了一种非参数组合检验，用于检测可能显示长或短记忆的单变量时间序列的无条件平均值的变化。我们的方法被设计成具有强大的能力，除其他外，在这些情况下，该系列的平均分量显示出突然的水平变化，确定性趋势行为，或受到某种形式的时变，连续变化的影响。我们提出的测试很容易计算，它基于周期图坐标的比率，有一个已知形式的关键极限零分布，它减少到χ 2 2 $$ {\chi}_2^2 $$随机变量的倍数，在这种情况下序列具有短记忆性，并且对广泛的时变均值模型具有抵抗能力。对测试的有限样本行为的蒙特卡罗模拟研究表明，它在长和短记忆序列范围内的零值下具有良好的大小特性，并且对各种似是而非的时变平均值替代方案表现出良好的能力。由于它的简单性，我们推荐我们的周期图比率检验作为一个常规的组合检验，以确定时间序列的平均成分是否可以被合理地视为常数。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Nonparametric Detection of a Time-Varying Mean

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Nonparametric Detection of a Time-Varying Mean

We propose a nonparametric portmanteau test for detecting changes in the unconditional mean of a univariate time series which may display either long or short memory. Our approach is designed to have power against, among other things, cases where the mean component of the series displays abrupt level shifts, deterministic trending behaviour, or is subject to some form of time-varying, continuous change. The test we propose is simple to compute, being based on ratios of periodogram ordinates, has a pivotal limiting null distribution of known form which reduces to the multiple of a $χ_{2}^{2}$ random variable in the case where the series is short memory, and has power against a wide class of time-varying mean models. A Monte Carlo simulation study into the finite sample behaviour of the test shows it to have both good size properties under the null for a range of long and short memory series and to exhibit good power against a variety of plausible time-varying mean alternatives. Because of its simplicity, we recommend our periodogram ratio test as a routine portmanteau test for whether the mean component of a time series can reasonably be treated as constant.

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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.