多变量时间序列的标度包络模型

IF 1.4 3区 数学 Q2 STATISTICS & PROBABILITY
H.M. Wiranthe B. Herath , S. Yaser Samadi
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引用次数: 0

摘要

向量自回归(VAR)模型因其简单易用,已成为多变量时间序列数据建模的热门选择。有效估计 VAR 系数是一个重要问题。VAR 模型的包络技术通过纳入对 VAR 系数估计基本无关紧要的响应向量的线性组合,被证明具有显著提高效率和准确性的潜力。然而,基于包络 VAR(EVAR)模型的推论在对 VAR 响应进行重新缩放时并不不变或等变,这限制了其在以相同或相似单位测量的时间序列数据中的应用。在 VAR 响应以不同尺度测量的情况下,包络所承诺的效率改进并不总是有保证的。为了解决这一局限性,我们引入了缩放包络 VAR(SEVAR)模型,它既保留了标准包络技术的效率提升功能,又不受尺度变化的影响。基于不同的误差假设,建立了所提出估计器的渐近特性。通过仿真研究和实际数据分析,证明了所提模型的效率和有效性。数值结果证实了我们的理论发现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Scaled envelope models for multivariate time series

Vector autoregressive (VAR) models have become a popular choice for modeling multivariate time series data due to their simplicity and ease of use. Efficient estimation of VAR coefficients is an important problem. The envelope technique for VAR models is demonstrated to have the potential to yield significant gains in efficiency and accuracy by incorporating linear combinations of the response vector that are essentially immaterial to the estimation of the VAR coefficients. However, inferences based on envelope VAR (EVAR) models are not invariant or equivariant upon the rescaling of the VAR responses, limiting their application to time series data that are measured in the same or similar units. In scenarios where VAR responses are measured on different scales, the efficiency improvements promised by envelopes are not always guaranteed. To address this limitation, we introduce the scaled envelope VAR (SEVAR) model, which preserves the efficiency-boosting capabilities of standard envelope techniques while remaining invariant to scale changes. The asymptotic characteristics of the proposed estimators are established based on different error assumptions. Simulation studies and real-data analysis are conducted to demonstrate the efficiency and effectiveness of the proposed model. The numerical results corroborate our theoretical findings.

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来源期刊
Journal of Multivariate Analysis
Journal of Multivariate Analysis 数学-统计学与概率论
CiteScore
2.40
自引率
25.00%
发文量
108
审稿时长
74 days
期刊介绍: Founded in 1971, the Journal of Multivariate Analysis (JMVA) is the central venue for the publication of new, relevant methodology and particularly innovative applications pertaining to the analysis and interpretation of multidimensional data. The journal welcomes contributions to all aspects of multivariate data analysis and modeling, including cluster analysis, discriminant analysis, factor analysis, and multidimensional continuous or discrete distribution theory. Topics of current interest include, but are not limited to, inferential aspects of Copula modeling Functional data analysis Graphical modeling High-dimensional data analysis Image analysis Multivariate extreme-value theory Sparse modeling Spatial statistics.
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