回顾广义最小二乘在时间序列回归模型中的应用

Journal of data science : JDS Pub Date : 2023-01-01 DOI:10.6339/23-jds1108

Yue Fang, S. Koreisha, Q. Shao

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引用次数: 0

摘要

线性回归模型在实证研究中被广泛使用。当残差中存在序列相关时，一般采用广义最小二乘(GLS)估计来提高估计效率。本文提出了一种替代估计量——基于高阶AR(p)过程的近似广义最小二乘估计量(GLS-AR)。我们证明了GLS-AR估计器作为GLS估计器是渐近有效的，因为AR滞后数p和观测数n一起增加，使得$p= 0 ({n^{1/4}})$在极限上。所提出的GLS-AR估计器不需要识别残差序列自相关结构，并且在有限样本中比传统的基于fgls的测试具有更高的鲁棒性。最后，通过对1850-2012年全球变暖数据的分析，说明了GLS-AR方法的有效性。

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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Revisiting the Use of Generalized Least Squares in Time Series Regression Models

Linear regression models are widely used in empirical studies. When serial correlation is present in the residuals, generalized least squares (GLS) estimation is commonly used to improve estimation efficiency. This paper proposes the use of an alternative estimator, the approximate generalized least squares estimators based on high-order AR(p) processes (GLS-AR). We show that GLS-AR estimators are asymptotically efficient as GLS estimators, as both the number of AR lag, p, and the number of observations, n, increase together so that $p=o({n^{1/4}})$ in the limit. The proposed GLS-AR estimators do not require the identification of the residual serial autocorrelation structure and perform more robust in finite samples than the conventional FGLS-based tests. Finally, we illustrate the usefulness of GLS-AR method by applying it to the global warming data from 1850–2012.

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Journal of data science : JDS

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