Rank-R matrix autoregressive models for modeling spatio-temporal data

Pub Date : 2024-02-01 DOI:10.4310/23-sii812

Nan-Jung Hsu, Hsin-Cheng Huang, Ruey S. Tsay, Tzu-Chieh Kao

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Abstract

We develop a matrix-variate autoregressive (MAR) model to analyze spatio-temporal data organized on a regular grid in space. The model is an extension of the bilinear MAR spatial model of Hsu, Huang and Tsay $\href{ https://doi.org/10.1080/10618600.2021.1938587 }{[10]}$ by increasing its flexibility and applicability in empirical applications. Specifically, we propose to model each autoregressive (AR) coefficient matrix of the MAR model by $R$ bilinear terms, thereby establishing a rank‑R model. The extension can be interpreted as decomposing the AR dynamics of the data into $R$ bilinear MAR components. We further incorporate a banded neighborhood structure for AR coefficient matrices and utilize a flexible nonstationary low-rank covariance model for the spatial innovation process, leading to a parsimonious model without sacrificing its flexibility. We estimate all parameters of the model by the maximum likelihood method and develop a computationally efficient alternating direction method of multipliers algorithm, involving only closed-form expressions in all steps. Applications to a wind-speed dataset and an employment dataset, as well as two simulation experiments, demonstrate the effectiveness of the proposed method in estimation, model selection, and prediction.

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用于时空数据建模的 Rank-R 矩阵自回归模型

我们建立了一个矩阵变量自回归（MAR）模型，用于分析在空间规则网格上组织的时空数据。该模型是对 Hsu、Huang 和 Tsay $\href{ https://doi.org/10.1080/10618600.2021.1938587 }{[10]}$ 的双线性 MAR 空间模型的扩展，提高了其灵活性和在实证应用中的适用性。具体来说，我们建议用 $R$ 双线性项来模拟 MAR 模型的每个自回归（AR）系数矩阵，从而建立一个秩 R 模型。这种扩展可以解释为将数据的 AR 动态分解为 $R$ 双线性 MAR 组件。我们进一步为 AR 系数矩阵加入了带状邻域结构，并为空间创新过程使用了灵活的非平稳低阶协方差模型，从而在不牺牲灵活性的前提下建立了一个简洁的模型。我们用最大似然法估计了模型的所有参数，并开发了一种计算高效的交替方向乘法算法，所有步骤都只涉及闭式表达式。风速数据集和就业数据集的应用以及两个模拟实验证明了所提方法在估计、模型选择和预测方面的有效性。

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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