On semiparametrically dynamic functional-coefficient autoregressive spatio-temporal models with irregular location wide nonstationarity
On semiparametrically dynamic functional-coefficient autoregressive spatio-temporal models with irregular location wide nonstationarity
Nonlinear dynamic modeling of spatio-temporal data is often a challenge, especially due to irregularly observed locations and location-wide nonstationarity. In this article we propose a semiparametric family of Dynamic Functional-coefficient Autoregressive Spatio-Temporal (DyFAST) models to address the difficulties. We specify the autoregressive smoothing coefficients depending dynamically on both a concerned regime and location so that the models can characterize not only the dynamic regime-switching nature but also the location-wide nonstationarity in real data. Different smoothing schemes are then proposed to model the dynamic neighboring-time interaction effects with irregular locations incorporated by (spatial) weight matrices. The first scheme popular in econometrics supposes that the weight matrix is pre-specified. We show that locally optimal bandwidths by a greedy idea popular in machine learning should be cautiously applied. Moreover, many weight matrices can be generated differently by data location features. Model selection is popular, but may suffer from loss of different candidate features. Our second scheme is thus to suggest a weight matrix fusion to let data combine or select the candidates with estimation done simultaneously. Both theoretical properties and Monte Carlo simulations are investigated. The empirical application to an EU energy market dataset further demonstrates the usefulness of our DyFAST models. Supplementary materials for this article are available online.
Dynamic functional-coefficient autoregression, Irregular location wide nonstationarity, Local linear smoothing, Spatial weight matrix, Spatio-temporal data
1-2
Lu, Zudi
4aa7d988-ac2b-4150-a586-ca92b8adda95
Ren, Xiaohang
644d6dde-0155-4872-9488-336acf86dba2
Zhang, Rongmao
5ca5beeb-0cb7-4aff-8954-149f318dc746
9 February 2023
Lu, Zudi
4aa7d988-ac2b-4150-a586-ca92b8adda95
Ren, Xiaohang
644d6dde-0155-4872-9488-336acf86dba2
Zhang, Rongmao
5ca5beeb-0cb7-4aff-8954-149f318dc746
Lu, Zudi, Ren, Xiaohang and Zhang, Rongmao
(2023)
On semiparametrically dynamic functional-coefficient autoregressive spatio-temporal models with irregular location wide nonstationarity.
Journal of the American Statistical Association, 29 (1), .
(doi:10.1080/01621459.2022.2161386).
Abstract
Nonlinear dynamic modeling of spatio-temporal data is often a challenge, especially due to irregularly observed locations and location-wide nonstationarity. In this article we propose a semiparametric family of Dynamic Functional-coefficient Autoregressive Spatio-Temporal (DyFAST) models to address the difficulties. We specify the autoregressive smoothing coefficients depending dynamically on both a concerned regime and location so that the models can characterize not only the dynamic regime-switching nature but also the location-wide nonstationarity in real data. Different smoothing schemes are then proposed to model the dynamic neighboring-time interaction effects with irregular locations incorporated by (spatial) weight matrices. The first scheme popular in econometrics supposes that the weight matrix is pre-specified. We show that locally optimal bandwidths by a greedy idea popular in machine learning should be cautiously applied. Moreover, many weight matrices can be generated differently by data location features. Model selection is popular, but may suffer from loss of different candidate features. Our second scheme is thus to suggest a weight matrix fusion to let data combine or select the candidates with estimation done simultaneously. Both theoretical properties and Monte Carlo simulations are investigated. The empirical application to an EU energy market dataset further demonstrates the usefulness of our DyFAST models. Supplementary materials for this article are available online.
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On Semiparametrically Dynamic Functional Coefficient
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Accepted/In Press date: 19 December 2022
e-pub ahead of print date: 24 January 2023
Published date: 9 February 2023
Additional Information:
Funding Information:
Key Projects of National Natural Science Foundation of Zhejiang Province;National Natural Science Foundation of China;Natural Science Foundation of Hunan Province;
Publisher Copyright:
© 2023 The Author(s). Published with license by Taylor & Francis Group, LLC.
Keywords:
Dynamic functional-coefficient autoregression, Irregular location wide nonstationarity, Local linear smoothing, Spatial weight matrix, Spatio-temporal data
Identifiers
Local EPrints ID: 474659
URI: http://eprints.soton.ac.uk/id/eprint/474659
ISSN: 0162-1459
PURE UUID: 56962d99-2b58-40f2-9022-46a4917d6403
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Date deposited: 01 Mar 2023 17:31
Last modified: 17 Mar 2024 03:34
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Author:
Xiaohang Ren
Author:
Rongmao Zhang
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