Shrinkage estimation of spatial panel data models with multiple structural breaks and a multifactor error structure
Shrinkage estimation of spatial panel data models with multiple structural breaks and a multifactor error structure
This study investigates spatial panel data models with a multifactor error structure and multiple structural breaks occurring in the coefficients of both spatial lagged and explanatory variables. While extensive research has addressed cross-sectional dependence in panel data, including approaches that integrate spatial and factor structures within a single framework, few studies account for time-varying model parameters and achieving consistent estimation remains a significant challenge. To address the dual challenges of endogeneity and time heterogeneity, we propose a novel penalized generalized method of moments estimation with common correlated effects (PGMM-CCEX). Specifically, this method addresses the endogeneity issue by utilizing the cross-sectional averages of regressors as factor proxies when constructing the internal instrumental variables, while employing adaptive group fused Lasso to detect multiple structural breaks. The PGMM-CCEX method consistently estimates both the number of breaks and their locations. Furthermore, the post-PGMM-CCEX regime-specific coefficient estimates are consistent and asymptotically follow a normal distribution. Notably, the method remains valid even when factor loadings vary over time, whether synchronously or asynchronously with the parameters of interest. Monte Carlo simulations confirm the satisfactory finite-sample performance of the proposed PGMM-CCEX method. Finally, we apply our method to analyze cross-country economic growth across 106 countries from 1970 to 2019, revealing the time-varying influence of key economic factors on growth dynamics.
Common factors, PGMM-CCEX estimation, Spatial panel models, Structural breaks
Dai, Siqi
4bc896c7-3576-4766-89c1-a84933c6f50c
Hong, Yongmiao
70b17998-7fc4-4264-9ea5-4edbbcd64907
Li, Haiqi
e87d6bf1-e1a6-474f-96e8-f2b7ae0b433a
Zheng, Chaowen
4ba693c1-6dd0-45b1-acf1-45bfb393f3fc
22 August 2025
Dai, Siqi
4bc896c7-3576-4766-89c1-a84933c6f50c
Hong, Yongmiao
70b17998-7fc4-4264-9ea5-4edbbcd64907
Li, Haiqi
e87d6bf1-e1a6-474f-96e8-f2b7ae0b433a
Zheng, Chaowen
4ba693c1-6dd0-45b1-acf1-45bfb393f3fc
Dai, Siqi, Hong, Yongmiao, Li, Haiqi and Zheng, Chaowen
(2025)
Shrinkage estimation of spatial panel data models with multiple structural breaks and a multifactor error structure.
Journal of Econometrics, 251, [106082].
(doi:10.1016/j.jeconom.2025.106082).
Abstract
This study investigates spatial panel data models with a multifactor error structure and multiple structural breaks occurring in the coefficients of both spatial lagged and explanatory variables. While extensive research has addressed cross-sectional dependence in panel data, including approaches that integrate spatial and factor structures within a single framework, few studies account for time-varying model parameters and achieving consistent estimation remains a significant challenge. To address the dual challenges of endogeneity and time heterogeneity, we propose a novel penalized generalized method of moments estimation with common correlated effects (PGMM-CCEX). Specifically, this method addresses the endogeneity issue by utilizing the cross-sectional averages of regressors as factor proxies when constructing the internal instrumental variables, while employing adaptive group fused Lasso to detect multiple structural breaks. The PGMM-CCEX method consistently estimates both the number of breaks and their locations. Furthermore, the post-PGMM-CCEX regime-specific coefficient estimates are consistent and asymptotically follow a normal distribution. Notably, the method remains valid even when factor loadings vary over time, whether synchronously or asynchronously with the parameters of interest. Monte Carlo simulations confirm the satisfactory finite-sample performance of the proposed PGMM-CCEX method. Finally, we apply our method to analyze cross-country economic growth across 106 countries from 1970 to 2019, revealing the time-varying influence of key economic factors on growth dynamics.
Text
Dai et al. 2025 Shrinkage Estimation of Spatial Panel Data Models with Multiple Structural Breaks and a Multifactor Error Structure
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Restricted to Repository staff only until 22 August 2027.
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Accepted/In Press date: 6 August 2025
Published date: 22 August 2025
Keywords:
Common factors, PGMM-CCEX estimation, Spatial panel models, Structural breaks
Identifiers
Local EPrints ID: 504220
URI: http://eprints.soton.ac.uk/id/eprint/504220
ISSN: 0304-4076
PURE UUID: 91b08427-b02f-4c9b-af15-eb1a18e7d812
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Date deposited: 01 Sep 2025 16:31
Last modified: 06 Sep 2025 02:14
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Contributors
Author:
Siqi Dai
Author:
Yongmiao Hong
Author:
Haiqi Li
Author:
Chaowen Zheng
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