Ridge-Type Pretest and Shrinkage Estimation Strategies in Spatial Error Models with an Application to a Real Data Example

Ridge-Type Pretest and Shrinkage Estimation Strategies in Spatial Error Models with an Application to a Real Data Example

Spatial regression models are widely available across several disciplines, such as functional magnetic resonance imaging analysis, econometrics, and house price analysis. In nature, sparsity occurs when a limited number of factors strongly impact overall variation. Sparse covariance structures are c...

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Bibliographic Details
Published in:Mathematics (Basel) Vol. 12; no. 3; p. 390
Main Authors: Al-Momani, Marwan, Arashi, Mohammad
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-01-2024
Subjects:
asymptotic performance
bootstrapping
Econometrics
Estimation
Geospatial data
Magnetic resonance imaging
Maximum likelihood estimators
pretest
Regression analysis
Regression coefficients
Regression models
ridge estimator
shrinkage
Sparsity
Spatial data
spatial error model
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Summary:Spatial regression models are widely available across several disciplines, such as functional magnetic resonance imaging analysis, econometrics, and house price analysis. In nature, sparsity occurs when a limited number of factors strongly impact overall variation. Sparse covariance structures are common in spatial regression models. The spatial error model is a significant spatial regression model that focuses on the geographical dependence present in the error terms rather than the response variable. This study proposes an effective approach using the pretest and shrinkage ridge estimators for estimating the vector of regression coefficients in the spatial error mode, considering insignificant coefficients and multicollinearity among regressors. The study compares the performance of the proposed estimators with the maximum likelihood estimator and assesses their efficacy using real-world data and bootstrapping techniques for comparison purposes.
ISSN:2227-7390
2227-7390
DOI:10.3390/math12030390