Bayesian diagnostics in a partially linear model with first-order autoregressive skew-normal errors

This paper studies a Bayesian local influence method to detect influential observations in a partially linear model with first-order autoregressive skew-normal errors. This method appears suitable for small or moderate-sized data sets (n=200∼400) and overcomes some theoretical limitations, bridging...

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Bibliographic Details
Published inComputational statistics Vol. 40; no. 2; pp. 1021 - 1051
Main Authors Liu, Yonghui, Lu, Jiawei, Paula, Gilberto A., Liu, Shuangzhe
Format Journal Article
LanguageEnglish
Published Heidelberg Springer Nature B.V 01.02.2025
Subjects
Algorithms
Bayesian analysis
Datasets
Errors
Methods
Normal distribution
Parameter estimation
Random variables
Skewness
Time series
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ISSN0943-4062
1613-9658
DOI10.1007/s00180-024-01504-2

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Summary:This paper studies a Bayesian local influence method to detect influential observations in a partially linear model with first-order autoregressive skew-normal errors. This method appears suitable for small or moderate-sized data sets (n=200∼400) and overcomes some theoretical limitations, bridging the diagnostic gap for small or moderate-sized data in classical methods. The MCMC algorithm is employed for parameter estimation, and Bayesian local influence analysis is made using three perturbation schemes (priors, variances, and data) and three measurement scales (Bayes factor, ϕ-divergence, and posterior mean). Simulation studies are conducted to validate the reliability of the diagnostics. Finally, a practical application uses data on the 1976 Los Angeles ozone concentration to further demonstrate the effectiveness of the diagnostics.
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ISSN:0943-4062
1613-9658
DOI:10.1007/s00180-024-01504-2