Robust Post-Hoc Multiple Comparisons: Skew t Distributed Error Terms

Celik, Nuri; Celik, Nuri

doi:10.15446/rce.v45n2.100837

Services on Demand

Journal

Article

Indicators

Cited by SciELO
Access statistics

Revista Colombiana de Estadística

Print version ISSN 0120-1751

Rev.Colomb.Estad. vol.45 no.2 Bogotá July/Dec. 2022 Epub Feb 02, 2023

https://doi.org/10.15446/rce.v45n2.100837

Artículos originales de investigación

Robust Post-Hoc Multiple Comparisons: Skew t Distributed Error Terms

Compararciones múltiples a posteriori robustas con errores siguendo una t-student sesgada

Nuri Celik¹^a

^¹ Department of Mathematics, Gebze Technical University, Kocaeli, Turkey

Abstract

The pairwise comparisons or post-hoc methods are used for determining the source of the difference of group means in one-way ANOVA. These methods are mostly depend on normality assumption. However, nonnormal distributions are more prevalent than normal distribution. Therefore, robust estimation methods become very important tools in statistical analysis. In this paper, we assume that the distribution of the error terms is Azzalini's skew t and obtain the robust estimators in order to make post-hoc tests in one-way ANOVA. We use maximum likelihood (ML) methodology and compare this methodology with some of robust estimators like M estimator, Wave estimator, trimmed mean and modified maximum likelihood (MML) methodology with Monte Carlo simulation study. Simulation results show that the proposed methodology is more preferable. We also compare power values of the test statistics and conclude that the test statistics based on the ML estimators are more powerful than the test statistics based on other methods.

Key words: One-way ANOVA; Post-Hoc Comparison; Skew t distribution; Robustness

Resumen

Las comparaciones por pares o métodos post-hoc se utilizan para determinar la fuente de la diferencia de medias de grupo en ANOVA unidireccional. Estos métodos dependen principalmente de la suposición de normalidad. Sin embargo, no normales distribuciones son más frecuentes que la distribución normal. Por lo tanto, los métodos robustos de estimación se convierten en herramientas muy importantes en el análisis estadístico. En este artículo, asumimos que la distribución de los términos de error es la de Azzalini sesgar t y obtener los estimadores robustos para realizar pruebas post-hoc en ANOVA de una vía. Utilizamos la metodología de máxima verosimilitud (ML) y comparamos esta metodología con algunos de los estimadores robustos como el estimador M, estimador de onda, media recortada y máxima verosimilitud modificada (MML) metodología con estudio de simulación Monte Cario. Los resultados de la simulación muestran que la metodología propuesta es más preferible. También comparamos potencia valores de las estadísticas de prueba y concluimos que las estadísticas de prueba basadas en los estimadores ML son más poderosos que las estadísticas de prueba basadas en otros métodos.

Palabras clave: ANOVA unidireccional; Comparación post-hoc; Distribuci ón t sesgada; Robustez

Full text available only in PDF format

References

Ahmad Radi, N. F., Zakaria, R., Piantadosi, J., Boland, J., Wan Zin, W. Z. & Azman, M. A. (2017), 'Generating synthetic rainfall total using multivariate skew-t and checkerboard copula of maximum entropy', Water Resources Management 31(5), 1729-1744. [ Links ]

Azzalini, A. & Capitanio, A. (2003), 'Distributions generated by perturbation of symmetry with emphasis on a multivariate skew t-distribution', Journal of the Royal Statistical Society: Series B (Statistical Methodology) 65(2), 367-389. [ Links ]

Balei, S. & Akkaya, A. D. (2015), 'Robust pairwise multiple comparisons under short-tailed symmetric distributions', Journal of Applied Statistics 42(11), 2293-2306. [ Links ]

Beranger, B., Stephenson, A. G. & Sisson, S. A. (2021), 'High-dimensional inference using the extremal skew-t process', Extremes 24(3), 653-685. [ Links ]

Celik, N. (2012), Robust statistical inference in ANOVA models using skew distributions and applications, Ph. D. thesis, Ankara University Graduate School of Natural and Applied. [ Links ]

Dunnett, C. W. (1982), 'Robust multiple comparisons', Communications in Statistics-Theory and Methods 11(22), 2611-2629. [ Links ]

Nakajima, J. (2017), 'Bayesian analysis of multivariate stochastic volatility with skew return distribution', 5(36), 546-562. [ Links ]

Ringland, J. T. (1983), 'Robust multiple comparisons', Journal of the American Statistical Association 78(381), 145-151. [ Links ]

Tagle, F., Castruccio, S., Crippa, P. & Genton, M. G. (2019), 'A non-gaussian spatio-temporal model for daily wind speeds based on a multi-variate skew-t distribution', Journal of Time Series Analysis 40(3), 312-326. [ Links ]

Tukey, J. W. & McLaughlin, D. H. (1963), 'Less vulnerable confidence and significance procedures for location based on a single sample: Trimming/winsorization 1', Sankhyã: The Indian Journal of Statistics, Series A pp. 331-352. [ Links ]

Received: December 2020; Accepted: January 2022

^a Ph.D. E-mail: nuricelik@gtu.edu.tr

This is an open-access article distributed under the terms of the Creative Commons Attribution License