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Autori principali: Jan, Show-Li, Shieh, Gwowen
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2503.17179
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author Jan, Show-Li
Shieh, Gwowen
author_facet Jan, Show-Li
Shieh, Gwowen
contents The Friedman test has been extensively applied as a nonparametric alternative to the conventional F procedure for comparing treatment effects in randomized complete block designs. A chi-square distribution provides a convenient approximation to determining the critical values for the Friedman procedure in hypothesis testing. However, the chi-square approximation is generally conservative and the accuracy declines with increasing number of treatments. This paper describes an alternative transformation of the Friedman statistic along with an approximate F distribution that has the same numerator degrees of freedom as the ANOVA F test. Moreover, two approximate noncentral F distributions are presented for the proposed F-transformation under the alternative hypothesis of heterogeneous location shifts. Explicit power functions are derived when the underlying populations have the uniform, normal, Laplace, and exponential distributions. Theoretical examination and empirical assessment are presented to validate the advantages of the proposed approaches over the existing methods of the Friedman test. The developed test and power procedures are recommended due to their consistently acceptable Type I error rates and accurate power calculations for the location shift structures and population distributions considered here.
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publishDate 2025
record_format arxiv
spellingShingle An improved nonparametric test and sample size procedures for the randomized complete block designs
Jan, Show-Li
Shieh, Gwowen
Methodology
Statistics Theory
The Friedman test has been extensively applied as a nonparametric alternative to the conventional F procedure for comparing treatment effects in randomized complete block designs. A chi-square distribution provides a convenient approximation to determining the critical values for the Friedman procedure in hypothesis testing. However, the chi-square approximation is generally conservative and the accuracy declines with increasing number of treatments. This paper describes an alternative transformation of the Friedman statistic along with an approximate F distribution that has the same numerator degrees of freedom as the ANOVA F test. Moreover, two approximate noncentral F distributions are presented for the proposed F-transformation under the alternative hypothesis of heterogeneous location shifts. Explicit power functions are derived when the underlying populations have the uniform, normal, Laplace, and exponential distributions. Theoretical examination and empirical assessment are presented to validate the advantages of the proposed approaches over the existing methods of the Friedman test. The developed test and power procedures are recommended due to their consistently acceptable Type I error rates and accurate power calculations for the location shift structures and population distributions considered here.
title An improved nonparametric test and sample size procedures for the randomized complete block designs
topic Methodology
Statistics Theory
url https://arxiv.org/abs/2503.17179