Goodness-of-fit tests for Laplace, Gaussian and exponential power distributions based on λ -th power skewness and kurtosis - Archive ouverte HAL
Article Dans Une Revue Statistics Année : 2022

Goodness-of-fit tests for Laplace, Gaussian and exponential power distributions based on λ -th power skewness and kurtosis

Résumé

Temperature data, like many other measurements in quantitative fields, are usually modelled using a normal distribution. However, some distributions can offer a better fit while avoiding underestimation of tail event probabilities. To this point, we extend Pearson's notions of skewness and kurtosis to build a powerful family of goodness-of-fit tests based on Rao's score for the exponential power distribution EPDλ(μ,σ), including tests for normality and Laplacity when λ is set to 1 or 2. We find the asymptotic distribution of our test statistic, which is the sum of the squares of two Z-scores, under the null and under local alternatives. We also develop an innovative regression strategy to obtain Z-scores that are nearly independent and distributed as standard Gaussians, resulting in a χ22 distribution valid for any sample size (up to very high precision for n≥20). The case λ=1 leads to a powerful test of fit for the Laplace(μ,σ) distribution, whose empirical power is superior to all 39 competitors in the literature, over a wide range of 400 alternatives. Theoretical proofs in this case are particularly challenging and substantial. We applied our tests to three temperature datasets. The new tests are implemented in the R package PoweR.

Dates et versions

hal-03929998 , version 1 (09-01-2023)

Identifiants

Citer

Alain Desgagné, Pierre Lafaye de Micheaux, Frédéric Ouimet. Goodness-of-fit tests for Laplace, Gaussian and exponential power distributions based on λ -th power skewness and kurtosis. Statistics, 2022, pp.1-29. ⟨10.1080/02331888.2022.2144859⟩. ⟨hal-03929998⟩
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