A logistic L-moment based analog for the Tukey g-h, g, h, and h-h system of distributions
Abstract
This paper introduces a standard logistic L-moment-based system of distributions. The proposed
system is an analog to the standard normal conventional moment-based Tukey g-h, g, h, and h-h
system of distributions. The system also consists of four classes of distributions and is referred to as
i asymmetric γ-κ, ii log-logistic γ, iii symmetric κ, and iv asymmetric κL-κR. The system can
be used in a variety of settings such as simulation or modeling events—most notably when heavytailed distributions are of interest. A procedure is also described for simulating γ-κ, γ, κ, and κL-κR
distributions with specified L-moments and L-correlations. The Monte Carlo results presented in
this study indicate that estimates of L-skew, L-kurtosis, and L-correlation associated with the γ-κ, γ,
κ, and κL-κR distributions are substantially superior to their corresponding conventional productmoment estimators in terms of relative bias and relative standard error.