# NOT RUN {
# a simulation
kNumSim <- 100
kNumObs <- 200
################# Gaussian (Symmetric) ####
A <- t(replicate(kNumSim, {xx <- rnorm(kNumObs); c(skewness(xx), medcouple_estimator(xx))}))
########### skewed LambertW x Gaussian ####
tau.s <- gamma_01(0.2) # zero mean, unit variance, but positive skewness
rbind(mLambertW(theta = list(beta = tau.s[c("mu_x", "sigma_x")],
gamma = tau.s["gamma"]),
distname="normal"))
B <- t(replicate(kNumSim,
{
xx <- rLambertW(n = kNumObs,
theta = list(beta = tau.s[c("mu_x", "sigma_x")],
gamma = tau.s["gamma"]),
distname="normal")
c(skewness(xx), medcouple_estimator(xx))
}))
colnames(A) <- colnames(B) <- c("MedCouple", "Pearson Skewness")
layout(matrix(1:4, ncol = 2))
plot(A, main = "Gaussian")
boxplot(A)
abline(h = 0)
plot(B, main = "Skewed Lambert W x Gaussian")
boxplot(B)
abline(h = mLambertW(theta = list(beta = tau.s[c("mu_x", "sigma_x")],
gamma = tau.s["gamma"]),
distname="normal")["skewness"])
colMeans(A)
apply(A, 2, sd)
colMeans(B)
apply(B, 2, sd)
# }
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