TSMNgenerator: Generator of Truncated Scale Mixtures of Normal Distributions
In TSMN: Truncated Scale Mixtures of Normal Distributions
Description
Usage
Arguments
Details
Value
Author(s)
References
See Also
Examples
Description
This function generate random TSMN samples from Normal, Student-t, Slash and Contaminated Normal, using the the inverse method.
Usage
1
TSMNgenerator(n, mu, sigma2, nu = NULL, lower = -Inf, upper = Inf, dist = "Normal")
Arguments
n
Number of observations.
mu
Location parameter.
sigma2
Scale parameter.
nu
Parameter of the scale variable of the SMN family. Must be NULL in case of Normal distribution. Must be a bidimensional vector in case of contaminated normal distribution (CNormal).
lower
Lower bounds.
upper
Upper bounds.
dist
Distribution to be used: "Normal" for Normal model, "T" for Student-t model, "Slash" for slash model and "CNormal" for contaminated Normal model.
Details
For the contaminated Normal distribution, each component of the bidimensional vector "nu" must lie on (0,1).
Value
Returns the sample generated according to the parameters.
Author(s)
Eraldo B. dos Anjos Filho ebdaf1@de.ufpe.br and Aldo M. Garay agaray@de.ufpe.br
Maintainer: Eraldo B. dos Anjos Filho ebdaf1@de.ufpe.br
References
Aldo M. Garay, Victor H. Lachos, Heleno Bolfarine, Celso R. Cabral. "Linear censored regression models with scale mixtures of normal distributions".
Statistical Papers, 2017, vol. 58, issue 1, pages 247-278
See Also
Examples
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## A test sample to compare theoretical and empirical moments, considering the following parameters:
mu = 2
sigma2 = 4
nu = 5
lower = -3
upper = 10
dist = "T"
n = 10000
## Theoretical moments with TSMNmoments
theor<-TSMNmoments(mu=mu, sigma2=sigma2, nu=nu, lower=lower, upper=upper, dist=dist)
## Generate the sample with TSMNgenerator to compute the empirical moments
empir<-TSMNgenerator(n=n, mu=mu, sigma2=sigma2, nu=nu, lower=lower, upper=upper, dist=dist)
## Compare the results
data.frame("1st" = c("Theoretic" = theor$EY1, "Empirical" = mean(empir)),
"2nd" = c("Theoretic" = theor$EY2, "Empirical" = mean(empir^2)),
"3rd" = c("Theoretic" = theor$EY3, "Empirical" = mean(empir^3)),
"4th" = c("Theoretic" = theor$EY4, "Empirical" = mean(empir^4)))
TSMN documentation built on May 1, 2019, 8:01 p.m.
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Description Usage Arguments Details Value Author(s) References See Also Examples
Description
This function generate random TSMN samples from Normal, Student-t, Slash and Contaminated Normal, using the the inverse method.
Usage
1 | TSMNgenerator(n, mu, sigma2, nu = NULL, lower = -Inf, upper = Inf, dist = "Normal")
|
Arguments
n |
Number of observations. |
mu |
Location parameter. |
sigma2 |
Scale parameter. |
nu |
Parameter of the scale variable of the SMN family. Must be NULL in case of Normal distribution. Must be a bidimensional vector in case of contaminated normal distribution (CNormal). |
lower |
Lower bounds. |
upper |
Upper bounds. |
dist |
Distribution to be used: "Normal" for Normal model, "T" for Student-t model, "Slash" for slash model and "CNormal" for contaminated Normal model. |
Details
For the contaminated Normal distribution, each component of the bidimensional vector "nu" must lie on (0,1).
Value
Returns the sample generated according to the parameters.
Author(s)
Eraldo B. dos Anjos Filho ebdaf1@de.ufpe.br and Aldo M. Garay agaray@de.ufpe.br
Maintainer: Eraldo B. dos Anjos Filho ebdaf1@de.ufpe.br
References
Aldo M. Garay, Victor H. Lachos, Heleno Bolfarine, Celso R. Cabral. "Linear censored regression models with scale mixtures of normal distributions". Statistical Papers, 2017, vol. 58, issue 1, pages 247-278
See Also
Examples
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 | ## A test sample to compare theoretical and empirical moments, considering the following parameters:
mu = 2
sigma2 = 4
nu = 5
lower = -3
upper = 10
dist = "T"
n = 10000
## Theoretical moments with TSMNmoments
theor<-TSMNmoments(mu=mu, sigma2=sigma2, nu=nu, lower=lower, upper=upper, dist=dist)
## Generate the sample with TSMNgenerator to compute the empirical moments
empir<-TSMNgenerator(n=n, mu=mu, sigma2=sigma2, nu=nu, lower=lower, upper=upper, dist=dist)
## Compare the results
data.frame("1st" = c("Theoretic" = theor$EY1, "Empirical" = mean(empir)),
"2nd" = c("Theoretic" = theor$EY2, "Empirical" = mean(empir^2)),
"3rd" = c("Theoretic" = theor$EY3, "Empirical" = mean(empir^3)),
"4th" = c("Theoretic" = theor$EY4, "Empirical" = mean(empir^4)))
|
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