R/dExW.R
In ousuga/RelDists: Estimation for some Reliability Distributions
Defines functions
hExW
rExW
qExW
pExW
dExW
Documented in
dExW
hExW
pExW
qExW
rExW
#' The Extended Weibull distribution
#'
#' @author Amylkar Urrea Montoya, \email{amylkar.urrea@@udea.edu.co}
#'
#' @description
#' Density, distribution function, quantile function,
#' random generation and hazard function for the Extended Weibull distribution
#' with parameters \code{mu}, \code{sigma} and \code{nu}.
#'
#' @param x,q vector of quantiles.
#' @param p vector of probabilities.
#' @param n number of observations.
#' @param mu parameter.
#' @param sigma parameter.
#' @param nu parameter.
#' @param log,log.p logical; if TRUE, probabilities p are given as log(p).
#' @param lower.tail logical; if TRUE (default), probabilities are P[X <= x], otherwise, P[X > x].
#'
#' @details
#' The Extended Weibull distribution with parameters \code{mu},
#' \code{sigma} and \code{nu} has density given by
#'
#' \eqn{f(x) = \frac{\mu \sigma \nu x^{\sigma -1} exp({-\mu x^{\sigma}})} {[1 -(1-\nu) exp({-\mu x^{\sigma}})]^2},}
#'
#' for x > 0.
#'
#' @return
#' \code{dExW} gives the density, \code{pExW} gives the distribution
#' function, \code{qExW} gives the quantile function, \code{rExW}
#' generates random deviates and \code{hExW} gives the hazard function.
#'
#' @example examples/examples_dExW.R
#'
#' @references
#' \insertRef{almalki2014modifications}{RelDists}
#'
#' \insertRef{Zhang2007}{RelDists}
#'
#' @importFrom Rdpack reprompt
#'
#' @export
dExW <- function(x, mu, sigma, nu, log=FALSE){
if (any(x <= 0))
stop(paste("x must be positive", "\n", ""))
if (any(mu <= 0))
stop(paste("mu must be positive", "\n", ""))
if (any(sigma <= 0))
stop(paste("sigma must be positive", "\n", ""))
if (any(nu <= 0))
stop(paste("nu must be positive", "\n", ""))
A <- log(mu) + log(sigma) + log(nu) + (sigma - 1) * log(x) - mu * x^(sigma)
B <- 2 * log((1 - (1 - nu) * exp(- mu * x^(sigma))))
loglik <- A - B
if (log == FALSE)
density <- exp(loglik)
else
density <- loglik
return(density)
}
#' @export
#' @rdname dExW
pExW <- function(q, mu, sigma, nu,
lower.tail=TRUE, log.p=FALSE){
if (any(mu <= 0))
stop(paste("mu must be positive", "\n", ""))
if (any(sigma <= 0))
stop(paste("sigma must be positive", "\n", ""))
if (any(nu <= 0))
stop(paste("nu must be positive", "\n", ""))
A <- 1 - exp(- mu * q^(sigma))
B <- 1 - (1 - nu) * exp(- mu * q^(sigma))
cdf <- A / B
if (lower.tail == TRUE)
cdf <- cdf
else cdf <- 1 - cdf
if (log.p == FALSE)
cdf <- cdf
else cdf <- log(cdf)
cdf
}
#' @export
#' @rdname dExW
qExW <- function(p, mu, sigma, nu,
lower.tail=TRUE, log.p=FALSE){
if (any(mu <= 0))
stop(paste("mu must be positive", "\n", ""))
if (any(sigma <= 0))
stop(paste("sigma must be positive", "\n", ""))
if (any(nu <= 0))
stop(paste("nu must be positive", "\n", ""))
if (log.p == TRUE)
p <- exp(p)
else p <- p
if (lower.tail == TRUE)
p <- p
else p <- 1 - p
if (any(p < 0) | any(p > 1))
stop(paste("p must be between 0 and 1", "\n", ""))
fda <- function(x, mu, sigma, nu){
((1 - exp(- mu * x^(sigma))) / ( 1 - (1 - nu) * exp(- mu * x^(sigma))))
}
fda1 <- function(x, mu, sigma, nu, p) {
fda(x, mu, sigma, nu) - p
}
r_de_la_funcion <- function(mu, sigma, nu, p) {
uniroot(fda1, interval=c(0, 1e+06), mu, sigma, nu, p)$root
}
r_de_la_funcion <- Vectorize(r_de_la_funcion)
q <- r_de_la_funcion(mu, sigma, nu, p)
q
}
#' @importFrom stats runif
#' @export
#' @rdname dExW
rExW <- function(n, mu, sigma, nu){
if (any(mu <= 0))
stop(paste("mu must be positive", "\n", ""))
if (any(sigma <= 0))
stop(paste("sigma must be positive", "\n", ""))
if (any(nu <= 0))
stop(paste("nu must be positive", "\n", ""))
n <- ceiling(n)
p <- runif(n)
r <- qExW(p, mu, sigma, nu)
r
}
#' @export
#' @rdname dExW
hExW<-function(x, mu, sigma, nu){
if (any(x <= 0))
stop(paste("x must be positive", "\n", ""))
if (any(mu <= 0))
stop(paste("mu must be positive", "\n", ""))
if (any(sigma <= 0))
stop(paste("sigma must be positive", "\n", ""))
if (any(nu <= 0))
stop(paste("nu must be positive", "\n", ""))
h <- dExW(x, mu, sigma, nu, log=FALSE) /
pExW(q=x, mu, sigma, nu, lower.tail=FALSE, log.p=FALSE)
h
}
ousuga/RelDists documentation built on Jan. 12, 2023, 10:27 p.m.
R Package Documentation
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Defines functions hExW rExW qExW pExW dExW
Documented in dExW hExW pExW qExW rExW
#' The Extended Weibull distribution
#'
#' @author Amylkar Urrea Montoya, \email{amylkar.urrea@@udea.edu.co}
#'
#' @description
#' Density, distribution function, quantile function,
#' random generation and hazard function for the Extended Weibull distribution
#' with parameters \code{mu}, \code{sigma} and \code{nu}.
#'
#' @param x,q vector of quantiles.
#' @param p vector of probabilities.
#' @param n number of observations.
#' @param mu parameter.
#' @param sigma parameter.
#' @param nu parameter.
#' @param log,log.p logical; if TRUE, probabilities p are given as log(p).
#' @param lower.tail logical; if TRUE (default), probabilities are P[X <= x], otherwise, P[X > x].
#'
#' @details
#' The Extended Weibull distribution with parameters \code{mu},
#' \code{sigma} and \code{nu} has density given by
#'
#' \eqn{f(x) = \frac{\mu \sigma \nu x^{\sigma -1} exp({-\mu x^{\sigma}})} {[1 -(1-\nu) exp({-\mu x^{\sigma}})]^2},}
#'
#' for x > 0.
#'
#' @return
#' \code{dExW} gives the density, \code{pExW} gives the distribution
#' function, \code{qExW} gives the quantile function, \code{rExW}
#' generates random deviates and \code{hExW} gives the hazard function.
#'
#' @example examples/examples_dExW.R
#'
#' @references
#' \insertRef{almalki2014modifications}{RelDists}
#'
#' \insertRef{Zhang2007}{RelDists}
#'
#' @importFrom Rdpack reprompt
#'
#' @export
dExW <- function(x, mu, sigma, nu, log=FALSE){
if (any(x <= 0))
stop(paste("x must be positive", "\n", ""))
if (any(mu <= 0))
stop(paste("mu must be positive", "\n", ""))
if (any(sigma <= 0))
stop(paste("sigma must be positive", "\n", ""))
if (any(nu <= 0))
stop(paste("nu must be positive", "\n", ""))
A <- log(mu) + log(sigma) + log(nu) + (sigma - 1) * log(x) - mu * x^(sigma)
B <- 2 * log((1 - (1 - nu) * exp(- mu * x^(sigma))))
loglik <- A - B
if (log == FALSE)
density <- exp(loglik)
else
density <- loglik
return(density)
}
#' @export
#' @rdname dExW
pExW <- function(q, mu, sigma, nu,
lower.tail=TRUE, log.p=FALSE){
if (any(mu <= 0))
stop(paste("mu must be positive", "\n", ""))
if (any(sigma <= 0))
stop(paste("sigma must be positive", "\n", ""))
if (any(nu <= 0))
stop(paste("nu must be positive", "\n", ""))
A <- 1 - exp(- mu * q^(sigma))
B <- 1 - (1 - nu) * exp(- mu * q^(sigma))
cdf <- A / B
if (lower.tail == TRUE)
cdf <- cdf
else cdf <- 1 - cdf
if (log.p == FALSE)
cdf <- cdf
else cdf <- log(cdf)
cdf
}
#' @export
#' @rdname dExW
qExW <- function(p, mu, sigma, nu,
lower.tail=TRUE, log.p=FALSE){
if (any(mu <= 0))
stop(paste("mu must be positive", "\n", ""))
if (any(sigma <= 0))
stop(paste("sigma must be positive", "\n", ""))
if (any(nu <= 0))
stop(paste("nu must be positive", "\n", ""))
if (log.p == TRUE)
p <- exp(p)
else p <- p
if (lower.tail == TRUE)
p <- p
else p <- 1 - p
if (any(p < 0) | any(p > 1))
stop(paste("p must be between 0 and 1", "\n", ""))
fda <- function(x, mu, sigma, nu){
((1 - exp(- mu * x^(sigma))) / ( 1 - (1 - nu) * exp(- mu * x^(sigma))))
}
fda1 <- function(x, mu, sigma, nu, p) {
fda(x, mu, sigma, nu) - p
}
r_de_la_funcion <- function(mu, sigma, nu, p) {
uniroot(fda1, interval=c(0, 1e+06), mu, sigma, nu, p)$root
}
r_de_la_funcion <- Vectorize(r_de_la_funcion)
q <- r_de_la_funcion(mu, sigma, nu, p)
q
}
#' @importFrom stats runif
#' @export
#' @rdname dExW
rExW <- function(n, mu, sigma, nu){
if (any(mu <= 0))
stop(paste("mu must be positive", "\n", ""))
if (any(sigma <= 0))
stop(paste("sigma must be positive", "\n", ""))
if (any(nu <= 0))
stop(paste("nu must be positive", "\n", ""))
n <- ceiling(n)
p <- runif(n)
r <- qExW(p, mu, sigma, nu)
r
}
#' @export
#' @rdname dExW
hExW<-function(x, mu, sigma, nu){
if (any(x <= 0))
stop(paste("x must be positive", "\n", ""))
if (any(mu <= 0))
stop(paste("mu must be positive", "\n", ""))
if (any(sigma <= 0))
stop(paste("sigma must be positive", "\n", ""))
if (any(nu <= 0))
stop(paste("nu must be positive", "\n", ""))
h <- dExW(x, mu, sigma, nu, log=FALSE) /
pExW(q=x, mu, sigma, nu, lower.tail=FALSE, log.p=FALSE)
h
}
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Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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